Tapinarof Is a Natural AhR Agonist that Resolves Skin Inflammation in Mice and Humans

The AhR pathway is dysregulated in alopecia areata

Despite significant progress in the treatment of alopecia areata (AA), many aspects of its immune-based pathogenesis remain unexplored. IFN-γ, primarily produced by CD8+ T cells and NK cells, is considered central to AA pathogenesis. However, the complex immune signaling network contributes to therapeutic resistance and frequent disease flares after treatment discontinuation. The aryl hydrocarbon receptor (AhR) pathway, upregulated by IFN-γ, modulates Th17 responses, but its inhibitory effects on IFN-γ remain unclear. Although IL-17 levels are elevated in AA, clinical trials indicate that IL-17A inhibitors are ineffective. AhR expression is known to induce immune checkpoints (ICPs) such as PD-1, suggesting a potential role as a negative feedback mechanism. This study investigated AhR expression in lymphocytes from AA patients and its association with clinical and laboratory markers of disease activity. AhR expression was significantly reduced in CD4, CD8, Th1, and Th17 lymphocytes in AA patients compared to healthy controls (p < 0.005), and it correlated inversely with SALTII scores (p < 0.05). ROC analysis showed that AhR levels in CD8 cells could differentiate mild AA from healthy controls with a sensitivity of 82.35 % and specificity of 86.84 %, suggesting potential diagnostic utility. Lower AhR levels were associated with increased IFN-γ+ lymphocytes and decreased IL-17+ immune cells. Interestingly, immune profiles differed between atopic and non-atopic patients: in severe AA, higher AhR expression was linked to increased sPD-1 concentrations, whereas in limited AA, AhR failed to upregulate any investigated ICP. These findings highlight the significant downregulation of the AhR pathway in AA and suggest its potential as a therapeutic target. Future research should explore the development of AhR agonists or antagonists to modulate immune responses in AA.

Maximal Usage Trial of Tapinarof Cream 1% Once Daily in Pediatric Patients Down to 2 Years of Age with Extensive Atopic Dermatitis

BACKGROUND

Tapinarof cream 1% is an aryl hydrocarbon receptor agonist approved by the US Food and Drug Administration to treat atopic dermatitis (AD) in patients down to age 2 years.

OBJECTIVE

The aim of this study was to evaluate the safety and pharmacokinetics of tapinarof cream 1% once daily (QD) in adolescents and children with extensive AD under maximal usage conditions.

METHODS

Patients with a validated Investigator Global Assessment scale for Atopic Dermatitis™ (vIGA-AD™) score ≥ 3 and body surface area (BSA) involvement ≥ 25% (ages 12-17 years) or ≥ 35% (ages 2-11 years) were enrolled into three age cohorts (2-6, 7-11, and 12-17 years) and received tapinarof cream 1% QD for 4 weeks.

RESULTS

Overall, 36 patients (12 per cohort) were enrolled; mean BSA affected was 42.8% (range 26.0-90.0) and mean Eczema Area and Severity Index (EASI) score was 23.8. At baseline, 28 patients (77.8%) had a vIGA-AD™ score of 3 (moderate). No-to-minimal tapinarof systemic exposure was observed (25% of post-treatment plasma samples were below the quantifiable limit of a highly sensitive assay [< 50 pg/mL]). Mean maximum plasma concentration (Cmax) was 2.44 ng/mL, and median time to Cmax was 2.9 h. Eight patients (22.2%) reported treatment-emergent adverse events (TEAEs), which were mild or moderate; only one patient discontinued due to two unrelated TEAEs. One case of mild folliculitis and no contact dermatitis occurred. Tapinarof was well tolerated, including on sensitive skin and extensor/flexural surfaces.

CONCLUSION

Tapinarof cream exhibits highly favorable safety and pharmacokinetics in adolescents and children down to age 2 years with extensive AD.

TRIAL REGISTRATION

ClinicalTrials.gov: NCT05186805.

Targeting the Aryl Hydrocarbon Receptor to Attenuate IGF1R Signaling in Thyroid Eye Disease

Background: Thyroid eye disease (TED) is an autoimmune disorder characterized by proptosis, inflammation, and fibrosis. Elevated insulin-like growth factor 1 receptor (IGF1R) signaling in TED orbital fibroblasts (OFs) drives the proliferation and biosynthesis of hyaluronan, which causes enlargement of orbital tissue volume. The aryl hydrocarbon receptor (AHR) is a ligand-activated transcription factor that regulates cellular stress responses, metabolism, and inflammation. Given its important role in regulating cellular responses, we hypothesized that activation of the AHR could limit excessive IGF1R signaling in TED OFs, offering therapeutic potential. Methods: We measured IGF1R and AHR expression levels in TED, non-TED, and non-OF controls. OF activation was analyzed using proliferation, hyaluronan accumulation, and migration assays. RNA sequencing was used to detect transcriptome-wide changes in IGF1-treated TED OFs. After gene set enrichment analysis, select gene expression changes were validated by quantitative polymerase chain reaction. OFs were treated with the AHR ligands 6-formylindolo[3,2-b]carbazole (FICZ) or tapinarof with or without IGF1. Western blotting evaluated signaling pathways impacted by AHR and IGF1R signaling. Results: TED OFs showed elevated IGF1R and AHR expression levels compared to controls. IGF1 significantly increased hyaluronan accumulation, proliferation, and migration in TED OFs compared to non-TED OFs. IGF1R signaling altered the expression of hundreds of genes controlling cell migration, proliferation, and metabolism in TED OFs. These genes included TUBA1B, TUBA1C, CRABP2 (upregulated), and IRS2 and SOD3 (downregulated). AHR activation blocked proliferation, migration, hyaluronan production, and gene expression mediated through IGF1R signaling. The AHR inhibited these pathways by reducing phosphorylation of GSK3β, an important mediator of IGF1R/β-catenin mediated signaling. Conclusions: AHR activation represents a promising therapeutic strategy for mitigating TED progression by inhibiting IGF1R signaling. Through modulation of GSK3β-mediated pathways, AHR activation may target additional pathologically relevant pathways beyond those affected by direct IGF1R inhibitors. This research provides novel insights into TED pathophysiology and offers a potential avenue for developing therapies to improve patient outcomes.

Tapinarof Cream 1%: Pediatric First Approval

The aryl hydrocarbon receptor (AhR) has an integral role in maintaining skin homeostasis. Tapinarof cream 1% (VTAMA®) is an AhR agonist developed by Dermavant Sciences, an Organon Company, as a once-daily topical treatment for plaque psoriasis and atopic dermatitis (AD). It was first approved in May 2022 in the USA for the topical treatment of plaque psoriasis in adults. It was then approved in June 2024 in Japan for the topical treatment of plaque psoriasis in adults and AD in adults and pediatric patients 12 years of age and older. In December 2024, it was approved in the USA for the topical treatment of AD in adults and pediatric patients 2 years of age and older. This article summarizes the milestones in the development of tapinarof cream 1% leading to this first pediatric approval.

The aryl hydrocarbon receptor: a rehabilitated target for therapeutic immune modulation

The aryl hydrocarbon receptor (AHR) is a ligand-activated transcription factor originally identified as the target mediating the toxic effects of environmental pollutants including polycyclic aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs) and dioxins. For years, AHR activation was actively avoided during drug development. However, the AHR was later identified as an important physiological regulator of the immune response. These findings triggered a paradigm shift that resulted in identification of the AHR as a regulator of both innate and adaptive immunity and outlined a pathway for its modulation by the diet, commensal flora and metabolism in the context of autoimmunity, cancer and infection. Moreover, the AHR was revealed as a candidate target for the therapeutic modulation of the immune response. Indeed, the first AHR-activating drug (tapinarof) was recently approved for the treatment of psoriasis. Clinical trials are underway to evaluate the effects of tapinarof and other AHR-targeting therapeutics in inflammatory diseases, cancer and infections. This Review outlines the molecular mechanism of AHR action, and describes how it regulates the immune response. We also discuss links to disease and AHR-targeting therapeutics that have been tested in past and ongoing clinical trials.

Advancements in pharmacological interventions for atopic dermatitis current strategies and future directions

Atopic dermatitis (AD) is a complex chronic inflammatory skin disorder, with its incidence significantly increasing in recent years. The pathogenesis of AD is complex, involving multiple factors such as genetic susceptibility, dysbiosis of the skin microbiome, autoimmune abnormalities, impaired epidermal barrier function, and environmental factors. These factors collectively contribute to the high incidence of the disease and its significant socio-economic burden. This article reviews the pathogenesis of AD and analyzes the current traditional treatment approaches, including topical and systemic therapies, highlighting the issues they face. It focuses on the current status and treatment strategies. Specifically, as the significant heterogeneity of AD, treatment paradigms are gradually shifting from a "one-size-fits-all" approach to personalized treatments. The aim is to achieve more effective management of AD and address the issues arising from individual differences. Through these discussions, this article aims to provide new perspectives and strategies for the clinical treatment of AD, in order to reduce the disease burden on patients.

