Notch-mediated Ephrin signaling disrupts islet architecture and β cell function
Alberto Bartolomé, Nina Suda, Junjie Yu, Changyu Zhu, Jinsook Son, Hongxu Ding, Andrea Califano, Domenico Accili, Utpal B. Pajvani
Alberto Bartolomé, Nina Suda, Junjie Yu, Changyu Zhu, Jinsook Son, Hongxu Ding, Andrea Califano, Domenico Accili, Utpal B. Pajvani
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Research Article Endocrinology

Notch-mediated Ephrin signaling disrupts islet architecture and β cell function

Abstract

Altered islet architecture is associated with β cell dysfunction and type 2 diabetes (T2D) progression, but molecular effectors of islet spatial organization remain mostly unknown. Although Notch signaling is known to regulate pancreatic development, we observed “reactivated” β cell Notch activity in obese mouse models. To test the repercussions and reversibility of Notch effects, we generated doxycycline-dependent, β cell–specific Notch gain-of-function mice. As predicted, we found that Notch activation in postnatal β cells impaired glucose-stimulated insulin secretion and glucose intolerance, but we observed a surprising remnant glucose intolerance after doxycycline withdrawal and cessation of Notch activity, associated with a marked disruption of normal islet architecture. Transcriptomic screening of Notch-active islets revealed increased Ephrin signaling. Commensurately, exposure to Ephrin ligands increased β cell repulsion and impaired murine and human pseudoislet formation. Consistent with our mouse data, Notch and Ephrin signaling were increased in metabolically inflexible β cells in patients with T2D. These studies suggest that β cell Notch/Ephrin signaling can permanently alter islet architecture during a morphogenetic window in early life.

Authors

Alberto Bartolomé, Nina Suda, Junjie Yu, Changyu Zhu, Jinsook Son, Hongxu Ding, Andrea Califano, Domenico Accili, Utpal B. Pajvani

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Figure 5

Repulsive effects of EFNA5 on mouse β cells.

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Repulsive effects of EFNA5 on mouse β cells. (A) Representative images a...
(A) Representative images and morphometric analysis of Th-positive area in β-tetO-NICD and Cre controls after 8 weeks’ Dox. Individual islets from at least 5 mice/group are plotted. (B) Experimental workflow for pseudoislet formation and cell repulsion assays. Islets were dissociated into single cells that were incubated in ultra-low-attachment wells for pseudoislet formation, or applied to coated coverslips for adhesion assays, in the presence of EFNA5-Fc chimera or Fc control. (C) Representative images and quantitation of pseudoislet formation of dispersed islet cells after 4-day exposure to EFNA5-Fc or Fc control, at high (55 nM) or low (13.75 mM) dose. Data pooled from 3 independent experiments. (D) Representative images and quantitation of β cells in EFNA5-Fc–coated condition (normalized to Fc control). Data shown as average of 3 independent experiments. Scale bars: 20 μm. All data are shown with group means; ***, P < 0.001, ****, P < 0.0001 by 2-tailed t test.