Experimental Data on the Role of Melatonin in the Pathogenesis of Nonalcoholic Fatty Liver Disease

Melatonin partially restores hepatic nocturnin oscillations in experimental models of MASLD

Melatonin, a pleiotropic neurohormone, is recognized for its hepatoprotective role in metabolic dysfunction-associated steatotic liver disease (MASLD) triggered by diet and/or chronodisruption. Nocturnin (Noct), a circadian clock output regulating hepatic lipid metabolism, has an unclear role in MASLD. This study explores circadian oscillations of Noct in MASLD and its synergy with melatonin. Differential gene expression analysis identified key lipogenic genes (HNF-4A and SCD) as targets of Noct enzymatic activity. Male C57BL/6J mice were subjected to high-fat-high-fructose (H) diet with or without chronodisruption (CD) for 16 weeks. Noct mRNA peaked at ZT12 in Control and H groups, while CD and HCD groups showed peaks at ZT6, alongside increased % relative amplitude, cumulative expression, and shifted Centre of Gravity (CoG). Melatonin treatment in H, CD, and HCD groups significantly reduced Noct amplitude and cumulative expression. In OA-treated HepG2 cells, Noct mRNA and protein levels rose at 36 h and 32 h, respectively, with CoG shifts. Melatonin reduced Noct mRNA but increased protein levels while correcting rhythmicity. Collectively, MASLD induces elevation and phase shifts in hepatic Noct expression, and melatonin demonstrates corrective effects on Noct circadian phasing, underscoring its therapeutic potential.   .

Identification of tryptophan metabolism-related biomarkers for nonalcoholic fatty liver disease through network analysis

Background

Increasing evidence demonstrates that tryptophan metabolism is closely related to the development of nonalcoholic fatty liver disease (NAFLD). This study aimed to identify specific biomarkers of NAFLD associated with tryptophan metabolism and research its functional mechanism.

Methods

We downloaded NAFLD RNA-sequencing data from GSE89632 and GSE24807, and obtained tryptophan metabolism-related genes (TMRGs) from the MsigDB database. The R package limma and WGCNA were used to identify TMRGs-DEGs, and GO, KEGG and Cytoscape were used to analyze and visualize the data. Immune cell infiltration analysis was used to explore the immune mechanism of NAFLD and the biomarkers. We also validated extended levels of biomarkers.

Results

We identified 375 NAFLD differentially expressed genes (DEGs) and 85 TMRGs-DEGs. GO/KEGG analysis revealed that TMRGs-DEGs were mainly enriched in triglyceride and cholesterol metabolism. ROC curves identified CCL20 (AUC = 0.917), CD160 (AUC = 0.933) and CYP7A1 (AUC = 1) as biomarkers of NAFLD. Immune infiltration analysis showed significant differences in ten immune cells, and the activation of dendritic cells and mast cells were highly positively correlated with NAFLD. CCL20, CD160 and CYP7A1 were highly correlated with M2 macrophage, neutrophil and mast cells activation, respectively. Twenty-seven TMRGs correlated with hub genes, and gene set enrichment analysis demonstrated their function in tryptophan- and lysine-containing metabolic process. We identified 41 therapeutic drug matches which corresponded to two hub genes and four drugs which co-targeted CCL20 and CYP7A1. Finally, three hub genes were validated in our mouse model.

Conclusions

CCL20, CD160 and CYP7A1 are tryptophan metabolism-related biomarkers of NAFLD, related to glycerol ester and cholesterol metabolism. We screened four compounds which co-target CCL29 and CYP7A1 to provide potential experimental drugs for NAFLD.