The role of the AHR in host-pathogen interactions

Host-microorganism encounters take place in many different ways and with different types of outcomes. Three major types of microorganisms need to be distinguished: (1) pathogens that cause harm to the host and must be controlled; (2) environmental microorganisms that can be ignored but must be controlled at higher abundance; and (3) symbiotic microbiota that require support by the host. Recent evidence indicates that the aryl hydrocarbon receptor (AHR) senses and initiates signalling and gene expression in response to a plethora of microorganisms and infectious conditions. It was originally identified as a receptor that binds xenobiotics. However, it was subsequently found to have a critical role in numerous biological processes, including immunity and inflammation and was recently classified as a pattern recognition receptor. Here we review the role of the AHR in host-pathogen interactions, focusing on AHR sensing of different microbial classes, the ligands involved, responses elicited and disease outcomes. Moreover, we explore the therapeutic potential of targeting the AHR in the context of infection.

The AhR-Ovol1-Id1 regulatory axis in keratinocytes promotes epidermal and immune homeostasis in atopic dermatitis-like skin inflammation

The skin is our outer permeability and immune defense barrier against myriad external assaults. Aryl hydrocarbon receptor (AhR) senses environmental factors and regulates barrier robustness and immune homeostasis. AhR agonists have been approved by the FDA for psoriasis treatment and are in clinical trials for the treatment of atopic dermatitis (AD), but the underlying mechanism of action remains poorly defined. Here, we report that OVOL1/Ovol1 is a conserved and direct transcriptional target of AhR in epidermal keratinocytes. We show that OVOL1/Ovol1 influences AhR-mediated regulation of keratinocyte gene expression and that OVOL1/Ovol1 ablation in keratinocytes impairs the barrier-promoting function of AhR, exacerbating AD-like inflammation. Mechanistically, we have identified Ovol1's direct downstream targets genome-wide and provided in vivo evidence supporting the role of Id1 as a functional target in barrier maintenance, disease suppression, and neutrophil accumulation. Furthermore, our findings reveal that an IL-1/dermal γδT cell axis exacerbates type 2 and 3 immune responses downstream of barrier perturbation in Ovol1-deficient AD skin. Finally, we present data suggesting the clinical relevance of OVOL1 and ID1 functions in human AD skin. Our study highlights a keratinocyte-intrinsic AhR-Ovol1-Id1 regulatory axis that promotes both epidermal and immune homeostasis in the context of skin inflammation, identifying new therapeutic targets.

An overview of small-molecule agents for the treatment of psoriasis

Psoriasis is a prevalent, chronic inflammatory disease characterized by abnormal skin plaques. To date, physical therapy, topical therapy, systemic therapy and biologic drugs are the most commonly employed strategies for treating psoriasis. Recently, many agents have advanced to clinical trials, and some anti-psoriasis drugs have been approved, including antibody drugs and small-molecule drugs. Many antibody drugs targeting cytokines and receptors, such as interleukin (IL-17 and IL-23) and tumor necrosis factor-α (TNF-α), have been approved for the treatment of psoriasis. And numerous small-molecule agents have displayed promising activities in the treatment of psoriasis. The targets of anti-psoriasis drugs encompass phosphodiesterase IV (PDE4), Janus kinase (JAK), tyrosine kinase (TYK), retinoic acid-related orphan receptors (ROR), vitamin D receptor (VDR), Interleukin (IL), Aryl hydrocarbon receptor (AhR), Interleukin-1 receptor-associated kinase 4 (IRAK), chemoattractant-like receptor 1 (ChemR23), Sphingosine-1-phosphate receptor (S1P), A3 adenosine receptor (A3AR), Heat shock protein 90 (HSP90), The Rho-associated protein kinases (ROCK), The bromodomain and extra-terminal domain (BET), FMS-like tyrosine kinase 3 (FLT3), Tumor Necrosis Factor α Converting Enzyme (TACE), Toll-like receptors (TLR), NF-κB inducing kinase (NIK), DNA topoisomerase I (Topo I), among others. Herein, this review mainly recapitulates the advancements in the structure and enzyme activity of small-molecule anti-psoriasis agents over the last ten years, and their binding modes were also explored. Hopefully, this review will facilitate the development of novel small-molecule agents as potential anti-psoriasis drugs.

GWAS meta-analysis of psoriasis identifies new susceptibility alleles impacting disease mechanisms and therapeutic targets

Psoriasis is a common, debilitating immune-mediated skin disease. Genetic studies have identified biological mechanisms of psoriasis risk, including those targeted by effective therapies. However, the genetic liability to psoriasis is not fully explained by variation at robustly identified risk loci. To refine the genetic map of psoriasis susceptibility we meta-analysed 18 GWAS comprising 36,466 cases and 458,078 controls and identified 109 distinct psoriasis susceptibility loci, including 46 that have not been previously reported. These include susceptibility variants at loci in which the therapeutic targets IL17RA and AHR are encoded, and deleterious coding variants supporting potential new drug targets (including in STAP2, CPVL and POU2F3). We conducted a transcriptome-wide association study to identify regulatory effects of psoriasis susceptibility variants and cross-referenced these against single cell expression profiles in psoriasis-affected skin, highlighting roles for the transcriptional regulation of haematopoietic cell development and epigenetic modulation of interferon signalling in psoriasis pathobiology.

The Aryl Hydrocarbon Receptor (AHR): Peacekeeper of the Skin

In the last decade, the aryl hydrocarbon receptor (AHR) has emerged as a critical peacekeeper for the maintenance of healthy skin. The evolutionary conservation of AHR implied physiological functions for this receptor, beyond the detoxification of man-made compounds, a notion further supported by the existence of physiological AHR ligands, notably derivates of tryptophan by the host and host microbiome. The UV light-derived ligand, 6-formylindolo[3,2-b]carbazole (FICZ), anticipated a role for AHR in skin, a UV light-exposed organ, where physiological AHR activation promotes a healthy skin barrier and constrains inflammation. The clinical development of tapinarof, the first topical AHR modulating drug for inflammatory skin disease, approved by the FDA for mild-to-moderate psoriasis and poised for approval in atopic dermatitis, supports the therapeutic targeting of the AHR pathway to harness its beneficial effect in skin inflammation. Here, we describe how a tightly controlled, physiological activation of the AHR pathway maintains skin homeostasis, and discuss how the pathway is dysregulated in psoriasis and atopic dermatitis, identifying areas offering opportunities for alternative therapeutic approaches, for further investigation.

Stilbene-enriched extract from the leaves of Cajanus cajan attenuates psoriasis in imiquimod-induced psoriatic mice by targeting aryl hydrocarbon receptor and chemokines

ETHNOPHARMACOLOGICAL RELEVANCE

The leaves of Cajanus cajan (L.) Millsp., an Asian traditional folkloric medicine, have been used to treat inflammatory conditions since ancient times. In Southern China, these leaves have been employed to alleviate the symptoms associated with various skin diseases. However, the therapeutic effects and the underlying mechanisms of Cajanus cajan leaves in the treatment of psoriasis remain poorly understood.

AIM OF THE STUDY

This study aims to investigate the efficacy of stilbene-enriched extract from C. cajan leaves (termed as "EXT") in treating imiquimod (IMQ)-induced psoriatic mice and to elucidate its possible underlying mechanism in psoriasis treatment.

MATERIALS AND METHODS

The coumpounds of EXT was analyzed through a UPLC-MS system, the MS survey scan was conducted across the mass range of m/z 100-1000 Da. The activation of aryl hydrocarbon receptor (AhR), a potential therapeutic target, by EXT in HaCaT cells was assessed using RT-qPCR and immunofluorescence. Subsequently, EXT was administrated to IMQ-induced psoriatic mice once daily for 10 days. The efficacy of EXT in treating psoriasis was evaluated through pathological analysis including change of weight, PASI score, Baker score, epidermal thickness, and H&E staining of lesion skin. Additionally, transcriptomic analysis of lesion skins was conducted to identify the potential therapeutic targets and possible mechanisms of EXT in psoriasis treatment.

RESULTS

It was identified that the primary stilbenes present in EXT were 3.10% pinosylvin monomethyl ether (PME), 12.32 % cajaninstilbene (CSA), 4.54 % ongistylin A (LGA) and 2.43 % longistylin C (LGC). In cellular tests, the addition of 2.5 μg/mL EXT to HaCaT cells enhanced the expression of AhR and its nuclear translocation. In vivo tests of EXT in IMQ-induced psoriasis mouse model, 50 mg 1.0 % EXT reduced PASI and Baker score of lesion skin to 2.67 and 4.5, respectively. In addition, the epidermis thickness of lesion skin induced by IMQ returned to normal following the application of 50 mg 1.0 % EXT in psoriatic mice. Transcriptomic profiling revealed significant downregulation of numerous chemokines (Ccl2, Ccl20, and Cxc5, etc.), pro-inflammatory cytokines (Il17a, Il19, Il22, and Il23, etc.), and genes associated with keratinocyte differentiation (Lce and Sprr family genes). Conversely, AhR and genes of the cytochrome P450 family were activated.

CONCLUSIONS

This study is the first to demonstrate that the ethyl acetate (EtOAc) extract enriched with stilbenes from Cajanus cajan leaves (EXT) effectively alleviates symptoms in IMQ-induced psoriatic mice. The mechanism involves the activation of the aryl hydrocarbon receptor (AhR) and a subsequent reduction in the production of various inflammatory chemokines and cytokines. These findings suggest that EXT holds significant potential as a plant-derived therapeutic agent for the treatment of psoriasis.

