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Insulin-Like Growth Factor I Prevents Cellular Aging via Activation of Mitophagy

Xuwei Hou, Zhaohui Li, Yusuke Higashi, Patrice Delafontaine, Sergiy Sukhanov

2020Journal of Aging Research27 citationsDOIOpen Access PDF

Abstract

Mitochondrial dysfunction is a hallmark of cellular aging. Mitophagy is a critical mitochondrial quality control mechanism that removes dysfunctional mitochondria and contributes to cell survival. Insulin-like growth factor 1 (IGF-1) promotes survival of smooth muscle cells (SMCs), but its potential effect on cellular aging is unknown yet. We found that IGF-1 decreased cell senescence, prevented DNA telomere shortening, increased mitochondrial membrane potential, activated cytochrome C oxidase, and reduced mitochondrial DNA damage in long-term cultured (aged) aortic SMC, suggesting an antiaging effect. IGF-1 increased mitophagy in aged cells, and this was associated with decreased expression of cyclin-dependent kinase inhibitors p16 and p21 and elevated levels of Nrf2 and Sirt3, regulators of mitophagy and mitochondrial biogenesis. SiRNA-induced inhibition of either Nrf2 or Sirt3 blocked IGF-1-induced upregulation of mitophagy, suggesting that the Nrf2/Sirt3 pathway was required for IGF-1's effect on mitophagy. PINK1 is a master regulator of mitophagy. PINK1 silencing suppressed mitophagy and inhibited IGF-1-induced antiaging effects in aged SMC, consistent with an essential role of mitophagy in IGF-1's effect on cellular aging. Thus, IGF-1 inhibited cellular aging via Nrf2/Sirt3-dependent activation of mitophagy. Our data suggest that activation of IGF-1 signaling is a novel potential strategy to activate mitophagy and slow cellular aging.

Topics & Concepts

MitophagyCell biologyPINK1SIRT3MitochondrionBiologyMitochondrial biogenesisParkinChemistryAutophagyApoptosisSirtuinInternal medicineMedicineBiochemistryAcetylationParkinson's diseaseGeneDiseaseAutophagy in Disease and TherapyTelomeres, Telomerase, and SenescenceAdipose Tissue and Metabolism
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