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A single-cell transcriptomic atlas of primate pancreatic islet aging

Jingyi Li, Yuxuan Zheng, Pengze Yan, Moshi Song, Si Wang, Liang Sun, Zunpeng Liu, Shuai Ma, Juan Carlos Izpisúa Belmonte, Piu Chan, Qi Zhou, Weiqi Zhang, Guang‐Hui Liu, Fuchou Tang, Jing Qu

2020National Science Review80 citationsDOIOpen Access PDF

Abstract

Aging-related degeneration of pancreatic islet cells contributes to impaired glucose tolerance and diabetes. Endocrine cells age heterogeneously, complicating the efforts to unravel the molecular drivers underlying endocrine aging. To overcome these obstacles, we undertook single-cell RNA sequencing of pancreatic islet cells obtained from young and aged non-diabetic cynomolgus monkeys. Despite sex differences and increased transcriptional variations, aged β-cells showed increased unfolded protein response (UPR) along with the accumulation of protein aggregates. We observed transcriptomic dysregulation of UPR components linked to canonical ATF6 and IRE1 signaling pathways, comprising adaptive UPR during pancreatic aging. Notably, we found aging-related β-cell-specific upregulation of HSP90B1, an endoplasmic reticulum-located chaperone, impeded high glucose-induced insulin secretion. Our work decodes aging-associated transcriptomic changes that underlie pancreatic islet functional decay at single-cell resolution and indicates that targeting UPR components may prevent loss of proteostasis, suggesting an avenue to delaying β-cell aging and preventing aging-related diabetes.

Topics & Concepts

ProteostasisUnfolded protein responseBiologyIsletEndoplasmic reticulumTranscriptomeDownregulation and upregulationXBP1Enteroendocrine cellCell biologyATF6EndocrinologyInternal medicinePancreatic isletsPancreasCellDiabetes mellitusEndocrine systemRNAHormoneGene expressionGeneMedicineGeneticsRNA splicingPancreatic function and diabetesEndoplasmic Reticulum Stress and DiseaseDiabetes and associated disorders