Protocatechuic aldehyde ameliorates psoriasis-like skin inflammation and represses keratinocyte-derived IL-1α and CXCL9 via inhibiting STAT3 activation

Psoriasis is a chronic inflammatory skin disease. Consistent activation of Signal Transducer and Activator of Transcription 3 (STAT3) in epidermal keratinocyte transactivates various keratinocyte-derived pro-inflammatory cytokines and elicits spontaneous psoriasis-like skin inflammation. In the current study, we first report that topical application of protocatechuic aldehyde (PA), the bioactive compound from Salvia miltiorrhiza (Danshen), significantly improved psoriasis-like skin symptoms and reduced immune cell infiltration in psoriatic lesions. Further molecular mechanism studies demonstrated that PA inactivated STAT3 and inhibited STAT3-mediated transactivation of interleukin-1α (IL-1α) and C-X-C motif chemokine ligand 9 (CXCL9) in epidermal keratinocyte both in vivo and in vitro. Knockdown of STAT3 attenuated the repression effect on IL-1α and CXCL9 by PA. Our results suggested that PA repressed the transactivation of IL-1α and CXCL9 through inhibiting STAT3 in keratinocyte. PA could be potentially used for psoriasis topical treatment or be as a lead compound for drug development.

Structural basis for the ligand-dependent activation of heterodimeric AHR-ARNT complex

The aryl hydrocarbon receptor (AHR) possesses an extraordinary capacity to sense and respond to a wide range of small-molecule ligands, ranging from polycyclic aromatic hydrocarbons to endogenous compounds. Upon ligand binding, AHR translocates from the cytoplasm to nucleus, forming a transcriptionally active complex with aryl hydrocarbon receptor nuclear translocator (ARNT), for DNA binding and initiation of gene expression programs that include cellular detoxification pathways and immune responses. Here, we examine the molecular mechanisms governing AHR's high-affinity binding and activation by a diverse group of ligands. Crystal structures of the AHR-ARNT-DNA complexes, bound with each of six established AHR ligands, including Tapinarof, 6-formylindolo[3,2-b]carbazole (FICZ), benzo[a]pyrene (BaP), β-naphthoflavone (BNF), Indigo and Indirubin, reveal an unconventional mode of subunit assembly with intimate association between the PAS-B domains of AHR and ARNT. AHR's PAS-B domain utilizes eight conserved residues whose dynamic rearrangements account for the ability to bind to ligands through hydrophobic and π-π interactions. Our findings further reveal the structural underpinnings of a ligand-driven activation mechanism, whereby a segment of the AHR protein undergoes a structural transition from chaperone engagement to ARNT heterodimer stabilization, to generate the transcriptionally competent assembly. Our results provide key information for the future development of AHR-targeting drugs.

A phase 2, randomized, double-blind, vehicle-controlled trial of tapinarof cream in Japanese pediatric patients with atopic dermatitis

Tapinarof is a nonsteroidal, topical, aryl hydrocarbon receptor agonist approved for the treatment of atopic dermatitis (AD) in Japanese patients aged ≥12 years. We evaluated the efficacy and safety of tapinarof in Japanese pediatric patients aged 2 to 11 years with AD in a phase 2, multicenter, randomized, double-blind, vehicle-controlled trial. Eligible patients (N = 121) were randomized 1:1:1 to receive tapinarof cream 0.5%, tapinarof cream 1%, or vehicle cream once daily for 8 weeks. At week 8, the least-squares mean percent change from baseline in Eczema Area and Severity Index (EASI) score (the primary endpoint) was -81.29% in the tapinarof 0.5% group, -77.62% in the tapinarof 1% group, and - 18.56% in the vehicle group. Reductions in EASI score at week 8 were significantly greater in the tapinarof groups than in the vehicle group (p < 0.0001 for both comparisons). The proportion of patients with ≥75% improvement from baseline in EASI score at week 8 was 77.5% in the tapinarof 0.5% group, 70.7% in the tapinarof 1% group, and 15.0% in the vehicle group. The proportion of patients who achieved an Investigator's Global Assessment score of 0 (clear) or 1 (almost clear) with ≥2-grade improvement from baseline at week 8 was 32.5% in the tapinarof 0.5% group, 43.9% in the tapinarof 1% group, and 17.5% in the vehicle group. No treatment-related serious adverse events (AEs) were reported; all of the AEs were mild or moderate. Common AEs in tapinarof-treated patients included gastroenteritis, application site irritation, and nasopharyngitis. The incidence of trial discontinuations due to AEs was low in tapinarof-treated patients (one patient for each strength). In summary, both strengths of tapinarof cream demonstrated greater efficacy than vehicle cream and were well tolerated in Japanese pediatric patients with AD.

The epidermal lipid-microbiome loop and immunity: Important players in atopic dermatitis

BACKGROUND

The promotion of epidermal barrier dysfunction is attributed to abnormalities in the lipid-microbiome positive feedback loop which significantly influences the imbalance of the epithelial immune microenvironment (EIME) in atopic dermatitis (AD). This imbalance encompasses impaired lamellar membrane integrity, heightened exposure to epidermal pathogens, and the regulation of innate and adaptive immunity. The lipid-microbiome loop is substantially influenced by intense adaptive immunity which is triggered by abnormal loop activity and affects the loop's integrity through the induction of atypical lipid composition and responses to dysregulated epidermal microbes. Immune responses participate in lipid abnormalities within the EIME by downregulating barrier gene expression and are further cascade-amplified by microbial dysregulation which is instigated by barrier impairment.

AIM OF REVIEW

This review examines the relationship between abnormal lipid composition, microbiome disturbances, and immune responses in AD while progressively substantiating the crosstalk mechanism among these factors. Based on this analysis, the "lipid-microbiome" positive feedback loop, regulated by immune responses, is proposed.

KEY SCIENTIFIC CONCEPTS OF REVIEW

The review delves into the impact of adaptive immune responses that regulate the EIME, driving AD, and investigates potential mechanisms by which lipid supplementation and probiotics may alleviate AD through the up-regulation of the epidermal barrier and modulation of immune signaling. This exploration offers support for targeting the EIME to attenuate AD.

Exploring bifunctional molecules for anti-SARS-CoV-2 and anti-inflammatory activity through structure-based virtual screening, SAR investigation, and biological evaluation

As new variants of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) continue to emerge, they raise increasing concerns about the efficacy of neutralizing antibodies and vaccines. This situation underscores the urgent need for specific drugs against the coronavirus disease 2019 (COVID-19). Given that COVID-19 is particularly associated with substantial inflammation, the development of novel, effective antiviral and anti-inflammatory agents represents a promising research direction. In this study, we virtually screened a library consisting of 2900 anti-inflammatory small molecules for their inhibitory effects on the 3-chymotrypsin-like protease (3CLpro) of SARS-CoV-2 and selected 23 promising candidates for further testing using a fluorescence resonance energy transfer (FRET) assay. The results indicated that Gnetol had the most potent inhibitory effect against SARS-CoV-2 3CLpro. Further structural modifications led to the identification of compounds 38 and 39, which displayed superior inhibitory activity. Compound 39 showed good selectivity for host proteases. Subsequently, Gnetol and its structural analogs, which demonstrated SARS-CoV-2 3CLpro inhibitory activity, were tested for their anti-inflammatory effects. Among these, Piceatannol and compound 39 exhibited enhanced anti-inflammatory effects, with compound 39 alone showing the most potent antiviral and anti-inflammatory activity. Thus, our study has explored a new research strategy for discovering antiviral and anti-inflammatory bifunctional molecules. The discovery of Gnetol and its structural analogs has provided new lead candidates for the development of COVID-19 therapeutics.

Innovations in Psoriasis

Despite numerous effective biologics for treating psoriasis, new treatments continue to be investigated due to an unmet need for certain patient populations. This review discusses therapies that were recently Food and Drug Administration (FDA)-approved for treating psoriasis, including the topical agents tapinarof and roflumilast, deucravacitinib, an oral small molecule that selectively inhibits tyrosine kinase 2, and spesolimab, a monoclonal antibody inhibiting interleukin-36 that became the first FDA-approved treatment for generalized pustular psoriasis flares. Other therapies are in the pipeline, such as orismilast, as well as Mind.Px, a tool for predicting biological response, is also highlighted.

Initial Development of Automated Machine Learning-Assisted Prediction Tools for Aryl Hydrocarbon Receptor Activators

Background: The aryl hydrocarbon receptor (AhR) plays a crucial role in immune and metabolic processes. The large molecular diversity of ligands capable of activating AhR makes it impossible to determine the structural features useful for the design of new potent modulators. Thus, in the field of drug discovery, the intricate nature of AhR activation necessitates the development of novel tools to address related challenges. Methods: In this study, quantitative structure-activity relationship (QSAR) models of classification and regression were developed with the objective of identifying the most effective method for predicting AhR activity. The initial dataset was obtained by combining the ChEMBL and WIPO databases which contained 978 molecules with EC50 values. The predictive models were developed using the automated machine learning platform mljar according to a 10-fold cross validation (10-CV) testing procedure. Results: The classification model demonstrated an accuracy value of 0.760 and F1 value of 0.789 for the test set. The root-mean-squared error (RMSE) was 5444, and the coefficient of determination (R2) was 0.208 for the regression model. The Shapley Additive Explanations (SHAP) method was then employed for a deeper comprehension of the impact of the variables on the model's predictions. As a practical application for scientific purposes, the best performing classification model was then used to develop an AhR web application. This application is accessible online and has been implemented in Streamlit. Conclusions: The findings may serve as a foundation in prompting further research into the development of a QSAR model, which could enhance comprehension of the influence of ligand structure on the modulation of AhR activity.

