Ankyrin-B metabolic syndrome combines age-dependent adiposity with pancreatic β cell insufficiency
Damaris N. Lorenzo, … , Mingjie Zhang, Vann Bennett
Damaris N. Lorenzo, … , Mingjie Zhang, Vann Bennett
Published July 13, 2015
Citation Information: J Clin Invest. 2015;125(8):3087-3102. https://doi.org/10.1172/JCI81317.
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Research Article Endocrinology

Ankyrin-B metabolic syndrome combines age-dependent adiposity with pancreatic β cell insufficiency

Abstract

Rare functional variants of ankyrin-B have been implicated in human disease, including hereditary cardiac arrhythmia and type 2 diabetes (T2D). Here, we developed murine models to evaluate the metabolic consequences of these alterations in vivo. Specifically, we generated knockin mice that express either the human ankyrin-B variant R1788W, which is present in 0.3% of North Americans of mixed European descent and is associated with T2D, or L1622I, which is present in 7.5% of African Americans. Young AnkbR1788W/R1788W mice displayed primary pancreatic β cell insufficiency that was characterized by reduced insulin secretion in response to muscarinic agonists, combined with increased peripheral glucose uptake and concomitantly increased plasma membrane localization of glucose transporter 4 (GLUT4) in skeletal muscle and adipocytes. In contrast, older AnkbR1788W/R1788W and AnkbL1622I/L1622I mice developed increased adiposity, a phenotype that was reproduced in cultured adipocytes, and insulin resistance. GLUT4 trafficking was altered in animals expressing mutant forms of ankyrin-B, and we propose that increased cell surface expression of GLUT4 in skeletal muscle and fatty tissue of AnkbR1788W/R1788W mice leads to the observed age-dependent adiposity. Together, our data suggest that ankyrin-B deficiency results in a metabolic syndrome that combines primary pancreatic β cell insufficiency with peripheral insulin resistance and is directly relevant to the nearly one million North Americans bearing the R1788W ankyrin-B variant.

Authors

Damaris N. Lorenzo, Jane A. Healy, Janell Hostettler, Jonathan Davis, Jiayu Yang, Chao Wang, Hans Ewald Hohmeier, Mingjie Zhang, Vann Bennett

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Figure 3

Increased peripheral glucose utilization associated with persistent cell surface GLUT4 in AnkbR1788W/R1788W mice.

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Increased peripheral glucose utilization associated with persistent cell...
(A) Hyperinsulinemic-euglycemic clamp analysis in 3-month-old (n = 8) mice. (B) GIR during insulin clamp. (C and D) 2-DG uptake by (C) skeletal muscle and (D) WAT. (E and F) Immunoblots of total AKT and phosphorylated AKT (p-AKT S473) levels in (E) skeletal muscle and (F) differentiated adipocytes from 3-month-old mice under basal or insulin-stimulated conditions. (G and H) Immunoblots and quantification of plasma membrane–associated GLUT4 levels after subcellular fractionation of (G) skeletal muscle and (H) WAT lysates under basal conditions or following insulin stimulation. (I) Total levels of GLUT4, as evaluated by immunoblotting. Data represent mean ± SEM (n = 8 mice). *P < 0.05, **P < 0.01, ***P < 0.001, 1-way ANOVA with post-hoc Tukey test. Results are representative of 3 independent experiments.