β-cell Function is Regulated by Metabolic and Epigenetic Programming of Islet-associated Macrophages, Involving Axl, Mertk, and TGFβ Receptor Signaling

Overview

Journal iScience

Publisher Cell Press

Date 2023 Apr 24

PMID 37091234

Authors

Le May Thai

Liam OReilly

Saskia Reibe-Pal

Nancy Sue

Holly Holliday

Lewin Small

Carsten Schmitz-Peiffer

Rama Dhenni

Vicky Wang-Wei Tsai

Nicholas Norris

Belinda Yau

Xuan Zhang

Kailun Lee

Chenxu Yan

Yan-Chuan Shi

Melkam A Kebede

Robert Brink

Gregory J Cooney

Katharine M Irvine

Samuel N Breit

Tri G Phan

Alexander Swarbrick

Trevor J Biden

Affiliations

Soon will be listed here.

Abstract

We have exploited islet-associated macrophages (IAMs) as a model of resident macrophage function, focusing on more physiological conditions than the commonly used extremes of M1 (inflammation) versus M2 (tissue remodeling) polarization. Under steady state, murine IAMs are metabolically poised between aerobic glycolysis and oxidative phosphorylation, and thereby exert a brake on glucose-stimulated insulin secretion (GSIS). This is underpinned by epigenetic remodeling via the metabolically regulated histone demethylase Kdm5a. Conversely, GSIS is enhanced by engaging Axl receptors on IAMs, or by augmenting their oxidation of glucose. Following high-fat feeding, efferocytosis is stimulated in IAMs in conjunction with Mertk and TGFβ receptor signaling. This impairs GSIS and potentially contributes to β-cell failure in pre-diabetes. Thus, IAMs serve as relays in many more settings than currently appreciated, fine-tuning insulin secretion in response to dynamic changes in the external environment. Intervening in this nexus might represent a means of preserving β-cell function during metabolic disease.

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