Insulin receptor substrate signaling suppresses neonatal autophagy in the heart
Christian Riehle, … , Morris F. White, E. Dale Abel
Christian Riehle, … , Morris F. White, E. Dale Abel
Published November 1, 2013
Citation Information: J Clin Invest. 2013;123(12):5319-5333. https://doi.org/10.1172/JCI71171.
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Research Article Cardiology

Insulin receptor substrate signaling suppresses neonatal autophagy in the heart

Abstract

The induction of autophagy in the mammalian heart during the perinatal period is an essential adaptation required to survive early neonatal starvation; however, the mechanisms that mediate autophagy suppression once feeding is established are not known. Insulin signaling in the heart is transduced via insulin and IGF-1 receptors (IGF-1Rs). We disrupted insulin and IGF-1R signaling by generating mice with combined cardiomyocyte-specific deletion of Irs1 and Irs2. Here we show that loss of IRS signaling prevented the physiological suppression of autophagy that normally parallels the postnatal increase in circulating insulin. This resulted in unrestrained autophagy in cardiomyocytes, which contributed to myocyte loss, heart failure, and premature death. This process was ameliorated either by activation of mTOR with aa supplementation or by genetic suppression of autophagic activation. Loss of IRS1 and IRS2 signaling also increased apoptosis and precipitated mitochondrial dysfunction, which were not reduced when autophagic flux was normalized. Together, these data indicate that in addition to prosurvival signaling, insulin action in early life mediates the physiological postnatal suppression of autophagy, thereby linking nutrient sensing to postnatal cardiac development.

Authors

Christian Riehle, Adam R. Wende, Sandra Sena, Karla Maria Pires, Renata Oliveira Pereira, Yi Zhu, Heiko Bugger, Deborah Frank, Jack Bevins, Dong Chen, Cynthia N. Perry, Xiaocheng C. Dong, Steven Valdez, Monika Rech, Xiaoming Sheng, Bart C. Weimer, Roberta A. Gottlieb, Morris F. White, E. Dale Abel

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Figure 8

Heterozygous deletion of Becn1 decreases autophagy and attenuates heart failure in CIRS12KO mice.

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Heterozygous deletion of Becn1 decreases autophagy and attenuates heart ...
(A) Representative H&E stains from WT and CIRS12KO hearts (6 weeks of age) expressing Becn1+/+ or Becn1+/– alleles. Scale bar: 3 mm. (B) Survival curve of WT, Becn1+/–, CIRS12KO, and CIRS12KO×Becn1+/– mice. Heterozygous deletion of Becn1 increased the average lifespan of CIRS12KO mice from 7.4 to 16.8 weeks (P < 0.0001, log-rank test). (C) Autophagy flux after chloroquine injection at 2 weeks of age, as measured by LC3 immunoblotting. (D) Heart weight/tibia length and (E) wet lung weight/tibia length ratios. (F and G) Representative H&E and trichrome staining (F) and stereological analysis (G; n = 6–7) in hearts from 6-week-old mice. Scale bar: 20 μm. (H) Time course for LVDs and FS (n = 5–10). (I) Invasive measurement of LV pressures in WT and CIRS12KO hearts expressing Becn1+/+ or Becn1+/– alleles at 6 weeks of age, as assessed by catheterization. *P < 0.05 vs. same Becn1 genotype, P < 0.05 vs. same Irs genotype, P < 0.05 vs. same genotype no chloroquine.