Exploring nature's battlefield: organismic interactions in the discovery of bioactive natural products

Covering: up to March 2024.Microbial natural products have historically been a cornerstone for the discovery of therapeutic agents. Advanced (meta)genome sequencing technologies have revealed that microbes harbor far greater biosynthetic capabilities than previously anticipated. However, despite the application of CRISPR/Cas-based gene editing and high-throughput technologies to activate silent biosynthetic gene clusters, the rapid identification of new natural products has not led to a proportional increase in the discovery rate of lead compounds or drugs. A crucial issue in this gap may be insufficient knowledge about the inherent biological and physiological functions of microbial natural products. Addressing this gap necessitates recognizing that the generation of functional natural products is deeply rooted in the interactions between the producing microbes and other (micro)organisms within their ecological contexts, an understanding that is essential for harnessing their potential therapeutic benefits. In this review, we highlight the discovery of functional microbial natural products from diverse niches, including those associated with humans, nematodes, insects, fungi, protozoa, plants, and marine animals. Many of these findings result from an organismic-interaction-guided strategy using multi-omic approaches. The current importance of this topic lies in its potential to advance drug discovery in an era marked by increasing antimicrobial resistance.

A comprehensive review of new small molecule drugs approved by the FDA in 2022: Advance and prospect

In 2022, the U.S. Food and Drug Administration approved a total of 16 marketing applications for small molecule drugs, which not only provided dominant scaffolds but also introduced novel mechanisms of action and clinical indications. The successful cases provide valuable information for optimizing efficacy and enhancing pharmacokinetic properties through strategies like macrocyclization, bioequivalent group utilization, prodrug synthesis, and conformation restriction. Therefore, gaining an in-depth understanding of the design principles and strategies underlying these drugs will greatly facilitate the development of new therapeutic agents. This review focuses on the research and development process of these newly approved small molecule drugs including drug design, structural modification, and improvement of pharmacokinetic properties to inspire future research in this field.

Tapinarof, an Aryl Hydrocarbon Receptor Ligand, Mitigates Fibroblast Activation in Thyroid Eye Disease: Implications for Novel Therapy

Purpose

In thyroid eye disease (TED), activation and proliferation of orbital fibroblasts (OFs) promotes remodeling and causes an increase in the volume of orbital tissue. Platelet-derived growth factors (PDGFs) are elevated in TED and promote OF activation. The aryl hydrocarbon receptor (AHR), a ligand activated nuclear receptor, is important in regulating OF activation. AHR ligands have been evaluated as therapeutic agents for inflammatory diseases. Here, we hypothesize that AHR ligands will block PDGF-induced signaling in TED OFs.

Methods

OFs from both non-TED and TED patients were treated with PDGFβ, with or without the AHR ligands 6-Formylindolo[3,2-b]carbazole (FICZ) or tapinarof. Cell viability was measured by the Alamar Blue assay. Cell proliferation was quantified using the BrdU assay. Cell lysates were collected and analyzed by Western blotting and real-time quantitative PCR (RT-qPCR) to measure PDGF and AHR signaling. Scratch assays were used to measure OF migration.

Results

PDGFβ induced proliferation in TED OFs significantly more than in non-TED OFs. Additionally, PDGFβ increased phosphorylation of AKT and expression of thymidylate synthase (TYMS). PDGFβ dependent proliferation and downstream signaling were attenuated by FICZ or tapinarof. TYMS and other PDGF target genes were upregulated by PDGFβ and reduced by AHR activation. PDGFβ induced TED OF migration while both FICZ and tapinarof diminished this effect.

Conclusions

PDGF signaling led to increased proliferation and activation of TED OFs. Treatment of TED OFs with the AHR ligands, FICZ and tapinarof, mitigated PDGF induced effects. These studies support the concept that AHR and PDGF signaling could form the basis for new TED therapeutics.

Tapinarof cream for the treatment of atopic dermatitis: Efficacy and safety results from two Japanese phase 3 trials

Tapinarof is a nonsteroidal, topical, aryl hydrocarbon receptor agonist. We evaluated the efficacy and safety of tapinarof cream 1% in Japanese patients aged ≥12 years with atopic dermatitis (AD) in two phase 3 trials, ZBB4-1 and ZBB4-2. ZBB4-1 (N = 216) consisted of an 8-week, double-blind, vehicle-controlled treatment period (period 1) and a 16-week extension treatment period (period 2). Patients were randomized 2:1 to tapinarof or vehicle in period 1; subsequently, all patients who enrolled in period 2 received tapinarof. ZBB4-2 (N = 291) was a 52-week, open-label, uncontrolled trial in which all patients received tapinarof. In period 1 of ZBB4-1, the proportion of patients who achieved an Investigator's Global Assessment (IGA) score of 0 (clear) or 1 (almost clear) with ≥2-grade improvement from baseline at week 8 (IGA treatment success, the primary end point) was 20.24% in the tapinarof group and 2.24% in the vehicle group (p = 0.0007). The proportion of patients with ≥75% improvement from baseline in Eczema Area and Severity Index (EASI) score at week 8 (EASI-75 response, the key secondary end point) was 40.3% in the tapinarof group and 4.3% in the vehicle group (p < 0.0001). In ZBB4-2, IGA treatment success rate was 28.1% at week 16, 32.3% at week 24, and 41.3% at week 52, and EASI-75 response rate was 53.3% at week 16, 63.7% at week 24, and 76.6% at week 52, indicating that efficacy responses improved over time and were maintained over 52 weeks. Across the two trials, most adverse events (AEs) were mild or moderate; common AEs included folliculitis, acne, and headache. In summary, tapinarof cream 1% was effective and generally safe for up to 52 weeks of treatment in Japanese patients with AD.

Addressing Unmet Needs in Atopic Dermatitis: Evaluating Disease-Modifying Capabilities of Current and Emerging Therapies

Atopic dermatitis (AD) is a highly burdensome inflammatory skin condition affecting nearly one-quarter of the pediatric population and often continuing into adulthood. Despite recent advancements in systemic therapies providing temporary symptom relief over the past decade, AD frequently remains difficult to control, necessitating increased dosages or alternative treatments due to recurrent disease. This review synthesizes current literature to identify unmet needs of treating AD beyond medication-related limitations and evaluates existing therapies for their efficacy in modifying underlying disease mechanisms. Key findings include variability in AD pathophysiology and phenotypes across different age groups and ethnicities, indicating a need for research into endotype-specific treatments. The literature also comprises evidence suggesting that select current drugs, such as targeted biologics and Janus Kinase (JAK) inhibitors, may offer long-term disease-modifying benefits. Future management strategies should explore novel approaches, including manipulation of the microbiome, immune response, and neural function, as these may lead to additional improvements in AD treatment and long-term symptom relief.

Formulation and Evaluation of Different Nanogels of Tapinarof for Treatment of Psoriasis

Psoriasis is an immune-mediated skin condition. There are many therapeutic options for its treatment; however, none of them is completely effective. Tapinarof is a promising new active substance; it was recently approved by the FDA for the treatment of psoriasis. The aim of our study was to prepare topical nanoformulations of the active substance to improve its bioavailability and therapeutic effect. The biocompatibility investigation of the formulations was carried out by MTT assay, and the size distribution of the preparations was investigated by DLS. In parallel, the rheological properties and the texture were examined, and the in vitro release of tapinarof was assessed by the Franz diffusion method. An in vitro wound healing assay was also carried out to study the drug's properties. Our results show that the preparations were safe on HaCaT cells. The particle size of the formulations was proven to be in the nanoscale range. In the in vitro release studies, nanogel II. showed greater release of the active substance. According to the wound healing assay, incorporation of the drug into nanoformulations increases the antiproliferative and antimigration activity of the drug. Overall, nanoformulations of tapinarof were successfully prepared, and our results suggest that they can be a useful addition to the current therapeutic practice of psoriasis.

Advances in psoriasis research: From pathogenesis to therapeutics

Psoriasis is a chronic inflammatory condition affecting approximately 2 % to 3 % of the global population. The pathogenesis of psoriasis is complex, involving immune dysregulation, hyperproliferation and angiogenesis. It is a multifactorial disease which is influenced by genetic and environmental factors. The development of various therapeutic agents, such as JAK inhibitors, small molecules, and biologics with potential anti-psoriatic properties was possible with the vast understanding of the pathogenesis of psoriasis. Various signalling pathways, including NF-κB, JAK-STAT, S1P, PDE-4, and A3AR that are involved in the pathogenesis of psoriasis as well as the preclinical models utilised in the research of psoriasis have been highlighted in this review. The review also focuses on technological advancements that have contributed to a better understanding of psoriasis. Then, the molecules targeting the respective signalling pathways that are still under clinical trials or recently approved as well as the latest breakthroughs in therapeutic and drug delivery approaches that can contribute to the improvement in the management of psoriasis are highlighted in this review. This review provides an extensive understanding of the current state of research in psoriasis, giving rise to opportunities for researchers to discover future therapeutic breakthroughs and personalised interventions. Efficient treatment options for individuals with psoriasis can be achieved by an extensive understanding of pathogenesis, therapeutic agents, and novel drug delivery strategies.

