Abstract
Mitochondrial dysfunction is a relevant mechanism in cardiac aging. Here, we investigated the effects of late-life enalapril administration at a non-antihypertensive dose on mitochondrial genomic stability, oxidative damage, and mitochondrial quality control (MQC) signaling in the hearts of aged rats. The protein expression of selected mediators (i.e., mitochondrial antioxidant enzymes, energy metabolism, mitochondrial biogenesis, dynamics, and autophagy) was measured in old rats randomly assigned to receive enalapril (n = 8) or placebo (n = 8) from 24 to 27 months of age. We also assessed mitochondrial DNA (mtDNA) content, citrate synthase activity, oxidative lesions to protein and mtDNA (i.e., carbonyls and the abundance of mtDNA4834 deletion), and the mitochondrial transcription factor A (TFAM) binding to specific mtDNA regions. Enalapril attenuated cardiac hypertrophy and oxidative stress-derived damage (mtDNA oxidation, mtDNA4834 deletion, and protein carbonylation), while increasing mitochondrial antioxidant defenses. The binding of mitochondrial transcription factor A to mtDNA regions involved in replication and deletion generation was enhanced following enalapril administration. Increased mitochondrial mass as well as mitochondriogenesis and autophagy signaling were found in enalapril-treated rats. Late-life enalapril administration mitigates age-dependent cardiac hypertrophy and oxidative damage, while increasing mitochondrial mass and modulating MQC signaling. Further analyses are needed to conclusively establish whether enalapril may offer cardioprotection during aging.
Highlights
The intimate mechanisms that underlie cardiac aging are yet to be fully deciphered
We focused our analysis on short mitochondrial DNA (mtDNA) sequences including functional regions that regulate mtDNA replication and the generation of the mtDNA4834 deletion
The present study was designed to explore the effects of non-antihypertensive enalapril administration started late in life on mitochondrial genomic stability, TFAM binding to mtDNA, and mitochondrial quality control (MQC) signaling in the heart of old rats
Summary
The intimate mechanisms that underlie cardiac aging are yet to be fully deciphered. Wide consensus exists on the central role played by mitochondrial dysfunction [1]. Besides their function in cellular energy provision, these organelles serve as the hub for many other activities, including metabolic signaling, regulation of programmed cell death, calcium and iron buffering, and iron-sulfur cluster and heme biosynthesis [2]. The maintenance of well-performing mitochondria is instrumental to cell viability. Repair and recycling processes are essential for mitochondrial quality control (MQC), which is accomplished through an integrated network of pathways operating sequentially from individual molecules to the whole organelle [4]
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