Pathogenesis of Chronic Kidney Disease Associated With Metabolic Dysfunction- Associated Fatty Liver Disease (MAFLD) and Treatment Response of Oral Semaglutide.

Overview

This project aims to investigate how Chronic Kidney Disease (CKD) develops and progresses in patients who also have Non-Alcoholic Fatty Liver Disease (NAFLD) and to evaluate whether oral semaglutide (a GLP-1 receptor agonist) can slow or prevent this progression. NAFLD and CKD frequently coexist due to shared mechanisms such as insulin resistance, inflammation, oxidative stress, dyslipidemia, and metabolic syndrome. Because of these overlapping pathways, a single therapy targeting both organs may offer major benefits. Semaglutide is known to reduce liver fat, improve inflammation and fibrosis, promote weight loss, and provide renal protection. This project will test whether adding oral semaglutide to standard care leads to better kidney and liver outcomes than standard care alone. The study is designed as a randomised controlled trial conducted at ILBS, enrolling adults having NAFLD with CKD (with specific eGFR and albuminuria criteria). Participants will be followed for 2 years, with regular assessment of kidney function (eGFR, ACR), liver health (FibroScan, ALT/AST), metabolic parameters, and cardiovascular outcomes. A parallel animal study in mice with diet-induced fatty liver disease will validate mechanistic findings through liver and kidney histology, gene expression, metabolic tests, and biochemical markers after semaglutide treatment. Expected outcome: To demonstrate that semaglutide slows CKD progression and improves NAFLD, supporting its use as a therapeutic option for patients with coexisting both conditions.

NAFLD and metabolic syndrome have emerged as significant health concerns globally, with substantial implications for kidney health.The interplay between NAFLD, metabolic syndrome, and CKD necessitates a comprehensive understanding of the underlying mechanisms and shared pathogenic pathways. Their shared risk factors, molecular mechanisms, and genetic predisposition represent the basis for this relationship. Accordingly, treatment approaches with combined efficacy in NAFLD and chronic renal impairment are expected to positively impact the natural history of this deleterious interaction. GLP1-R agonists GLP1-R agonists (GLP1-RAs) are novel potent antidiabetic agents with proven efficacy in reducing major adverse cardiovascular events. Besides their glucose-lowering action, their beneficial hepatic effects may be related to the influence on the AMPK/mTOR pathway. Semaglutide was associated with significant decreases in body weight, alanine aminotransferase, liver steatosis, and stiffness.GLP1-RAs may also improve histologic features on NAFLD, such as liver fat deposition, steatohepatitis, and fibrosis. GLP1-RAs have shown benefits in preventing the development or halting the progression of CKD. It also promotes antioxidative and anti-inflammatory actions may be among the determining factors in this renoprotective effect, together with weight loss, blood pressure, and glucose-lowering. Primary objective-To measure the progression of CKD and NAFLD in Semaglutide treated group versus non treated group. Secondary objectives-1.To conduct animal model studies to confirm the primary objective by performing the liver and renal histology. Study Population-All patients diagnosed to have NAFLD with or without DM Type2 with CKD(GFR\<60 ML/MIN AND ALBUMINURIA (\>330 MG/MMOL)will be included in the study. STUDY PLAN Type of study-Randomised Control Trial(RCT) Study period-3 years Intervention-adding oral semaglutide once a day (starting from 3mg to 14 mg ).we will start from 3mg once a day and go upto 14 mg once a day . Control arm-patients receiving standard of care. Statistical analysis: Categorical values were reported as numbers, frequencies and percentages. Continuous data was reported as median and interquartile range (IQR) or mean with standard deviation. Chi square/Chi square with yate's correction/Fisher test was used for comparing categorical values depending on the sample size. For comparing continuous data, unpaired t-test or Mann Whitney was used as appropriate16 was used for statistical analysis. A p-value of below 0.05 was adapted as a value of statistical significance for the purpose of this study.Intension to treat and per protocol analysis will be done and any adverse event will be reported. ANIMAL MODEL Male C57BL/6J mice (6 weeks old) are selected for the study Mice will be induced to liver disease by feeding a rodent diet with 58 Kcal% fat and sucrose (D12331- Research diets) for 20- 32 weeks and Mice on a standard chow diet will be included as controls. 6-week-old mice will be fed with 50% supplementation of a High-fat diet with standard chow diet for acclimatization for period of two weeks. Post which a complete high fat diet will be administered. To reflect the disease state at the start of treatment, animals will be sacrificed from both groups. Histology for liver and kidney will be performed at dose start (baseline group), other endpoints and biochemical parameters will also be analyzed at this point. Oral animal equivalent dose will be calculated using known human dose of Semaglutide. Oral semaglutide pills will be crushed into powder form and resuspended in distilled water for oral gavage. Semaglutide or vehicle (Distilled water/ Normal saline) will be administered orally daily for 8-12 weeks, while body weight, food and water consumption will be monitored daily. Weekly Insulin tolerance test and glucose tolerance test will be performed from the start of 20th weeks to analyze insulin resistance and hyperglycemia in mice model. At study termination, blood sampled via retro-orbital will be collected for analysis of liver enzymes, plasma lipids (ALT, AST, TG and TC), serum urea, creatinine, and blood urea nitrogen. Urine will be collected to measure Albumin and creatinine using commercially available ELISA kits. Collected plasma samples will be used to measure levels of Adiponectin, leptin, resistin and ghrelin using commercially available ELISA kits. Animals will be euthanized using ketamine and xylazine cocktail, and liver and renal tissues will be collected weighed and subjected to histology, gene expression and other biochemical parameters for further study and inference. These expected deliverable aim to demonstrate the efficacy of Semaglutide in slowing the progression of CKD and NAFLD, validated through both clinical and preclinical studies, thereby supporting its potential use as a therapeutic option for these conditions.