Mitoribosome insufficiency in β cells is associated with type 2 diabetes-like islet failure
Hyun Jung Hong, Kyong Hye Joung, Yong Kyung Kim, Min Jeong Choi, Seulgi Kang, Jung Tae Kim∥, Yea Eun Kang, Joon Young Chang, Joon Ho Moon, Sangmi Jun, Hyun‐Joo Ro, Yujeong Lee, Hyeongseok Kim, Jae‐Hyung Park, Baeki E. Kang, Yunju Jo, Hee‐Jung Choi, Dongryeol Ryu, Chul‐Ho Lee, Hail Kim, Kyu‐Sang Park, Hyun Jin Kim, Minho Shong, Hyun Jin Kim, Hyun Jin Kim, Minho Shong
Abstract
Abstract Genetic variations in mitoribosomal subunits and mitochondrial transcription factors are related to type 2 diabetes. However, the role of islet mitoribosomes in the development of type 2 diabetes has not been determined. We investigated the effects of the mitoribosomal gene on β-cell function and glucose homeostasis. Mitoribosomal gene expression was analyzed in datasets from the NCBI GEO website (GSE25724, GSE76894, and GSE76895) and the European Nucleotide Archive (ERP017126), which contain the transcriptomes of type 2 diabetic and nondiabetic organ donors. We found deregulation of most mitoribosomal genes in islets from individuals with type 2 diabetes, including partial downregulation of CRIF1. The phenotypes of haploinsufficiency in a single mitoribosomal gene were examined using β-cell-specific Crif1 ( Mrpl59 ) heterozygous-deficient mice. Crif1 beta+/− mice had normal glucose tolerance, but their islets showed a loss of first-phase glucose-stimulated insulin secretion. They also showed increased β-cell mass associated with higher expression of Reg family genes. However, Crif1 beta+/− mice showed earlier islet failure in response to high-fat feeding, which was exacerbated by aging. Haploinsufficiency of a single mitoribosomal gene predisposes rodents to glucose intolerance, which resembles the early stages of type 2 diabetes in humans.