Sophoricoside attenuates autoimmune‑mediated liver injury through the regulation of oxidative stress and the NF‑κB signaling pathway

Sophoricoside Inhibited Glioblastoma Cell Progression Through Activated AMP-Activated Protein Kinase (AMPK)

Glioblastoma (GBM) is the most common malignant primary brain tumor, with a mean survival of less than 2 years. Unique brain structures and the microenvironment, including blood-brain barriers, put great challenges on clinical drug development. Sophoricoside (Sop), an isoflavone glycoside isolated from seeds of Sophora japonica L., is one of the active constituents of traditional Chinese medicine and found to inhibit the bioactivity of cytokines (e.g., interleukin-5) and inflammatory responses, as well as to attenuate glucose and lipid metabolism in related diseases. However, the effects of Sop on cancer progression have not been systemically investigated. In this study, we performed a comprehensive investigation of Sop's function in GBM using colony formation and Transwell assays in vitro, along with subcutaneous xenograft tumor analysis in vivo. We employed RNA sequencing and bioinformatics analysis in conjunction with Western blotting (WB) and reverse transcription-quantitative polymerase chain reaction (RT-PCR) to explore the underlying mechanism. Our results demonstrated that Sop suppressed U251 cell proliferation and metastasis in vitro and inhibited the tumorigenic behavior of U251 cells in vivo. Further investigations revealed a positive correlation between the levels of activated AMP-activated protein kinase (AMPK) and Sop treatment; notably the application of the AMPK inhibitor, compound C (CC), abolished inhibitory effects of Sop on the malignant phenotype of U251 cells. These findings suggest the potential application of Sop in GBM treatment and highlight opportunities for the development of new therapeutic strategies.

Identification of key immune genes of drug-induced liver injury induced by tolvaptan based on bioinformatics

Drug-induced liver injury (DILI) poses critical challenges in preclinical drug development and is a primary reason for candidate drug attrition. The incidence of DILI has risen in recent years. While immune-related genes (IRGs) are crucial in immune infiltration, their expression and regulatory mechanisms in tolvaptan-induced DILI remain largely uncharacterized. RNA sequencing data related to DILI and associated clinical data were sourced from the Gene Expression Omnibus (GEO), and IRGs were obtained from the ImmPort database. Differentially expressed genes (DEGs) from DILI and IRGs were intersected to identify differentially expressed immune-related genes (DEIRGs). Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analyses were used to elucidate the biological functions of DEIRGs. In addition, a protein-protein interaction (PPI) network of DEIRGs was constructed. Immunocytes and immune regulation analyses were conducted using the CIBERSORT tool. Receiver operating characteristic (ROC) curves were constructed to assess the diagnostic accuracy of individual DEIRGs. Networks of transcription factor and microRNA co-regulation were constructed using the NetworkAnalyst database. The expression of DEIRGs in DILI samples was quantified with RT-qPCR. From GSE99878, 204 DEGs were identified, with 23 matching IRGs exhibiting significant expression differences in 17 DEIRGs. The ROC curve analysis suggested satisfactory diagnostic values for six DEIRGs. The potential gene regulatory network comprised 214 microRNAs, 257 transcription factors, and 23 DEIRGs. Finally, RT-qPCR confirmed the expression levels of nine DEIRGs, aligning with public database results. The study revealed numerous immune-related biomarkers, verifying expression in five pivotal genes (ICAM1, CXCL10, IGF1, CX3CL1, and EGFR) and highlighting four genes with notable diagnostic potential (TNFAIP3, BDNF, NR1D2, and PPARA). Additionally, it explored the roles of key biomarkers in inflammatory responses, relevant signaling pathways, and interaction networks, offering new insights into DILI diagnosis, mechanistic understanding, and treatment strategies.

Sophoricoside reduces inflammation in type II collagen-induced arthritis by downregulating NLRP3 signaling

Immune responses, especially NLRP3 signaling in macrophages, play critical roles in rheumatoid arthritis (RA), an autoimmune and inflammatory disease. In this study, we aimed to identify novel therapies for RA. We focused on sophoricoside (SOP), an isoflavone glycoside isolated from Sophora japonica. We predicted the targets of SOP and performed a Gene Ontology analysis to assess its effects. The results suggested that SOP is related to inflammation regulation. We verified these findings by performing in vitro experiments with M1 macrophages differentiated from human peripheral blood monocytes (THP-1 cells). Sophoricoside administration reduced inflammatory activity and NLRP3, Caspase-1, and IL-1β protein levels in macrophages. In addition, SOP and triptolide (TP) was administered intragastrically to male SD rats (n = 40) in a collagen-induced arthritis model. We observed that SOP and TP reduced the inflammatory responses and symptoms of RA. Moreover, unlike TP, SOP showed no liver or kidney toxicity in rats. In conclusion, SOP reduces inflammation in type II collagen-induced arthritis by downregulating NLRP3 signaling and has potential for future clinical applications as an ideal therapy for RA.

