CD36 is a multifunctional protein involved in long chain fatty acid uptake and immune modulation in different cells. Recently it was reported that increased expression of CD36 is evident in the islets of diabetic obese individuals. In this present study we investigated the role of CD36 in regulating intracellular lipid accumulation and inflammation in beta cells and its implication on secretory dysfunction. Additionally, we have elucidated the potential role of fetuinA, a circulatory glycoprotein and an endogenous ligand of TLR4, for aggravating lipid accumulation and insulin secretory defects in beta cells. MIN6 mouse insulinoma cells when incubated with palmitate and fetuinA together showed activation of TLR4-NFkB inflammatory cascade and increased uptake of palmitate, which was rescued by CD36 functional inhibition or knockdown. Moreover, glucose stimulated insulin secretion was restored with consequent downregulation of IL-1β secretion. TLR4 inhibition also decreased intracellular lipid content with a reduction of CD36, suggesting functional crosstalk between them. At physiological level, excess fetuinA in the islet milieu of HFD fed C57BL/6J mice or exogenous fetuinA administration (i.p.) promoted lipid accumulation in the islets resulting in decreased insulin secretion with increased CD36 expression. Interestingly, CD36 inhibition in HFD mice with a pharmacological inhibitor Salvianolic acid B attenuated inflammation, reduced intracellular lipid accumulation in beta cells and restored insulin secretory function. Therefore, our results suggest that inhibition of CD36 protects beta cells from the derogatory effects of lipid and fetuinA and restores secretory function and can be considered as a therapeutic target for obesity mediated beta cell dysfunction.
Keywords: CD36; FetuinA; Inflammation; Insulin secretion; Lipid accumulation; TLR4.
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