Abstract
Thioredoxin-interacting protein (TXNIP) is up-regulated by glucose and diabetes and plays a critical role in glucotoxicity, inflammation, and beta-cell apoptosis, whereas we have found that TXNIP deficiency protects against diabetes. Interestingly, human islet amyloid polypeptide (IAPP) is also induced by glucose, aggregates into insoluble amyloid fibrils found in islets of most individuals with type 2 diabetes and promotes inflammation and beta-cell cytotoxicity. However, so far no connection between TXNIP and IAPP signaling had been reported. Using TXNIP gain and loss of function experiments, INS-1 beta-cells and beta-cell-specific Txnip knock-out mice, we now found that TXNIP regulates IAPP expression. Promoter analyses and chromatin-immunoprecipitation assays further demonstrated that TXNIP increases IAPP expression at the transcriptional level, and we discovered that TXNIP-induced FoxA2 (forkhead box A2) transcription factor expression was conferring this effect by promoting FoxA2 enrichment at the proximal FoxA2 site in the IAPP promoter. Moreover, we found that TXNIP down-regulates miR-124a expression, a microRNA known to directly target FoxA2. Indeed, miR-124a overexpression led to decreased FoxA2 expression and IAPP promoter occupancy and to a significant reduction in IAPP mRNA and protein expression and also effectively inhibited TXNIP-induced IAPP expression. Thus, our studies have identified a novel TXNIP/miR-124a/FoxA2/IAPP signaling cascade linking the critical beta-cell signaling pathways of TXNIP and IAPP and thereby provide new mechanistic insight into an important aspect of transcriptional regulation and beta-cell biology.
Highlights
Islet amyloid polypeptide (IAPP) plays an important role in beta-cell biology, but its regulation is not fully understood
IAPP mRNA and protein expression were significantly increased in INS-1 beta-cells overexpressing Thioredoxin-interacting protein (TXNIP) (Fig. 1, C and D), whereas TXNIP knockdown resulted in decreased IAPP expression (Fig. 1E)
0.87 Ϯ 0.02 2.25 Ϯ 0.31 2.03 Ϯ 0.15 p ϭ 0.044 p ϭ 0.083 p ϭ 0.031 intricately. Such an increase in IAPP expression has major implications for beta-cell biology as IAPP overexpression in beta cells leads to increased apoptosis [31] and decreased insulin secretion [32], whereas inhibition of IAPP expression results in enhanced beta-cell survival and glucose-stimulated insulin secretion [33]
Summary
Islet amyloid polypeptide (IAPP) plays an important role in beta-cell biology, but its regulation is not fully understood. Our studies have identified a novel TXNIP/miR-124a/ FoxA2/IAPP signaling cascade linking the critical beta-cell signaling pathways of TXNIP and IAPP and thereby provide new mechanistic insight into an important aspect of transcriptional regulation and beta-cell biology. IAPP deposits are often co-localized with cellular degeneration and apoptosis and have been strongly associated with the progressive loss of pancreatic beta-cell mass in diabetes [3] Aside from these extracellular amyloid fibrils detected by light microscopy, more recent studies have suggested that smaller non-fibrillar oligomers contribute to the toxic effects of IAPP [2, 4, 5]. The present studies were aimed at determining the effects of TXNIP on beta-cell IAPP and uncovered a novel gene regulatory system linking the critical beta-cell signaling pathways of TXNIP and IAPP and elucidated the transcriptional mechanisms involved
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