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MicroRNA‐29a Compromises Hepatic Adiposis and Gut Dysbiosis in High Fat Diet‐Fed Mice via Downregulating Inflammation

Ya‐Ling Yang, Ying‐Hsien Huang, Feng‐Sheng Wang, Ming‐Chao Tsai, Chien‐Hung Chen, Wei‐Shiung Lian

2023Molecular Nutrition & Food Research14 citationsDOI

Abstract

SCOPE: miR-29a expression patterns influence numerous physiological phenomena. Of note, upregulation of miR-29a ameliorates high-fat diet (HFD)-induced liver dysfunctions in mice. However, the miR-29a effect on gut microbiome composition and HFD-induced gut microbiota changes during metabolic disturbances remains unclear. The study provides compelling evidence for the protective role of miR-29a in gut barrier dysfunction and steatohepatitis. METHODS AND RESULTS: miR-29a overexpressed mice (miR-29aTg) are bred to characterize intestinal, serum biochemical, and fecal microbiota profiling features compared to wild-type mice (WT). Mice are fed an HFD for 8 months to induce steatohepatitis, and intestinal dysfunction is determined via histopathological analysis. miR-29aTg has better lipid metabolism capability that decreases total cholesterol and triglyceride levels in serum than WT of the same age. The study further demonstrates that miR-29aTg contributes to intestinal integrity by maintaining periodic acid Schiff positive cell numbers and diversity of fecal microorganisms. HFD-induced bacterial community disturbance and steatohepatitis result in more severe WT than miR-29aTg. Gut microorganism profiling reveals Lactobacillus, Ruminiclostridium_9, and Lachnoclostridium enrichment in miR-29aTg and significantly decreases interleukin-6 expression in the liver and intestinal tract. CONCLUSION: This study provides new evidence that sheds light on the host genetic background of miR-29a, which protects against steatohepatitis and other intestinal disorders.

Topics & Concepts

SteatohepatitisDysbiosisGut floraAkkermansiaBiologyMicrobiomeInflammationLipid metabolismFecesImmunologyEndocrinologyInternal medicineLactobacillusFatty liverMicrobiologyMedicineBiochemistryBioinformaticsDiseaseFermentationGut microbiota and healthMicroRNA in disease regulationLiver Disease Diagnosis and Treatment
MicroRNA‐29a Compromises Hepatic Adiposis and Gut Dysbiosis in High Fat Diet‐Fed Mice via Downregulating Inflammation | Litcius