Skin colonization by Staphylococcus aureus in hemodialysis patients with pruritus and the effect of Staphylococcus aureus-secreted α-toxin on filaggrin expression

Staphylococcus aureus (S. aureus) commonly reside on human skin in residents in long-term care facilities, yet its colonization and impact on the skin of hemodialysis (HD) patients have yet to be studied. The aim of the present study was to investigate the colonization of S. aureus on the skin of pruritic and non-pruritic HD patients, and the influence of S. aureus and S. aureus-secreted α-toxin on skin barrier function-related protein expression. In this study, a higher relative S. aureus count in pruritic HD patients compared to non-pruritic HD patients and healthy subjects were revealed by real-time polymerase chain reaction. S. aureus and α-toxin decreased mRNA and protein expression levels of aryl hydrocarbon receptor (AHR), ovo-like transcriptional repressor 1 (OVOL1), and filaggrin (FLG) in keratinocytes. In addition, anti-alpha-hemolysin (anti-hla) was used as an α-toxin neutralizer, and it successfully abrogated S. aureus-induced AHR, OVOL1, and FLG mRNA and protein expression downregulation. Mechanistically, α-toxin could decrease FLG activity by preventing the recruitment of AHR to the FLG promoter region. In conclusion, pruritic HD patients had higher S. aureus colonization, with S. aureus-secreted α-toxin suppressing FLG expression through the AHR-FLG axis.

Tapinarof and its structure-activity relationship for redox chemistry and phototoxicity on human skin keratinocytes

Tapinarof (3,5-dihydroxy-4-isopropylstilbene) is a therapeutic agent used in the treatment of psoriasis (VTAMA®). In this study, we examined the redox behaviour, (photo)stability, (photo)toxicity and (bio)transformation of tapinarof in the context of a structure-activity relationship study. Selected derivatives of the structurally related tapinarof were investigated, namely resveratrol, pterostilbene, pinosylvin and its methyl ether. Tapinarof undergoes electrochemical oxidation in a neutral aqueous medium at a potential of around +0.5 V (vs. Ag|AgCl|3M KCl). The anodic reaction of this substance is a proton-dependent irreversible and adsorption-driven process. The pKa value of tapinarof corresponds to 9.19 or 9.93, based on empirical and QM calculation approach, respectively. The oxidation potentials of tapinarof and its analogues correlate well with their HOMO (highest occupied molecular orbital) energy level. The ability to scavenge the DPPH radical decreased in the order trolox ≥ resveratrol > pterostilbene > tapinarof > pinosylvin ≫ pinosylvin methyl ether. It was also confirmed that tapinarof, being a moderate electron donor, is able to scavenge the ABTS radical and inhibit lipid peroxidation. The 4'-OH group plays a pivotal role in antioxidant action of stilbenols. During the stability studies, it was shown that tapinarof is subject to spontaneous degradation under aqueous conditions, and its degradation is accelerated at elevated temperatures and after exposure to UVA (315-399 nm) radiation. In aqueous media at pH 7.4, we observed an ∼50 % degradation of tapinarof after 48 h at laboratory temperature. The main UVA photodegradation processes include dihydroxylation and hydration. In conclusion, the phototoxic effect of tapinarof on a human keratinocytes cell line (HaCaT) was evaluated. Tapinarof exhibited a clear phototoxic effect, similar to phototoxic standard chlorpromazine. The IC50 values of the cytotoxicity and phototoxic effects of tapinarof correspond to 27.6 and 3.7 μM, respectively. The main HaCaT biotransformation products of tapinarof are sulfates and glucuronides.

Tapinarof cream for the treatment of plaque psoriasis: Efficacy and safety results from 2 Japanese phase 3 trials

Tapinarof is a non-steroidal, topical, aryl hydrocarbon receptor agonist. We evaluated the efficacy and safety of tapinarof cream (1%) in Japanese patients aged ≥18 years with plaque psoriasis in two phase 3 trials, ZBA4-1 and ZBA4-2. ZBA4-1 (N = 158) consisted of a 12-week, double-blind, vehicle-controlled treatment period (period 1) and a 12-week extension treatment period (period 2). Patients were randomized 2:1 to tapinarof or vehicle in period 1; subsequently, all patients who were enrolled in period 2 received tapinarof. ZBA4-2 (N = 305) was a 52-week, open-label, uncontrolled trial in which all patients received tapinarof. In period 1 of ZBA4-1, the proportion of patients who achieved a Physician Global Assessment (PGA) score of 0 (clear) or 1 (almost clear) with ≥2-grade improvement from baseline at week 12 (PGA treatment success, the primary endpoint) was 20.06% in the tapinarof group and 2.50% in the vehicle group (p = 0.0035). The proportion of patients with ≥75% improvement from baseline in the Psoriasis Area and Severity Index (PASI) score at week 12 (PASI75 response, a key secondary endpoint) was 37.7% in the tapinarof group and 3.8% in the vehicle group (p < 0.0001). In ZBA4-2, PGA treatment success rate was 30.0% at week 12, 51.3% at week 24, and 56.3% at week 52, and PASI75 response rate was 50.4% at week 12, 77.5% at week 24, and 79.9% at week 52, indicating that efficacy responses improved over time and were maintained over 52 weeks. Across the two trials, most adverse events (AEs) were mild or moderate; common AEs included folliculitis and contact dermatitis. In summary, tapinarof cream (1%) was efficacious and generally safe for up to 52 weeks of treatment in Japanese patients with plaque psoriasis.

Topical Therapy for Atopic Dermatitis: What is New and the New Paradigm

Atopic dermatitis (AD) is a chronic inflammatory skin disorder that requires a complex management strategy, which often involves multiple and diverse topicals and systemic treatment regimens. While topical steroids and more recently calcineurin inhibitors have been the mainstay therapy for mild-to-moderate disease, recent advances in the understanding of AD pathogenesis have led to the development of different new targets, rapidly widening our therapeutic armamentarium. This review summarizes their efficacy and safety data. We also review topical optimization strategies, including the recently published topical volume calculator, to maximize long-term disease control, especially when using multiple agents at the same time.

Promising strategies in natural products treatments of psoriasis-update

Psoriasis is a chronic, relapsing, inflammatory skin disease and has been increasing year by year. It is linked to other serious illnesses, such as psoriatic arthritis, cardiometabolic syndrome, and depression, resulting in a notable decrease in the quality of life for patients. Existing therapies merely alleviate symptoms, rather than providing a cure. An in-depth under-standing of the pathogenesis of psoriasis is helpful to discover new therapeutic targets and develop effective novel therapeutic agents, so it has important clinical significance. This article reviews the new progress in the study of pathogenesis and natural products of psoriasis in recent years. These natural products were summarized, mainly classified as terpenoids, polyphenols and alkaloids. However, the translation of experimental results to the clinic takes a long way to go.

Tapinarof cream 1% once daily: Significant efficacy in the treatment of moderate to severe atopic dermatitis in adults and children down to 2 years of age in the pivotal phase 3 ADORING trials

BACKGROUND

Tapinarof cream 1% once daily (QD), a topical aryl hydrocarbon receptor agonist, downregulates pro-inflammatory Th2 cytokines, upregulates skin-barrier components, and reduces oxidative stress.

OBJECTIVE

To assess tapinarof efficacy and safety in adults and children down to 2 years of age with atopic dermatitis (AD).

METHODS

Eight hundred and thirteen patients were randomized to tapinarof or vehicle QD in two 8-week phase 3 trials.

RESULTS

The primary efficacy endpoint, Validated Investigator Global Assessment for Atopic Dermatitis score of 0 or 1 and ≥2-grade improvement from baseline at Week 8, was met with statistical significance in both trials: 45.4% versus 13.9% and 46.4% versus 18.0% (tapinarof vs vehicle; both P < .0001). Significantly superior Eczema Area and Severity Index 75 (EASI75) responses were also observed with tapinarof versus vehicle at Week 8: 55.8% versus 22.9% and 59.1% versus 21.2% (both P < .0001). Rapid improvements in patient-reported pruritus were also significant with tapinarof versus vehicle. Common adverse events (≥5%) of folliculitis, headache, and nasopharyngitis were mostly mild or moderate, with lower discontinuations due to adverse events in the tapinarof groups than with vehicle.

LIMITATIONS

Long-term efficacy was not assessed.

CONCLUSION

Tapinarof demonstrated highly significant efficacy and favorable safety and tolerability in a diverse population of patients with AD down to 2 years of age.

The Aryl Hydrocarbon Receptor Regulates Epidermal Differentiation through Transient Activation of TFAP2A

The aryl hydrocarbon receptor (AHR) is an evolutionary conserved environmental sensor identified as an indispensable regulator of epithelial homeostasis and barrier organ function. Molecular signaling cascade and target genes upon AHR activation and their contribution to cell and tissue function are however not fully understood. Multiomics analyses using human skin keratinocytes revealed that upon ligand activation, AHR binds open chromatin to induce expression of transcription factors, for example, TFAP2A, as a swift response to environmental stimuli. The terminal differentiation program, including upregulation of barrier genes, FLG and keratins, was mediated by TFAP2A as a secondary response to AHR activation. The role of AHR-TFAP2A axis in controlling keratinocyte terminal differentiation for proper barrier formation was further confirmed using CRISPR/Cas9 in human epidermal equivalents. Overall, the study provides additional insights into the molecular mechanism behind AHR-mediated barrier function and identifies potential targets for the treatment of skin barrier diseases.

