In-vitro modulation of glucose and lipid metabolism by Lentinula edodes extracts in obesity and type 2 diabetes models

Abstract

Introduction

Lentinula edodes (shiitake mushroom) has been integral to Traditional Chinese Medicine (TCM) for centuries, with its cultivation dating back to the Song dynasty (960–1127) in China. Traditionally valued for its immune-boosting properties, L. edodes is now being studied for its potential in managing metabolic disorders like obesity and type 2 diabetes. This study examines the effects of L. edodes fruiting body extract on key metabolic pathways related to glucose metabolism and lipid regulation.

Methods

Fruiting body extracts of Lentinula edodes including water, ethanolic, methanolic, and hydroalcoholic (50:50, 75:25, 25:75) were tested on L6 myoblasts. The study evaluated glucose uptake, GLUT4 expression, p-AMPK activation, and gene expression levels of PPARγ, AMPK, UCP-1, and FASN. Comparisons were made with control groups and standards like berberine and insulin.

Results

The hydroalcoholic extracts (50:50 and 75:25) significantly enhanced glucose uptake (p < 0.001) and GLUT4 translocation, similar to the effects of insulin (p < 0.0001) and berberine (p < 0.0001). These extracts also upregulated p-AMPK (p < 0.0001) and UCP-1 expression (7.621), indicating improved insulin sensitivity and thermogenic activity. Additionally, these extracts differentially regulated PPARγ and FASN, suggesting a complex interaction with lipid metabolism. Notably, FASN expression was highly upregulated in water extract (37.792), indicating potential implications for fatty acid synthesis and storage.

Discussion

Lentinula edodes shows significant potential as a functional food for managing obesity and diabetes, supporting traditional TCM practices with modern scientific evidence. The study suggests that L. edodes can modulate key metabolic pathways such as glucose uptake, AMPK signalling, PPARγ regulation, and upregulation of FASN and UCP-1, making it a promising natural therapeutic agent. Further research, including clinical trials, is necessary to confirm these benefits in humans and explore the underlying mechanisms.