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KMID : 0578320180410100909
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Molecules and Cells
2018 Volume.41 No. 10 p.909 ~ p.916
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Glucose Controls the Expression of Polypyrimidine Tract-Binding Protein 1 via the Insulin Receptor Signaling Pathway in Pancreatic ¥â Cells
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Jeong Da-Eun
Heo Sung-Eun
Han Ji-Hye
Lee Eun-Young
Kulkarni Rohit N.
Kim Wook
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Abstract
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In pancreatic ¥â cells, glucose stimulates the biosynthesis of insulin at transcriptional and post-transcriptional levels. The RNA-binding protein, polypyrimidine tract-binding protein 1 (PTBP1), also named hnRNP I, acts as a critical mediator of insulin biosynthesis through binding to the pyrimidine-rich region in the 3¡¯-untranslated region (UTR) of insulin mRNA. However, the underlying mechanism that regulates its expression in ¥â cells is unclear. Here, we report that glucose induces the expression of PTBP1 via the insulin receptor (IR) signaling pathway in ¥â cells. PTBP1 is present in ¥â cells of both mouse and monkey, where its levels are increased by glucose and insulin, but not by insulin-like growth factor 1. PTBP1 levels in immortalized ¥â cells established from wild-type (¥âIRWT) mice are higher than levels in ¥â cells established from IR-null (¥âIRKO) mice, and ectopic re-expression of IR-WT in ¥âIRKO cells restored PTBP1 levels. However, PTBP1 levels were not altered in ¥âIRKO cells transfected with IR-3YA, in which the Tyr1158/1162/1163 residues are substituted with Ala. Consistently, treatment with glucose or insulin elevated PTBP1 levels in ¥âIRWT cells, but not in ¥âIRKO cells. In addition, silencing Akt significantly lowered PTBP1 levels. Thus, our results identify insulin as a pivotal mediator of glucose-induced PTBP1 expression in pancreatic ¥â cells.
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KEYWORD
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glucose, insulin, insulin receptor signaling, pancreatic ¥â cell, PTBP1
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