Chronic UVB exposure induces hepatic injury in mice: Mechanistic insights from integrated multi-omics

Chronic UVB exposure poses a significant threat to both skin and visceral health. In recent years, the adverse role of chronic UVB exposure in liver health has been suggested but not fully elucidated. This study aims to comprehensively investigate the effects of chronic UVB exposure on liver health in male SKH-1 hairless mice and clarify potential mechanisms through multi-omics approaches. The findings suggested that 10-week chronic skin exposure to UVB not only triggers hepatic inflammation and oxidative stress but also, more importantly, results in lipid metabolism abnormalities in the liver. Hepatic transcriptomic analysis revealed significant alterations in various signaling pathways and physiological processes associated with inflammation, oxidative stress, and lipid metabolism. Further lipidomic analysis illustrated significant changes in the metabolism of glycerolipids, sphingolipids, and glycerophospholipids in the liver following chronic UVB exposure. The 16S rRNA sequencing analysis indicated that chronic UVB exposure disrupts the structure and function of the microbiota. In search of potential mechanisms used by the microbiome to regulate the hepatic disease morphology, we filtered mouse fecal supernatants and cultured the supernatants with HepG2 cells. Fecal supernatant from UVB-exposed mice induced increased secretion of the inflammatory cytokine IL-8, accumulation of MDA, reduced SOD activity, and decreased lipid content in normal hepatic cells. In summary, skin chronic exposure to UVB induces multiple liver injuries and gut microbiota dysbiosis in mice and gut microbiota metabolites may be one of the contributing factors to hepatic injury caused by chronic UVB exposure. These discoveries deepen the comprehension of the health risks associated with chronic UVB exposure.

The Correlation Analysis Between m6A Methylation Modification and Ferroptosis Induced by Cigarette Smoke in Human Bronchial Epithelium

BACKGROUND

Chronic obstructive pulmonary disease (COPD), a prevalent respiratory condition, is characterized by long-term airway inflammation, which can lead to airway remodeling and persistent airflow restriction. Exposure to cigarette smoke is known as a major contributor to COPD development. Research has confirmed that ferroptosis and m6A modification are closely related to various inflammatory-related diseases. However, the correlation between m6A methylation and ferroptosis in COPD has not been confirmed. In this study, combined with bioinformatics analysis and molecular biology methods we investigated how m6A methylation was correlated to ferroptosis-associated genes (SLC7A11 and NQO-1) in cigarette smoke induced 16HBES cells.

METHODS

Two microarray datasets (GSE30063 and GSE64614) were combined to identify differentially expressed genes (DEGs) through the application of bioinformatics techniques. A cigarette smoke (CS)-induced 16HBE cells model was established. The ROS, GSH, MDA, and total iron content were detected by relevant detection kits. The expression levels associated with ferroptosis and m6A methylation modification-related genes were determined via reverse transcription-quantitative polymerase chain reaction and western blot.

RESULTS

Overall, 529 DEGs were identified in the above two databases. For COPD patients, significant changes were observed in FAGs (GCLC, NQO-1, SLC7A11) and m6A methylation-related genes (FTO). A negative correlation was also noted between the expression level of genes linked to ferroptosis (SLC7A11 and NQO-1) and that of the m6A methylation gene (FTO). The in vitro experiments results indicate that SLC7A11 and NQO-1 were significantly downregulated, and FTO were significantly upregulated. In addition, cigarette smoke stimulation increased the levels of MDA, LPO, and ROS, while reducing the content of GSH and total iron content in 16HBE cells.

CONCLUSION

Our findings explored the relationship between ferroptosis and m6A methylation in COPD, and screened out SLC7A11, NQO-1 and FTO may be critical in the pathogenesis of COPD.

Sophoricoside, a genistein glycoside from Fructus Sophorae, promotes hair growth via activation of M4 muscarinic AChR in dermal papilla cells

ETHNOPHARMACOLOGICAL RELEVANCE

Alopecia, or hair loss, refers to ongoing decline of mature hair on the scalp or any other region of the body. Fructus Sophorae, a fruit from Sophora japonica L., contains various phytochemicals, e.g., sophoricoside, that exhibit a broad range of pharmacological effects. The potential functions of herbal extracts deriving from Fructus Sophorae and/or its major phytochemical, sophoricoside, in treating alopecia are probed here.

AIM OF STUDY

The objective was to determine the ability of Fructus Sophorae extract and sophoricoside in promoting hair growth and it signalling mechanism.