Treatment of Common Dermatologic Conditions

Dermatologic concerns are discussed in about a third of all primary care visits. This review discusses treatments for common dermatologic diagnoses addressed in primary care settings, with an emphasis on new and emerging treatments. Topical, oral, and injectable treatment of common forms of alopecia, facial rashes, atopic dermatitis, psoriasis, seborrheic dermatitis, and stasis dermatitis will be discussed to help increase comfort in prescribing and alert providers to common side effects or complications of more intensive treatments used by dermatologists.

Emerging drugs for the treatment of atopic dermatitis: a focus on phase 2 and phase 3 trials

INTRODUCTION

Atopic dermatitis (AD) is an inflammatory skin condition that affects millions of pediatric and adult patients with well-studied impact on morbidity and quality of life. Management occurs in a stepwise fashion beginning with preventative measures before immunomodulators are introduced. However, challenges remain in treatment of moderate-to-severe atopic dermatitis that is refractory to first- and second-line treatments and there are only few topical anti-inflammatory options, especially for pediatric patients.

AREAS COVERED

New medications are required to address these gaps as lesions may persist despite treatment or patients may discontinue treatment due to actual or anticipated adverse effects of mainstay medications. Emerging research into the pathophysiology of AD and the immune system at large has provided opportunities for novel interventions aimed at stopping AD mechanisms at new checkpoints. Clinical trials for 36 agents currently in phase 2 or phase 3 are evaluated with particular focus on the studies for, B244, CBP-201, tapinarof, lebrikizumab, nemolizumab, amlitelimab, and rocatinlimab as they explore novel pathways and have some of the most promising results.

EXPERT OPINION

These clinical trials contribute to the evolution of AD treatment toward greater precision based on salient pathways with a particular focus on moderate-to-severe AD to enhance efficacy and minimize adverse effects.

Beyond the Drinking Water Directive: The use of reporter gene assays as an added tool for effect-based monitoring of polycyclic aromatic hydrocarbons and polychlorinated biphenyls in drinking water sources

Polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs) are legacy organic micropollutants (OMPs) that are sporadically detected in drinking water (DW) sources. The European Drinking Water Directive requires EU member states to monitor 5 PAHs in DW and its sources. The Dutch national regulations require 6 additional PAHs to be monitored and 7 polychlorinated biphenyls (PCBs). These indicator compounds act as representatives for large compound classes. PCBs alone comprise 209 congeners, it is evident that conventional chemical target analysis (GC-tQ-MS) alone is not sufficient to monitor these entire compound classes. This study investigated the application of reporter gene assays as effect-based methods (EBMs) to monitor PAHs and PCBs in DW sources. Herein, it was assessed what added value the bioassays can bring compared to the current approach of chemical target analysis for PCBs and PAHs. Regulated and non-regulated PAHs and PCBs were tested in four bioassays to determine the relative potency factors (RPFs) for these compounds. Non-regulated congeners were found to be active in the PAH-CALUX and anti-AR CALUX. An assessment of surface water (SW) spiked with standard mixtures containing PAHs and PCBs confirmed the predictable behavior of the PAH-CALUX. Moreover, the bioassay was able to detect AhR-mediated activity caused by non-regulated PAHs and PCBs, whereas this would have been missed by conventional chemical target analysis. Last, a field study was conducted in Dutch DW sources at six sampling moments. The PAH-CALUX detected AhR-mediated activity at all sampling moments and an ecological effect-based trigger (EBT) value was exceeded on multiple accounts. Combined application of GC-tQ-MS and the PAH-CALUX ensures compliancy with monitoring legislation and provides additional insights into potential hazards to humans and the environment.

Benvitimod upregulates filaggrin, involucrin and loricrin expressions via aryl hydrocarbon receptor-OVO-like 1 axis

Benvitimod has been successfully used in the treatment of psoriasis and atopic dermatitis (AD). However, the mechanism remains to be clarified. We aim to assess the effects of benvitimod on MC903-induced dermatitis in mice and to investigate the effects of benvitimod on filaggrin (FLG), involucrin (IVL), and loricrin (LOR) expressions and possible mechanism. MC903-induced mouse AD model was used to evaluate the effects of benvitimod. Filaggrin, involucrin, and loricrin protein and mRNA expressions in lesions of mice dermatitis were measured by Western blot and quantitative real-time PCR. In vitro, normal human epidermal keratinocytes (NHEKs) were cultured and benvitimod was used to treat NHEKs primed with IL-4 and IL-13. Then AHR and OVOL1 in NHEKs were knocked down to evaluate the role of AHR and OVOL1 in the effects of benvitimod. Topical treatment of benvitimod repaired skin barrier and alleviated skin inflammation in mouse AD model. This effect was inhibited by pretreatment with an AHR antagonist. Benvitimod upregulated the filaggrin, involucrin, and loricrin expressions in lesions of mouse AD model. In addition, benvitimod upregulated the filaggrin, involucrin, and loricrin expressions in NHEKs. Knockdown of AHR or OVO-like (OVOL)1 abrogated the upregulation of filaggrin, involucrin, and loricrin induced by benvitimod. Benvitimod attenuated MC903-induced mouse dermatitis and upregulated filaggrin, involucrin, and loricrin expressions via AHR-OVOL1 axis.

Preclinical techniques for drug discovery in psoriasis

Psoriasis is a chronic, inflammatory, papulosquamous, noncontagious disease characterized by scaly, demarcated erythematous plaque, affecting skin, nails, and scalp. The IL-23/Th17 axis is the main operator in the development of psoriasis. Psoriasis is affecting worldwide, and new treatment options are urgently needed. Various local and systemic treatments are available for psoriasis but they only provide symptomatic relief because of numerous unknown mechanisms. Clinical trials demand overwhelming resources; therefore, drug development predominantly depends on the in-vivo, in-vitro, and ex-vivo techniques. Immediate attention is required to develop experimental techniques that completely imitate human psoriasis to assist drug development. This review portrays the various in-vivo, in-vitro, and ex-vivo techniques used in psoriasis research. It describes these techniques' characteristics, pathological presentations, and mechanisms. The experimental techniques of psoriasis provide significant information on disease progression mechanisms and possible therapeutic targets. However, until now, it has been challenging to invent a timely, affordable model that precisely imitates a human disease. Only the xenotransplantation model is reckoned as the closer, that mimics the complete genetic, and immunopathogenic event. Imiquimod-induced psoriasis and HaCat cell lines are popular among researchers because of their convenience, ease of use, and cost-effectiveness. There need to further improve the experimental techniques to best serve the disease imitation and meet the research goal.

Aryl hydrocarbon receptor: current perspectives on key signaling partners and immunoregulatory role in inflammatory diseases

The aryl hydrocarbon receptor (AhR) is a versatile environmental sensor and transcription factor found throughout the body, responding to a wide range of small molecules originating from the environment, our diets, host microbiomes, and internal metabolic processes. Increasing evidence highlights AhR's role as a critical regulator of numerous biological functions, such as cellular differentiation, immune response, metabolism, and even tumor formation. Typically located in the cytoplasm, AhR moves to the nucleus upon activation by an agonist where it partners with either the aryl hydrocarbon receptor nuclear translocator (ARNT) or hypoxia-inducible factor 1β (HIF-1β). This complex then interacts with xenobiotic response elements (XREs) to control the expression of key genes. AhR is notably present in various crucial immune cells, and recent research underscores its significant impact on both innate and adaptive immunity. This review delves into the latest insights on AhR's structure, activating ligands, and its multifaceted roles. We explore the sophisticated molecular pathways through which AhR influences immune and lymphoid cells, emphasizing its emerging importance in managing inflammatory diseases. Furthermore, we discuss the exciting potential of developing targeted therapies that modulate AhR activity, opening new avenues for medical intervention in immune-related conditions.

Biologic and Small Molecule Therapy in Atopic Dermatitis

Atopic dermatitis is a chronic inflammatory dermatosis characterized by pruritic, scaly, erythematous lesions. Its incidence varies but is estimated to be approximately 20% in children and between 7 and 14% in adults, with variation amongst countries. It is a multifactorial condition, with a complex interplay between genetic, immunological, and environmental factors. Research into the inflammatory response has identified new therapeutic targets that work to reduce inflammation and subsequently reduce flares. This study explores existing therapeutic agents for atopic dermatitis as well as newer therapies such as biologics and small molecules, drawing upon each agent's mechanism of action, relevant landmark clinical trials, efficacy, and safety profile. Current therapies include emollients, corticosteroids, cyclosporine A, calcineurin inhibitors, phototherapy, and methotrexate. Biologics described include dupilumab, tralokinumab, lebrikizumab, nemolizumab, and rocatinlimab. Small molecules inhibitors include Janus kinase inhibitors, phosphodiesterase 4 inhibitors, transient receptor potential vanilloid subfamily V member 1 antagonist, and aryl hydrocarbon receptor antagonist.

Topical anti-inflammatory treatments for eczema: network meta-analysis

BACKGROUND

Eczema (atopic dermatitis) is the most burdensome skin condition worldwide and cannot currently be prevented or cured. Topical anti-inflammatory treatments are used to control eczema symptoms, but there is uncertainty about the relative effectiveness and safety of different topical anti-inflammatory treatments.

