Transcription factor EB enhances autophagy and ameliorates palmitate-induced insulin resistance at least partly via upregulating AMPK activity in skeletal muscle cells.
Ping WangChun Guang LiXian ZhouShuzhe DingPublished in: Clinical and experimental pharmacology & physiology (2021)
This study aimed to elucidate the role of transcription factor EB (TFEB) in protecting C2C12 myotubes against palmitate (PA)-induced insulin resistance (IR) and explored its mechanism associated with autophagy. PA treatment significantly decreased insulin sensitivity in myotubes and downregulated TFEB protein expression. TFEB overexpression significantly reversed the PA-suppressed glucose transporter 4 (GLUT4) protein expression and improved intracellular glucose uptake and consumption, and also alleviated the decrease of autophagy markers induced by PA. The effect of TFEB overexpression on GLUT4 was also abolished by the autophagy inhibitor 3-MA. In addition, AMPKɑ2-DN inhibited or abolished the effects of TFEB overexpression on upregulation of GLUT4 and PA-induced decrease of autophagy marker expressions. Taken together, our data demonstrated that upregulation of TFEB improved PA-induced IR in C2C12 myotubes by enhancing autophagy and upregulating AMPK activity. TFEB, as a critical regulator of glucose homeostasis in skeletal muscle cells, may be a potential therapeutic target for IR and Type 2 diabetes.
Keyphrases
- skeletal muscle
- insulin resistance
- transcription factor
- endoplasmic reticulum stress
- cell death
- signaling pathway
- induced apoptosis
- type diabetes
- oxidative stress
- high glucose
- diabetic rats
- cell proliferation
- cell cycle arrest
- metabolic syndrome
- high fat diet
- cardiovascular disease
- poor prognosis
- dna binding
- polycystic ovary syndrome
- high fat diet induced
- climate change
- endothelial cells
- long non coding rna
- deep learning