A comparative study on the effect of melatonin and orlistat combination versus orlistat alone on high fat diet-induced hepatic changes in the adult male albino rats (a histological and morphometric study)

BACKGROUND

Nonalcoholic fatty liver disease (NAFLD) is the extremely usual reason of chronic liver disease, extending from simple hepatic steatosis (HS), nonalcoholic steatohepatitis (NASH) to advanced hepatic fibrosis and cirrhosis. Though orlistat is a Food and Drug Administration (FDA) approved drug for long-duration management of obesity, few cases of severe hepatic insult were declared. Melatonin is an efficient antioxidant; it also regulates metabolic processes that lead to fat accumulation and obesity.

AIM OF THE WORK

The current research aimed to compare the impact of orlistat, melatonin, and their combination on the structural changes of the hepatic tissue of adult male albino rats supplied with high fat diet (HFD).

MATERIAL AND METHODS

Thirty adult male albino rats divided into five groups. Liver specimens were divided into two parts. One-half was processed to obtain paraffin blocks, and the other half was processed to obtain semithin sections. Morphometric study and statistical analysis were done.

RESULTS

Hepatic tissue from the HFD group showed steatosis, ballooning, and inflammation and all these parameters were moderately improved - except for inflammation which worsened with therapy. Combined orlistat and melatonin-treated groups showed marked improvement of all parameters as well as marked improvement in the hepatic fibrosis.Orlistat/Melatonin combination therapy is both safe and effective in comparison to orlistat and melatonin monotherapy.

Mechanisms of Non-alcoholic Fatty Liver Disease and Beneficial Effects of Semaglutide: A Review

Non-alcoholic fatty liver disease stands as the predominant cause of chronic liver disease, with its prevalence and morbidity expected to escalate significantly, leading to substantial healthcare costs and diminished health-related quality of life. It comprises a range of disease manifestations that commence with basic steatosis, involving the accumulation of lipids in hepatocytes, a distinctive histological feature. If left untreated, it often advances to non-alcoholic steatohepatitis, marked by inflammatory and/or fibrotic hepatic changes, leading to the eventual development of non-alcoholic fatty liver disease-related cirrhosis and hepatocellular carcinoma. Because of the liver's vital role in body metabolism, non-alcoholic fatty liver disease is considered both a consequence and a contributor to the metabolic abnormalities observed in the metabolic syndrome. As of date, there are no authorized pharmacological agents for non-alcoholic fatty liver disease or non-alcoholic steatohepatitis. Semaglutide, with its glycemic and weight loss advantages, could potentially offer benefits for individuals with non-alcoholic fatty liver disease. This review aims to investigate the impact of semaglutide on non-alcoholic fatty liver disease.

Melatonin Prevents Alcohol- and Metabolic Dysfunction- Associated Steatotic Liver Disease by Mitigating Gut Dysbiosis, Intestinal Barrier Dysfunction, and Endotoxemia

Melatonin (MT) has often been used to support good sleep quality, especially during the COVID-19 pandemic, as many have suffered from stress-related disrupted sleep patterns. It is less known that MT is an antioxidant, anti-inflammatory compound, and modulator of gut barrier dysfunction, which plays a significant role in many disease states. Furthermore, MT is produced at 400-500 times greater concentrations in intestinal enterochromaffin cells, supporting the role of MT in maintaining the functions of the intestines and gut-organ axes. Given this information, the focus of this article is to review the functions of MT and the molecular mechanisms by which it prevents alcohol-associated liver disease (ALD) and metabolic dysfunction-associated steatotic liver disease (MASLD), including its metabolism and interactions with mitochondria to exert its antioxidant and anti-inflammatory activities in the gut-liver axis. We detail various mechanisms by which MT acts as an antioxidant, anti-inflammatory compound, and modulator of intestinal barrier function to prevent the progression of ALD and MASLD via the gut-liver axis, with a focus on how these conditions are modeled in animal studies. Using the mechanisms of MT prevention and animal studies described, we suggest behavioral modifications and several exogenous sources of MT, including food and supplements. Further clinical research should be performed to develop the field of MT in preventing the progression of liver diseases via the gut-liver axis, so we mention a few considerations regarding MT supplementation in the context of clinical trials in order to advance this field of research.