OBJECTIVES

To compare and rank the efficacy and safety of topical anti-inflammatory treatments for people with eczema using a network meta-analysis.

SEARCH METHODS

We searched the Cochrane Skin Specialised Register, CENTRAL, MEDLINE, Embase and trial registries on 29 June 2023, and checked the reference lists of included studies.

SELECTION CRITERIA

We included within-participant or between-participant randomised controlled trials (RCTs) in people of any age with eczema of any severity, but excluded trials in clinically infected eczema, seborrhoeic eczema, contact eczema, or hand eczema. We included topical anti-inflammatory treatments used for at least one week, compared with another anti-inflammatory treatment, no treatment, or vehicle/placebo. Vehicle is a 'carrier system' for an active pharmaceutical substance, which may also be used on its own as an emollient for dry skin. We excluded trials of topical antibiotics used alone, complementary therapies, emollients used alone, phototherapy, wet wraps, and systemic treatments.

DATA COLLECTION AND ANALYSIS

We used standard Cochrane methods. Primary outcomes were patient-reported eczema symptoms, clinician-reported eczema signs and investigator global assessment. Secondary outcomes were health-related quality of life, long-term control of eczema, withdrawal from treatment/study, and local adverse effects (application-site reactions, pigmentation changes and skin thinning/atrophy were identified as important concerns through patient and public involvement). We used CINeMA to quantify our confidence in the evidence for each outcome.

MAIN RESULTS

We included 291 studies involving 45,846 participants with the full spectrum of eczema severity, mainly conducted in high-income countries in secondary care settings. Most studies included adults, with only 31 studies limited to children aged < 12 years. Studies usually included male and female participants, multiple ethnic groups but predominantly white populations. Most studies were industry-funded (68%) or did not report their funding sources/details. Treatment duration and trial participation were a median of 21 and 28 days (ranging from 7 days to 5 years), respectively. Interventions used were topical corticosteroids (TCS) (172), topical calcineurin inhibitors (TCI) (134), phosphodiesterase-4 (PDE-4) inhibitors (55), janus kinase (JAK) inhibitors (30), aryl hydrocarbon receptor activators (10), or other topical agents (21). Comparators included vehicle (170) or other anti-inflammatory treatments. The risk of bias was high in 242 of the 272 (89.0%) trials contributing to data analyses, most commonly due to concerns about selective reporting. Network meta-analysis (NMA) was only possible for short-term outcomes. Patient-reported symptoms NMA of 40 trials (6482 participants) reporting patient-reported symptoms as a binary outcome ranked tacrolimus 0.1% (OR 6.27, 95% CI 1.19 to 32.98), potent TCS (OR 5.99, 95% CI 2.83 to 12.69), and ruxolitinib 1.5% (OR 5.64, 95% CI 1.26 to 25.25) as the most effective, all with low confidence. Mild TCS, roflumilast 0.15%, and crisaborole 2% were the least effective. Class-level sensitivity analysis found potent/very potent TCS had similar effectiveness to potent TCI and was more effective than mild TCI and PDE-4 inhibitors. NMA of 29 trials (3839 participants) reporting patient-reported symptoms as a continuous outcome ranked very potent TCS (SMD -1.99, 95% CI -3.25 to -0.73; low confidence) and tacrolimus 0.03% (SMD -1.57, 95% CI -2.42 to -0.72; moderate confidence) the highest. Direct information for tacrolimus 0.03% was based on one trial of 60 participants at high risk of bias. Roflumilast 0.15%, delgocitinib 0.25% or 0.5%, and tapinarof 1% were the least effective. Class-level sensitivity analysis found potent/very potent TCS had similar effectiveness to potent TCI and JAK inhibitors and mild/moderate TCS was less effective than mild TCI. A further 50 trials (9636 participants) reported patient-reported symptoms as a continuous outcome but could not be included in NMA. Clinician-reported signs NMA of 32 trials (4121 participants) reported clinician signs as a binary outcome and ranked potent TCS (OR 8.15, 95% CI 4.99, 13.57), tacrolimus 0.1% (OR 8.06, 95% CI 3.30, 19.67), ruxolitinib 1.5% (OR 7.72, 95% CI 4.92, 12.10), and delgocitinib 0.5% (OR 7.61, 95% CI 3.72, 15.58) as most effective, all with moderate confidence. Mild TCS, roflumilast 0.15%, crisaborole 2%, and tapinarof 1% were the least effective. Class-level sensitivity analysis found potent/very potent TCS more effective than potent TCI, mild TCI, JAK inhibitors, PDE-4 inhibitors; and mild TCS and PDE-4 inhibitors had similar effectiveness. NMA of 49 trials (5261 participants) reported clinician signs as a continuous outcome and ranked tacrolimus 0.03% (SMD -2.69, 95% CI -3.36, -2.02) and very potent TCS (SMD -1.87, 95% CI -2.69, -1.05) as most effective, both with moderate confidence; roflumilast 0.15%, difamilast 0.3% and tapinarof 1% were ranked as least effective. Direct information for tacrolimus 0.03% was based on one trial in 60 participants with a high risk of bias. For some sensitivity analyses, potent TCS, tacrolimus 0.1%, ruxolitinib 1.5%, delgocitinib 0.5% and delgocitinib 0.25% became some of the most effective treatments. Class-level analysis found potent/very potent TCS had similar effectiveness to potent TCI and JAK inhibitors, and moderate/mild TCS was more effective than mild TCI. A further 100 trials (22,814 participants) reported clinician signs as a continuous outcome but could not be included in NMA. Investigator Global Assessment NMA of 140 trials (23,383 participants) reported IGA as a binary outcome and ranked ruxolitinib 1.5% (OR 9.34, 95% CI 4.8, 18.18), delgocitinib 0.5% (OR 10.08, 95% CI 2.65, 38.37), delgocitinib 0.25% (OR 6.87, 95% CI 1.79, 26.33), very potent TCS (OR 8.34, 95% CI 4.73, 14.67), potent TCS (OR 5.00, 95% CI 3.80, 6.58), and tacrolimus 0.1% (OR 5.06, 95% CI 3.59, 7.13) as most effective, all with moderate confidence. Mild TCS, crisaborole 2%, pimecrolimus 1%, roflumilast 0.15%, difamilast 0.3% and 1%, and tacrolimus 0.03% were the least effective. In a sensitivity analysis of low risk of bias information (12 trials, 1639 participants), potent TCS, delgocitinib 0.5% and delgocitinib 0.25% were most effective, and pimecrolimus 1%, roflumilast 0.15%, difamilast 1% and difamilast 0.3% least effective. Class-level sensitivity analysis found potent/very potent TCS had similar effectiveness to potent TCI and JAK inhibitors and were more effective than PDE-4 inhibitors; mild/moderate TCS were less effective than potent TCI and had similar effectiveness to mild TCI. Longer-term outcomes over 6 to 12 months showed a possible increase in effectiveness for pimecrolimus 1% versus vehicle (4 trials, 2218 participants) in a pairwise meta-analysis, and greater treatment success with mild/moderate TCS than pimecrolimus 1% (based on 1 trial of 2045 participants). Local adverse effects NMA of 83 trials (18,992 participants, 2424 events) reporting application-site reactions ranked tacrolimus 0.1% (OR 2.2, 95% CI 1.53, 3.17; moderate confidence), crisaborole 2% (OR 2.12, 95% CI 1.18, 3.81; high confidence), tacrolimus 0.03% (OR 1.51, 95%CI 1.10, 2.09; low confidence), and pimecrolimus 1% (OR 1.44, 95% CI 1.01, 2.04; low confidence) as most likely to cause site reactions. Very potent, potent, moderate, and mild TCS were least likely to cause site reactions. NMA of eight trials (1786 participants, 3 events) reporting pigmentation changes found no evidence for increased pigmentation changes with TCS and crisaborole 2%, with low confidence for mild, moderate or potent TCS and moderate confidence for crisaborole 2%. NMA of 25 trials (3691 participants, 36 events) reporting skin thinning found no evidence for increased skin thinning with short-term (median 3 weeks, range 1-16 weeks) use of mild TCS (OR 0.72, 95% CI 0.12, 4.31), moderate TCS (OR 0.91, 95% CI 0.16, 5.33), potent TCS (OR 0.96, 95% CI 0.21, 4.43) or very potent TCS (OR 0.88, 95% CI 0.31, 2.49), all with low confidence. Longer-term outcomes over 6 to 60 months showed increased skin thinning with mild to potent TCS versus TCI (3 trials, 4069 participants, 6 events with TCS).

AUTHORS' CONCLUSIONS

Potent TCS, JAK inhibitors and tacrolimus 0.1% were consistently ranked as amongst the most effective topical anti-inflammatory treatments for eczema and PDE-4 inhibitors as amongst the least effective. Mild TCS and tapinarof 1% were ranked amongst the least effective treatments in three of five efficacy networks. TCI and crisaborole 2% were ranked most likely to cause local application-site reactions and TCS least likely. We found no evidence for increased skin thinning with short-term TCS but an increase with longer-term TCS.

