Abstract
Recent studies suggest that autophagy is highly involved in insulin resistance (IR). Inhibition of the PI3K/AKT/mTOR signaling pathway induces autophagy activation. Additionally, depletion of LRP6 has been shown to increase insulin sensitivity but its mechanism is still not clear. We hypothesized that LRP6 contributes to IR by regulating mTOR mediated autophagy through GSK3β in hepatocytes. LO2 hepatocytes were treated with palmitate (PA) and insulin to induced IR. Levels of LRP6 mRNA and protein expression were measured by real time-PCR and western blot analysis. LRP6 knock down was achieved by adenovirus mediated Si-LRP6 expression and its roles in IR, glucose, GSK3β, mTOR signaling, and autophagy were explored. Finally, GSK3β was overexpressed and its involvement in autophagy and IR was examined. We found that PA treatment led to a reduced glucose uptake and IR in hepatocytes, which was accompanied by an upregulation of LRP6 expression. Knocking down of LRP6 enhanced glucose uptake and insulin sensitivity in PA treated cells, probably through increasing GSK3b activity. Overexpression of GSK3b mimicked LRP6 reduction by enhancing autophagy and ameliorating IR. Our study revealed a significant molecular mechanism connecting LRP6 to insulin sensitivity through GSK3β-mTOR mediated autophagy.
Highlights
Insulin resistance (IR) plays a major role in the pathogenesis of several metabolic disorders, including type 2 diabetes, obesity, and hyperlipidemia
We found that PA treatment alone significantly reduced the levels of phosphorylated IRS1 (p-IRS1) and AKT (p-AKT) compared to the control treatment (Figures 1A,B)
We found that insulin significantly increased glucose uptake which was blocked by PA treatment (Figure 1C)
Summary
Insulin resistance (IR) plays a major role in the pathogenesis of several metabolic disorders, including type 2 diabetes, obesity, and hyperlipidemia. Accumulating evidence has pointed autophagy as an important player in the development of IR. Autophagy is an important cellular process, responsible for removing intracellular debris and protein turnover [3]. It is usually activated in stressed status such as starvation [4]. IR is associated with downregulation of autophagy in the liver [5]. Restoring autophagy enhances glucose tolerance and insulin sensitivity in obese mice. Increasing physical activity is associated with increased basal autophagy that improves glucose handling in diet-induced obese mice [6,7,8]
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