AI Article Synopsis
- Chronic remodeling after a heart attack leads to changes like fibrosis, cell death, and mitochondrial issues, which can cause heart failure.
- The study suggests that the enzyme monoamine oxidase-A (MAO-A) increases harmful levels of 4-HNE in mitochondria, contributing to heart dysfunction through reactive oxygen species (ROS) and other mechanisms.
- Inhibiting MAO-A showed protective effects in a model of heart damage, reducing 4-HNE levels and preventing calcium overload, thus improving heart function and providing new insights into heart disease mechanisms.
Article Abstract
Chronic remodeling postmyocardial infarction consists in various maladaptive changes including interstitial fibrosis, cardiomyocyte death and mitochondrial dysfunction that lead to heart failure (HF). Reactive aldehydes such as 4-hydroxynonenal (4-HNE) are critical mediators of mitochondrial dysfunction but the sources of mitochondrial 4-HNE in cardiac diseases together with its mechanisms of action remain poorly understood. Here, we evaluated whether the mitochondrial enzyme monoamine oxidase-A (MAO-A), which generates HO as a by-product of catecholamine metabolism, is a source of deleterious 4-HNE in HF. We found that MAO-A activation increased mitochondrial ROS and promoted local 4-HNE production inside the mitochondria through cardiolipin peroxidation in primary cardiomyocytes. Deleterious effects of MAO-A/4-HNE on cardiac dysfunction were prevented by activation of mitochondrial aldehyde dehydrogenase 2 (ALDH2), the main enzyme for 4-HNE metabolism. Mechanistically, MAO-A-derived 4-HNE bound to newly identified targets VDAC and MCU to promote ER-mitochondria contact sites and MCU higher-order complex formation. The resulting mitochondrial Ca accumulation participated in mitochondrial respiratory dysfunction and loss of membrane potential, as shown with the protective effects of the MCU inhibitor, RU360. Most interestingly, these findings were recapitulated in a chronic model of ischemic remodeling where pharmacological or genetic inhibition of MAO-A protected the mice from 4-HNE accumulation, MCU oligomer formation and Ca overload, thus mitigating ventricular dysfunction. To our knowledge, these are the first evidences linking MAO-A activation to mitoCa mishandling through local 4-HNE production, contributing to energetic failure and postischemic remodeling.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7244724 | PMC |
| http://dx.doi.org/10.1038/s41418-019-0470-y | DOI Listing |
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