DGAT1-dependent triacylglycerol storage by macrophages protects mice from diet-induced insulin resistance and inflammation
Suneil K. Koliwad, … , Brian Hubbard, Robert V. Farese Jr.
Suneil K. Koliwad, … , Brian Hubbard, Robert V. Farese Jr.
Published February 1, 2010
Citation Information: J Clin Invest. 2010;120(3):756-767. https://doi.org/10.1172/JCI36066.
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Research Article Metabolism

DGAT1-dependent triacylglycerol storage by macrophages protects mice from diet-induced insulin resistance and inflammation

Abstract

Diet-induced obesity (DIO) leads to inflammatory activation of macrophages in white adipose tissue (WAT) and subsequently to insulin resistance. PPARγ agonists are antidiabetic agents known to suppress inflammatory macrophage activation and to induce expression of the triacylglycerol (TG) synthesis enzyme acyl CoA:diacylglycerol acyltransferase 1 (DGAT1) in WAT and in adipocytes. Here, we investigated in mice the relationship between macrophage lipid storage capacity and DIO-associated inflammatory macrophage activation. Mice overexpressing DGAT1 in both macrophages and adipocytes (referred to herein as aP2-Dgat1 mice) were more prone to DIO but were protected against inflammatory macrophage activation, macrophage accumulation in WAT, systemic inflammation, and insulin resistance. To assess the contribution of macrophage DGAT1 expression to this phenotype, we transplanted wild-type mice with aP2-Dgat1 BM. These mice developed DIO similar to that of control mice but retained the protection from WAT inflammation and insulin resistance seen in aP2-Dgat1 mice. In isolated macrophages, Dgat1 mRNA levels correlated directly with TG storage capacity and inversely with inflammatory activation by saturated fatty acids (FAs). Moreover, PPARγ agonists increased macrophage Dgat1 mRNA levels, and the protective effects of these agonists against FA-induced inflammatory macrophage activation were absent in macrophages isolated from Dgat1-null mice. Thus, increasing DGAT1 expression in murine macrophages increases their capacity for TG storage, protects against FA-induced inflammatory activation, and is sufficient to reduce the inflammatory and metabolic consequences of DIO.

Authors

Suneil K. Koliwad, Ryan S. Streeper, Mara Monetti, Ivo Cornelissen, Liana Chan, Koji Terayama, Stephen Naylor, Meghana Rao, Brian Hubbard, Robert V. Farese Jr.

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Figure 4

Complete and specific reconstitution in mice transplanted with WT or aP2-Dgat1 BM.

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Complete and specific reconstitution in mice transplanted with WT or aP2...
(A) Depiction of the Dgat1 genotype expected in adipocytes and macrophages of WT mice transplanted with either WT or aP2-Dgat1 BM. (B) Representative FACS plots of peripheral blood leukocytes from mice, performed with FITC-coupled anti-CD45.1 and APC-coupled anti-CD45.2 antibodies, showing recipient (CD45.1-positive) and donor (CD45.2-positive) cells (top) and that more than 94% of leukocytes after transplant were of donor origin. (C) Expression of the aP2-Dgat1 transgene is detectable in blood of recipients of Tg→WT donors but not WT→WT controls. PCR was performed with aP2-Dgat1–specific primers. Tail DNA from known aP2-Dgat1 mice. C indicates a positive control for the transgene. (D) Increased Dgat1 mRNA levels specifically in the SVF of Tg→WT mice. mRNA levels were measured by qPCR from the livers and whole and fractionated WAT of transplanted mice (n = 7–13 per group) fed a high-fat diet for 20 weeks (*P < 0.05).