Abstract
SummaryType 2 diabetes (T2D) develops after years of prediabetes during which high glucose (glucotoxicity) impairs insulin secretion. We report that the ATP-conducting mitochondrial outer membrane voltage-dependent anion channel-1 (VDAC1) is upregulated in islets from T2D and non-diabetic organ donors under glucotoxic conditions. This is caused by a glucotoxicity-induced transcriptional program, triggered during years of prediabetes with suboptimal blood glucose control. Metformin counteracts VDAC1 induction. VDAC1 overexpression causes its mistargeting to the plasma membrane of the insulin-secreting β cells with loss of the crucial metabolic coupling factor ATP. VDAC1 antibodies and inhibitors prevent ATP loss. Through direct inhibition of VDAC1 conductance, metformin, like specific VDAC1 inhibitors and antibodies, restores the impaired generation of ATP and glucose-stimulated insulin secretion in T2D islets. Treatment of db/db mice with VDAC1 inhibitor prevents hyperglycemia, and maintains normal glucose tolerance and physiological regulation of insulin secretion. Thus, β cell function is preserved by targeting the novel diabetes executer protein VDAC1.
Highlights
Type 2 diabetes (T2D) is steadily increasing and represents a worldwide health problem
There was a negative correlation between HbA1c and islet VDAC2 mRNA (Figure 1D), which was only marginally changed by removal of the metformin-treated donors (Figures 1D insert, S1D, and 1E for islet mRNA levels)
One of these voltagedependent anion channel-1 (VDAC1) transcript variants appears to be induced by hyperglycemia, as the elevated expression in T2D donors is already seen in part in islets from impaired glucose tolerance (IGT) donors (Figure S1G)
Summary
Zhang et al report on the role of the ATPconducting mitochondrial outer membrane voltage-dependent anion channel-1 (VDAC1) in b cell glucotoxicity preceding diabetes. VDAC1 upregulation leads to ATP depletion and impaired insulin secretion. VDAC1 inhibitors, including metformin, restore insulin secretion in T2D islet donors and prevent hyperglycemia in diabetic mice. 2019, Cell Metabolism 29, 64–77 January 8, 2019 a 2018 The Authors.
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