Electrogenic sodium bicarbonate cotransporter NBCe1 regulates pancreatic β cell function in type 2 diabetes
Matthew R. Brown, … , Michael F. Romero, Aleksey V. Matveyenko
Matthew R. Brown, … , Michael F. Romero, Aleksey V. Matveyenko
Published September 1, 2021
Citation Information: J Clin Invest. 2021;131(17):e142365. https://doi.org/10.1172/JCI142365.
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Research Article Cell biology Endocrinology

Electrogenic sodium bicarbonate cotransporter NBCe1 regulates pancreatic β cell function in type 2 diabetes

Abstract

Pancreatic β cell failure in type 2 diabetes mellitus (T2DM) is attributed to perturbations of the β cell’s transcriptional landscape resulting in impaired glucose-stimulated insulin secretion. Recent studies identified SLC4A4 (a gene encoding an electrogenic Na+-coupled HCO3– cotransporter and intracellular pH regulator, NBCe1) as one of the misexpressed genes in β cells of patients with T2DM. Thus, in the current study, we set out to test the hypothesis that misexpression of SLC4A4/NBCe1 in T2DM β cells contributes to β cell dysfunction and impaired glucose homeostasis. To address this hypothesis, we first confirmed induction of SLC4A4/NBCe1 expression in β cells of patients with T2DM and demonstrated that its expression was associated with loss of β cell transcriptional identity, intracellular alkalinization, and β cell dysfunction. In addition, we generated a β cell–selective Slc4a4/NBCe1-KO mouse model and found that these mice were protected from diet-induced metabolic stress and β cell dysfunction. Importantly, improved glucose tolerance and enhanced β cell function in Slc4a4/NBCe1-deficient mice were due to augmented mitochondrial function and increased expression of genes regulating β cell identity and function. These results suggest that increased β cell expression of SLC4A4/NBCe1 in T2DM plays a contributory role in promotion of β cell failure and should be considered as a potential therapeutic target.

Authors

Matthew R. Brown, Heather Holmes, Kuntol Rakshit, Naureen Javeed, Tracy K. Her, Alison A. Stiller, Satish Sen, Gary E. Shull, Y.S. Prakash, Michael F. Romero, Aleksey V. Matveyenko

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Figure 2

NBCe1 expression is increased in T2DM β cells and is associated with loss of β cell identity.

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NBCe1 expression is increased in T2DM β cells and is associated with los...
(A) Representative examples of human pancreatic sections immunostained for NBCe1 (red), insulin (green), glucagon (white), and nuclear marker DAPI (blue) and imaged at 20× magnification. Human pancreas was obtained at autopsy from lean, nondiabetic (lean ND); obese nondiabetic individuals (obese ND); and patients with documented obesity and T2DM (obese T2DM). Scale bars: 20 μm in all images. Images are representative of n = 6–8 independent autopsy specimens per group. (B) Mean NBCe1 expression in β and α cells from lean ND, obese ND, and obese T2DM individuals as represented by the percentage of NBCe1 and insulin (top) or glucagon (bottom) double-positive pixels. **P < 0.01 denotes statistical significance versus lean ND (1-way ANOVA with Dunnett’s method for multiple comparisons; n = 6–8 independent autopsy specimens per group). (C) Representative images of human pancreatic sections from lean ND and obese T2DM individuals immunostained for NBCe1 (red), insulin (gray), and NKX6.1 (green) and imaged at 63× magnification. Scale bars: 20 μm in all images. Images are representative of n = 5 independent autopsy specimens per group. (D) Fraction of β cells from lean ND and obese T2DM individuals expressing cytoplasmic NKX6.1 and NBCe1 (top) and fraction of β cells expressing nuclear NKX6.1 in the absence of NBCe1 relative to background (bottom). ***P < 0.001 denotes statistical significance vs. lean ND (unpaired, 2-tailed t test; n = 5 independent autopsy specimens per group). All values are represented as mean ± SEM.