Recent Advancements and Trends of Topical Drug Delivery Systems in Psoriasis: A Review and Bibliometric Analysis

Psoriasis is an immune-mediated inflammatory skin disease where topical therapy is crucial. While various dosage forms have enhanced the efficacy of current treatments, their limited permeability and lack of targeted delivery to the dermis and epidermis remain challenges. We reviewed the evolution of topical therapies for psoriasis and conducted a bibliometric analysis from 1993 to 2023 using a predictive linear regression model. This included a comprehensive statistical and visual evaluation of each model's validity, literature profiles, citation patterns, and collaborations, assessing R variance and mean squared error (MSE). Furthermore, we detailed the structural features and penetration pathways of emerging drug delivery systems for topical treatment, such as lipid-based, polymer-based, metallic nanocarriers, and nanocrystals, highlighting their advantages. This systematic overview indicates that future research should focus on developing novel drug delivery systems characterized by enhanced stability, biocompatibility, and drug-carrying capacity.

Tapinarof validates the aryl hydrocarbon receptor as a therapeutic target: A clinical review

The aryl hydrocarbon receptor (AhR) is a ligand-dependent transcription factor that has wide-ranging roles, including regulation of inflammation and homeostasis. AhR is not a cell surface receptor; rather, it exists in a cytoplasmic complex that responds to a wide variety of structurally dissimilar endogenous, microbial, and environmental ligands. The ubiquitous expression of AhR, its ability to be activated by a wide range of ligands, and its capacity to act as a master regulator for gene expression and homeostasis make it a promising new therapeutic target. Clinical trials of tapinarof cream have now validated AhR agonism as a therapeutic approach that can deliver significant efficacy for treating inflammatory skin diseases, including psoriasis and atopic dermatitis. Tapinarof 1% cream is a first-in-class, nonsteroidal, topical, AhR agonist with a pharmacokinetic profile that results in localized exposure at sites of disease, avoiding systemic safety concerns, drug interactions, or off-target effects. Psoriasis and atopic dermatitis both involve epidermal inflammation, cellular immune responses, dysregulation of skin barrier protein expression, and oxidative stress. On the basis of the clinical effectiveness of tapinarof cream for treating inflammatory skin diseases, we review how targeting AhR may offer a significant opportunity in other conditions that share key aspects of pathogenesis, including asthma, inflammatory bowel disease, eosinophilic esophagitis, ophthalmic, and nervous system diseases.

Evaluation of OVOL1 and Filaggrin immunohistochemical expression and clinical relevance in psoriasis

BACKGROUND

Psoriasis is a disease of overactive immune system. OVOL1 and Filaggrin have been associated with many inflammatory skin lesions. To the best of our knowledge, the correlation between OVOL1 and Filaggrin in psoriasis was not previously investigated. This work aims to search the immunohistochemical expression and correlation between OVOL1 and Filaggrin in psoriasis.

MATERIALS AND METHODS

Slides cut from paraffin blocks of 30 psoriasis cases and 30 control subjects were stained with OVOL1 and Filaggrin. Clinicopathological data were correlated with the results of staining.

RESULTS

OVOL1 and Filaggrin expression in epidermis showed a significant gradual reduction from normal skin to peri-lesional and psoriasis biopsies (P < 0.001). In contrast, psoriasis dermis showed a significant overexpression of OVOL1 in inflammatory cells in relation to peri-lesional biopsies (P < 0.002). OVOL1 demonstrated a significant direct correlation with Filaggrin expression in psoriasis (r = 0.568, P < 0.004). OVOL1 and Filaggrin expression in psoriasis skin epidermis demonstrated a statistically significant negative correlation with PASI score.

CONCLUSION

OVOL1 and Filaggrin might be involved in psoriasis-associated inflammation and skin hyperproliferation. OVOL1 might have a protective barrier function in the skin and could be used to stratify progressive disease. Filaggrin may play a role in progression of psoriasis. OVOL1 inhibition could be considered in suppression of Filaggrin function. OVOL1 agonists may be beneficial in psoriasis treatment.

The Antioxidant PAPLAL Protects against Allergic Contact Dermatitis in Experimental Models

PAPLAL, a mixture of platinum (nPt) and palladium (nPd) nanoparticles, is widely used as a topical agent because of its strong antioxidant activity. Allergic contact dermatitis (ACD) is one of the most common occupational skin diseases worldwide. However, the role of oxidative stress in ACD remains unclear. In the present study, we investigated the protective effects of topical PAPLAL treatment on 2,4-dinitrofluorobenzene (DNFB)-induced ACD. DNFB treatment increased 8-isoprostane content; upregulated Xdh, Nox2, and Nox4, pro-oxidant genes; and downregulated Sod1, an antioxidant gene, indicating oxidative damage in the ear skin. PAPLAL therapy significantly reduced ear thickness associated with the downregulation of inflammatory cytokine-related genes. PAPLAL also significantly increased the expression of the stress-response-related genes Ahr and Nrf2, as well as their target genes, but failed to alter the expression of redox-related genes. Furthermore, Sod1 loss worsened ACD pathologies in the ear. These results strongly suggest that PAPLAL protects against ACD through its antioxidant activity and activation of the AHR and NRF2 axes. The antioxidant PAPLAL can be used as a novel topical therapy for ACD that targets oxidative stress.

Induction of Semaphorin 3A by Resveratrol and Pinostilbene via Activation of the AHR-NRF2 Axis in Human Keratinocytes

Semaphorin 3A (SEMA3A), a nerve-repellent factor produced by keratinocytes, has an inhibitory effect on nerve extension to the epidermis. Epidermal innervation is involved in pruritus in inflammatory skin diseases such as atopic dermatitis (AD) and dry skin. We previously reported that tapinarof, a stilbene molecule, upregulates SEMA3A in human keratinocytes. We also showed that this mechanism is mediated via the aryl hydrocarbon receptor (AHR), a ligand-activated transcription factor, and the nuclear factor erythroid 2-related factor 2 (NRF2) axis. Since some stilbenes activate AHR and NRF2, we attempted to identify other stilbenes that upregulate SEMA3A. We analyzed normal human epidermal keratinocytes (NHEKs) treated with 11 types of stilbenes and examined SEMA3A expression. We found that resveratrol and pinostilbene, antioxidant polyphenols, upregulated SEMA3A and increased nuclear AHR and NRF2 expression. In addition, AHR knockdown by small interfering RNA (siRNA) transfection abolished the NRF2 nuclear expression. Furthermore, AHR and NRF2 knockdown by siRNA transfection abrogated resveratrol- and pinostilbene-induced SEMA3A upregulation. Finally, we confirmed that resveratrol and pinostilbene increased SEMA3A promoter activity through NRF2 binding using ChIP-qPCR analysis. These results suggest that resveratrol and pinostilbene upregulate SEMA3A via the AHR-NRF2 axis in human keratinocytes.

Activation of the aryl hydrocarbon receptor improves allergen-specific immunotherapy of murine allergic airway inflammation: a novel adjuvant option?

Background

Allergen-specific immunotherapy (AIT) is able to restore immune tolerance to allergens in allergic patients. However, some patients do not or only poorly respond to current treatment protocols. Therefore, there is a need for deeper mechanistic insights and further improvement of treatment strategies. The relevance of the aryl hydrocarbon receptor (AhR), a ligand-dependent transcription factor, has been investigated in several inflammatory diseases, including allergic asthma. However, its potential role in AIT still needs to be addressed.

Methods

A murine model of AIT in ovalbumin-induced allergic airway inflammation was performed in AhR-deficient (AhR-/-) and wild-type mice. Furthermore, AIT was combined with the application of the high-affinity AhR agonist 10-chloro-7H-benzimidazo[2,1-a]benzo[de]iso-quinolin-7-one (10-Cl-BBQ) as an adjuvant to investigate the effects of AhR activation on therapeutic outcome.

Results

Although AhR-/- mice suffer stronger allergic responses than wild-type mice, experimental AIT is comparably effective in both. Nevertheless, combining AIT with the administration of 10-Cl-BBQ improved therapeutic effects by an AhR-dependent mechanism, resulting in decreased cell counts in the bronchoalveolar fluid, decreased pulmonary Th2 and Th17 cell levels, and lower sIgE levels.

Conclusion

This study demonstrates that the success of AIT is not dependent on the AhR. However, targeting the AhR during AIT can help to dampen inflammation and improve tolerogenic vaccination. Therefore, AhR ligands might represent promising candidates as immunomodulators to enhance the efficacy of AIT.

Natural Product-Derived Compounds Targeting Keratinocytes and Molecular Pathways in Psoriasis Therapeutics

Psoriasis is a chronic autoimmune inflammatory skin disorder that affects approximately 2-3% of the global population due to significant genetic predisposition. It is characterized by an uncontrolled growth and differentiation of keratinocytes, leading to the formation of scaly erythematous plaques. Psoriasis extends beyond dermatological manifestations to impact joints and nails and is often associated with systemic disorders. Although traditional treatments provide relief, their use is limited by potential side effects and the chronic nature of the disease. This review aims to discuss the therapeutic potential of keratinocyte-targeting natural products in psoriasis and highlight their efficacy and safety in comparison with conventional treatments. This review comprehensively examines psoriasis pathogenesis within keratinocytes and the various related signaling pathways (such as JAK-STAT and NF-κB) and cytokines. It presents molecular targets such as high-mobility group box-1 (HMGB1), dual-specificity phosphatase-1 (DUSP1), and the aryl hydrocarbon receptor (AhR) for treating psoriasis. It evaluates the ability of natural compounds such as luteolin, piperine, and glycyrrhizin to modulate psoriasis-related pathways. Finally, it offers insights into alternative and sustainable treatment options with fewer side effects.