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Title: Atf6α-null mice are glucose intolerant due to pancreatic β-cell failure on a high-fat diet but partially resistant to diet-induced insulin resistance. Author: Usui M, Yamaguchi S, Tanji Y, Tominaga R, Ishigaki Y, Fukumoto M, Katagiri H, Mori K, Oka Y, Ishihara H. Journal: Metabolism; 2012 Aug; 61(8):1118-28. PubMed ID: 22386934. Abstract: Activating transcription factor 6α (ATF6α) is essential for the endoplasmic reticulum (ER) stress response. Since recent studies suggested that ER stress is involved in the pathogenesis of type 2 diabetes mellitus, we have analyzed Atf6α-null (Atf6α(-/-)) mice challenged with metabolic overload or genetic manipulations. Atf6α(-/-) mice were fed a high-fat diet to create diet-induced obese (DO) mice, and were subjected to examination of glucose homeostasis with biochemical and morphological analysis of the pancreatic β-cell and liver tissues. Atf6α-null mice were also crossed with genetic models of diabetes caused either by insulin resistance (Agouti obese mice) or by impaired insulin secretion (Ins2(WT/C96Y) mice). Atf6α(-/-) DO mice were less glucose tolerant with blunted insulin secretion compared to littermates on a high-fat diet. Pancreatic insulin content was lower in Atf6α(-/-) DO mice with the swollen β-cell ER, a typical feature of cells with ER stress. In the liver of Atf6α(-/-) DO mice, XBP-1 splicing was increased, suggesting that higher ER stress was present. ATF6-deficient mice showed increased mRNA expressions of glucose-6-phosphatase and SREBP1c associated with a tendency for a higher degree of steatosis in the liver. However, Atf6α(-/-) DO mice exhibited higher insulin sensitivity with lower serum triglyceride levels. Similar phenotypes were observed in ATF6α-deficient Agouti mice. In addition, ATF6α-deficiency accelerated reduction in pancreatic insulin content in Ins2(WT/C96Y) mice. These data suggested that ATF6α contributes to both prevention and promotion of diabetes; it protects β-cells from ER stress and suppresses hepatosteatosis, but plays a role in the development of hyperlipidemia and insulin resistance.[Abstract] [Full Text] [Related] [New Search]