METHODS

Molecular docking studies were conducted to measure the binding affinities between sophoricoside and M4 mAChR in the allosteric binding site. The mechanism of Fructus Sophorae and sophoricoside in activating the signalling involving Wnt/β-catenin and muscarinic AChR was evaluated by using immortalized human dermal papilla cell line (DPC), as well as their roles in promoting hair growth. The activity of pTOPflash-luciferase in transfected DPCs was used to examine the transcriptional regulation of Wnt/β-catenin-mediated genes. RT-PCR was applied to quantify mRNA expressions of the biomarkers in DPCs responsible for hair growth. The phosphorylated protein levels of Wnt/β-catenin and PI3K/AKT in DPC were revealed by using Western blot analysis. The culture of ex vivo mouse vibrissae hair follicle was used to evaluate the hair growth after the treatments.

RESULTS

The ethanol extract of Fructus Sophorae and sophoricoside activated Wnt/β-catenin signalling. The result of molecular docking showed a high binding affinity between sophoricoside and M4 mAChR. The effect of sophoricoside was blocked by specific inhibitor of M4 mAChR, but not by other inhibitors of mAChRs. Sophoricoside promoted hair growth in cultured ex vivo mouse vibrissae hair follicle by acting through M4 mAChR.

CONCLUSION

The ethanol extract of Fructus Sophorae and sophoricoside activated Wnt/β-catenin signalling via activation of M4 mAChR. The results suggested beneficial functions of Fructus Sophorae and sophoricoside as a potential candidate in treating alopecia.

Sophoricoside ameliorates cerebral ischemia-reperfusion injury dependent on activating AMPK

AIMS

Ischemic stroke accounts for 87% of all strokes, and its death and disability bring a huge burden to society. Brain injury caused by ischemia-reperfusion (I/R) is also a major difficulty in clinical treatment and prognosis. Sophoricoside (SOP) is an isoflavone glycoside isolated from the seed of medical herb Sophora japonica L. Previously, SOP was found to be effective in anti-inflammation and glucose-lipid metabolism-related diseases. In order to investigate whether SOP has a regulatory effect on cerebral I/R injury, we conducted this study.

METHODS

Here, by application of SOP into MCAO (transient middle cerebral artery occlusion)-induced mice and OGD/R (oxygen glucose deprivation/reperfusion)-induced primary neurons, the regulation effects of SOP was analyzed by detecting neurological score of post-stroke mice, phenotypes of brains and brain sections, cell viabilities, and apoptosis- and inflammation-regulation. RNA sequencing and molecular biology experiments were performed to explore the mechanism of SOP regulating cerebral I/R injury.

RESULTS

SOP administration decreased the infarct size, neurological deficit score, neuronal cell injury, inflammation and apoptosis. Mechanistically, SOP exerted its protective effect by activating the AMP-activated protein kinase (AMPK) signaling pathway.

CONCLUSION

SOP inhibits cerebral I/R injury by promoting the phosphorylation of AMPK.

Sophoricoside improved Crohn's disease-like colitis by inhibiting intestinal epithelial cell apoptosis through PI3K/AKT signaling

BACKGROUND AND AIMS

Increased apoptosis of intestinal epithelial cells (IECs) is a significant cause of intestinal barrier dysfunction in Crohn's disease (CD). Sophoricoside (SOP) is an isoflavone glycoside known for its anti-apoptotic properties. The aim of this study was to investigate the effects of SOP on mice with CD-like colitis and to understand the underlying mechanisms.

METHODS

Mice treated with 2,4,6-trinitrobenzene sulfonic acid (TNBS) were used to examine the therapeutic effect of SOP on CD-like colitis and intestinal barrier damage. To further explore SOP's impact on IECs apoptosis and intestinal barrier protection, an in vitro colonic organoid apoptosis model induced by TNF-α was utilized. Network pharmacology was employed to predict the relevant pathways and molecular processes associated with SOP in the treatment of CD.

RESULTS

Treatment with SOP significantly improved colitis symptoms in TNBS mice, as demonstrated by reductions in the Disease Activity Index (DAI), weight loss, colon shortening, macroscopic scores, colonic tissue inflammatory scores, and the expression of pro-inflammatory factors. Our experiments confirmed that SOP protects the intestinal barrier by counteracting IECs apoptosis. Additionally, this study established that SOP reduced IECs apoptosis by inhibiting the PI3K/AKT signaling pathway.

CONCLUSIONS

SOP can reduce IECs apoptosis through the inhibition of the PI3K/AKT signaling pathway, thereby protecting the intestinal barrier. This study is the first to illustrate how SOP ameliorates colitis and protects the intestinal barrier, suggesting SOP has potential clinical application in treating CD.