Targeting ATGL to rescue BSCL2 lipodystrophy and its associated cardiomyopathy
Hongyi Zhou, Xinnuo Lei, Yun Yan, Todd Lydic, Jie Li, Neal L. Weintraub, Huabo Su, Weiqin Chen
Hongyi Zhou, Xinnuo Lei, Yun Yan, Todd Lydic, Jie Li, Neal L. Weintraub, Huabo Su, Weiqin Chen
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Research Article Cardiology Metabolism

Targeting ATGL to rescue BSCL2 lipodystrophy and its associated cardiomyopathy

Abstract

Mutations in the BSCL2 gene underlie human type 2 Berardinelli-Seip congenital lipodystrophy (BSCL2) disease. Global Bscl2–/– mice recapitulate human BSCL2 lipodystrophy and results in the development of insulin resistance and hypertrophic cardiomyopathy. The pathological mechanisms underlying the development of lipodystrophy and cardiomyopathy in BSCL2 are controversial. Here we report that Bscl2–/– mice develop cardiac hypertrophy because of increased basal IGF1 receptor–mediated (IGF1R-mediated) PI3K/AKT signaling. Bscl2–/– hearts exhibited increased adipose triglyceride lipase (ATGL) protein stability and expression causing drastic reduction of glycerolipids. Excessive fatty acid oxidation was overt in Bscl2–/– hearts, partially attributing to the hyperacetylation of cardiac mitochondrial proteins. Intriguingly, pharmacological inhibition or genetic inactivation of ATGL could rescue adipocyte differentiation and lipodystrophy in Bscl2–/– cells and mice. Restoring a small portion of fat mass by ATGL partial deletion in Bscl2–/– mice not only reversed the systemic insulin resistance, but also ameliorated cardiac protein hyperacetylation, normalized cardiac substrate metabolism, and improved contractile function. Collectively, our study uncovers pathways underlying lipodystrophy-induced cardiac hypertrophy and metabolic remodeling and pinpoints ATGL as a downstream target of BSCL2 in regulating the development of lipodystrophy and its associated cardiomyopathy.

Authors

Hongyi Zhou, Xinnuo Lei, Yun Yan, Todd Lydic, Jie Li, Neal L. Weintraub, Huabo Su, Weiqin Chen

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Figure 5

ATGL inhibition partially rescues adipocyte differentiation of Bscl2–/– cells.

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ATGL inhibition partially rescues adipocyte differentiation of Bscl2–/– ...
Bscl2+/+ and Bscl2–/– MEFs were subjected to a standard hormone cocktail DMI (dexamethasone, IBMX, and insulin) to induce adipocyte differentiation. Four days (D4) after differentiation, cells were treated with vehicle (Veh) or 10 μM Atglistatin and kept until D10. (A) Oil Red O and HCS LipidTOX Green neutral lipid staining. Scale bars: 200 μm. (B) Intracellular triglyceride (TG) content (2-way ANOVA with post hoc Tukey’s test) and (C) representative Western blot of PPARγ and PLIN1 at D10 after DMI induction. (DG) Stromal vascular cells isolated from Atgl+/+Bscl2+/+ (AwBw), Atgl+/+Bscl2–/– (AwBk), and Atgl–/– Bscl2–/– (AkBk) mice were subjected to DMI-induced adipocyte differentiation. (D) mRNA expression of Pnpla2, Bscl2, Pparγ, and Plin1 was measured at D0, D4, and D10 after DMI induction (2-way ANOVA with Dunnett’s multiple-comparisons post-hoc correction). (E) Representative protein expression, (F) Oil Red O staining, and (G) intracellular TG content at D10 after adipocyte induction (1-way ANOVA with Dunnett’s correction for multiple comparisons). *P < 0.05; **P < 0.005.