Safety, Pharmacokinetics and Preliminary Efficacy of IL4-Rα Monoclonal Antibody AK120 in Both Healthy and Atopic Dermatitis Subjects: A Phase I, Randomized, Two-Part, Double-Blind, Placebo-Controlled, Dose-Escalation, First-In-Human Clinical Study

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.

Interleukin-4 and Atopic Dermatitis: Why Does it Matter? A Narrative Review

Atopic dermatitis (AD) is a common chronic inflammatory skin condition that significantly impairs patients' quality of life as a result of intense itching and persistent eczematous lesions. Although AD has a multifaceted etiology-including genetic predisposition, environmental triggers, barrier dysfunction, and dysregulated immune responses-interleukin-4 (IL-4) has a recognized central role in its pathogenesis. This narrative review explores the role of IL-4 in the pathophysiology of AD, its contribution to the atopic march, and the therapeutic impact of IL-4 inhibition. IL-4 plays a critical role in skin barrier dysfunction, dysbiosis, pruritus, and inflammation, all of which contribute to the debilitating symptoms of AD. Moreover, IL-4 is implicated in other atopic conditions, such as asthma, allergic rhinitis, and food allergies, underscoring its role beyond AD and its importance in the atopic march. Recent advances in targeted therapies, particularly IL-4/IL-13 signaling inhibitors, have changed AD management. Dupilumab, an IL-4 receptor antagonist, has demonstrated significant efficacy in reducing AD symptoms and enhancing patient outcomes in both children and adults. In addition to symptomatic relief, suppressing IL-4 signaling may also offer potential for disease modification, altering AD's progression and possibly preventing the onset of other atopic conditions. This review highlights the crucial role of IL-4 as a therapeutic target in AD. By understanding the role of IL-4 in AD pathogenesis and exploring the therapeutic implications of targeting IL-4 pathways, this work can contribute to guide future research concerning treatment approaches and also emphasize the need for early and targeted interventions to mitigate disease impact and ultimately improve patient quality of life.

Monoclonal antibodies in phase II and III trials for moderate to severe atopic dermatitis

INTRODUCTION

Atopic dermatitis (AD) is a prevalent chronic inflammatory skin disease that significantly affects quality of life and mental health, especially in children. Traditional treatments include chemotherapeutics, topical corticosteroids, and immunomodulatory agents, but recent advances have introduced novel monoclonal antibody therapies. Through this comprehensive review paper, we aim to discuss these therapeutic options and their role in treating atopic dermatitis.

AREAS COVERED

A comprehensive search of the NIH Clinical Trials database was conducted from September 2023 to January 2024, focusing on phase 2 and 3 trials for AD treatments. Trials were filtered using keywords such as 'atopic dermatitis,' 'monoclonal antibody,' and 'phase 2/3.' Out of 25 trials analyzed, 11 were in phase 2 and 14 in phase 3. Only U.S.-based trials comparing novel therapies to placebo were included. In addition to the clinical trial database, we utilized the companies' websites and relevant abstracts to gather the latest results.

EXPERT OPINION

Currently investigated monoclonal antibodies have the ability to transform management by targeting specific mediators implicated in the inflammatory pathway of AD. The results of Phase II and III trials for monoclonal antibodies demonstrated strong therapeutic potential with significant reductions in EASI scores and represent a promising new targeted treatment option.

Emerging Biologic Therapies for the Treatment of Atopic Dermatitis

Atopic dermatitis (AD) is a prevalent inflammatory skin disease having a significant impact on patients' quality of life. Conventional treatments, including topical therapies and systemic immunosuppressants, often have limited efficacy and long-term safety concerns. Emerging biologic therapies target specific immune pathways implicated in AD pathogenesis, offering new therapeutic options in a disease known for its complex immune pathomechanisms. This review focuses on novel biologics under investigation, particularly those targeting specific immune pathways such as interleukin-4 (IL-4), IL-13, IL-22, IL-31, thymic stromal lymphopoietin (TSLP), and OX40-OX40L axis. Interleukin-4 and IL-13 inhibitors aim to reduce Th2-driven inflammation, while IL-22 inhibitors focus on restoring skin barrier function. Interleukin-31 inhibitors help alleviate pruritus, a major symptom in AD. OX40-OX40L pathway inhibitors can selectively suppress the activity of pathogenic T cells, without inducing significant immunosuppression. Bispecific antibodies targeting both IL-4 and IL-31 pathways are emerging as potential dual-action treatment for AD. Thymic stromal lymphopoietin inhibitors offer a novel strategy to control inflammation. While many of these therapies offer promising safety and efficacy profiles, long-term studies and real-world data are essential to confirm their lasting impact. This review highlights the potential of these emerging systemic therapies to continue transforming AD management and improve patient outcomes.

Therapeutic monoclonal antibodies in allergy: Targeting IgE, cytokine, and alarmin pathways

The etiology of allergy is closely linked to type 2 inflammatory responses ultimately leading to the production of allergen-specific immunoglobulin E (IgE), a key driver of many allergic conditions. At a high level, initial allergen exposure disrupts epithelial integrity, triggering local inflammation via alarmins including IL-25, IL-33, and TSLP, which activate type 2 innate lymphoid cells as well as other immune cells to secrete type 2 cytokines IL-4, IL-5 and IL-13, promoting Th2 cell development and eosinophil recruitment. Th2 cell dependent B cell activation promotes the production of allergen-specific IgE, which stably binds to basophils and mast cells. Rapid degranulation of these cells upon allergen re-exposure leads to allergic symptoms. Recent advances in our understanding of the molecular and cellular mechanisms underlying allergic pathophysiology have significantly shaped the development of therapeutic intervention strategies. In this review, we highlight key therapeutic targets within the allergic cascade with a particular focus on past, current and future treatment approaches using monoclonal antibodies. Specific targeting of alarmins, type 2 cytokines and IgE has shown varying degrees of clinical benefit in different allergic indications including asthma, chronic spontaneous urticaria, atopic dermatitis, chronic rhinosinusitis with nasal polyps, food allergies and eosinophilic esophagitis. While multiple therapeutic antibodies have been approved for clinical use, scientists are still working on ways to improve on current treatment approaches. Here, we provide context to understand therapeutic targeting strategies and their limitations, discussing both knowledge gaps and promising future directions to enhancing clinical efficacy in allergic disease management.

Role of differentiated embryo-chondrocyte expressed gene 2 in immunity

Differentiated embryo-chondrocyte expressed gene 2 (DEC2) is a member of the basic helix-loop-helix (bHLH) subfamily of transcription factors. DEC2 is implicated in tumor immunotherapy, immune system function regulation, and autoimmune diseases. DEC2 enhances Th2 cell differentiation by regulating the IL-2 and IL-4 signaling pathways and mediates the growth of B-1a cells, thereby promoting the occurrence and development of inflammatory responses. In this study, we review the reported roles of DEC2, including the regulation of immune cell differentiation and cytokine production in various cells in humans, and discuss its potential in treating autoimmune diseases and tumors.