Abstract

Background: Recent studies have demonstrated that dysregulation of mitochondrial dynamics, including excessive mitochondrial fission, lead to extracellular release of damaged mitochondria (exMito) as an alternate mechanism for mitochondrial quality control. However, the exact role of this mechanism on obesity cardiomyopathy (OCM) has not been explored. This project aims to determine if Drp1/Fis1 dependent excessive mitochondrial fission mediates the release of damaged mitochondria and propagate cardiomyocyte injury in OCM. Methods: H9c2 cardiomyoblast were treated with 200 μM palmitate (PA) to induce lipotoxicity. C57BL6/J mice were subjected to a high-fat diet (HFD) for 12 weeks to induce OCM. Changes in cardiac Drp1 activity, mitochondrial morphology, bioenergetics and contractile function was evaluated. Simultaneously, exMito were collected and characterized from supernatant and plasma. Using peptide P110 co-treatment , we determined the impact of pharmacologic inhibition of Drp1/Fis1 dependent mitochondrial fission on cardiac mitochondrial function as well as the quality and quantity of exMito. Results: H9c2 cells treated with PA demonstrated excessive mitochondrial fission, increased oxidative stress and decreased ATP level. The excessive mitochondrial fission seen following PA treatment was associated with the release of damaged exMito. The exMito isolated from PA treated cells were noted to mediate cytotoxicity to healthy H9c2s independent of PA. P110 treatment was protective against PA mediated mitochondrial damage, represented by improved bioenergetic profile, increased ATP and lower oxidative stress. P110 treatment also lowered the release of damaged mitochondria from PA treated H9c2s. Similarly, treatment of HFD mice with P110, improved mitochondrial function and glucose utilization, exMito release and subsequently improved cardiomyocyte contractile function. Conclusion: Lipotoxicity induced mitochondrial fission, disrupted mitochondrial function leading to release of exMito. P110 limited lipotoxicity mediated alterations in mitochondrial dynamics, mitochondrial function and exMito, and then improved cardiac function. Therefore, pathologic fission and exMito may play a critical role in OCM.

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