Soluble and insoluble dietary fibres differentially affect liver steatosis and gut microbiota in western-diet fed mice

Scope: Metabolic dysfunction-associated steatotic liver disease (MASLD) is the most common chronic hepatic liver disease. An imbalance diet, rich in lipids and sugars and low in fibre, is a key contributing factor. However, there is limited knowledge about how soluble and fermentable dietary fibres, compared to insoluble and non-fermentable fibres, differently affect liver metabolism through their interactions with the intestinal microbiota. Methods and results: Male mice housed at thermoneutrality were fed a Western Diet (WD) supplemented with fermentable inulin or non-fermentable cellulose for 18 weeks. Inulin supplementation mitigated WD-induced obesity, glucose intolerance, dyslipidemia and protected against WD-induced hepatic steatosis compared to cellulose. Hepatic gene expression changes induced by WD were attenuated with inulin. Additionally, inulin preserved gut microbiota composition and metabolism, indicating greater resilience against diet-induced perturbations. Conclusion: These findings suggest that soluble dietary fibres like inulin confer superior metabolic and hepatic benefits over insoluble fibres by modulating the gut microbiota-liver axis, highlighting their potential role in MASLD management.