Abstract 15737: Deficiency of Mitochondrial Calcium Uniporter Protects Mouse Hearts From Iron Overload by Attenuating Ferroptosis

Autor: Natthaphat Siri-Angkul, Judith K. Gwathmey, Siriporn C. Chattipakorn, Lai-Hua Xie, Suwakon Wongjaikam, Nipon Chattipakorn, Nadezhda Fefelova
Rok vydání: 2020
Předmět:
Zdroj: Circulation. 142
ISSN: 1524-4539
0009-7322
DOI: 10.1161/circ.142.suppl_3.15737
Popis: Iron (Fe) plays essential roles in many physiological processes. Hereditary hemochromatosis and frequent blood transfusions result in iron overload (IO) and dysfunction of iron-deposited organs including the heart. Although IO-induced cardiomyopathy remains a significant clinical challenge, the underlying mechanism is not well defined. In the present study, we aim to assess the involvement of the mitochondrial Ca uniporter (mCU) in IO-induced cardiac contractile dysfunction and ferroptosis. In a chronic IO model, after receiving Fe (dextran, i.p. 0.6 mg/g, 3 days/wk) for 6 weeks, systolic function (LVEF and LVFS) was reduced in mCU +/+ (WT) compared to mCU -/- (mCU KO). This observation was confirmed in isolated ventricular myocytes where we similarly detected a significant decrease in cell shortening in WT, but not mCU KO myocytes. We found lower Fe levels in mitochondria from mCU KO myocytes compared to WT, while observing the same level of Fe deposition in heart tissue from both groups. The mitochondrial ROS level was lower in mCU KO myocytes vs. WT. Long term cardiac dysfunction may result in myocyte cell death, however, we did not detect apoptosis (TUNEL) in either mCU KO or in WT hearts with cardiac dysfunction after chronic IO. The lipid oxidation level was increased with Fe load suggesting ferroptosis may be involved in IO-induced cardiomyopathy, which was supported by the observation that administration of the selective ferroptosis inhibitor ferrostatin-1 reduced lipid oxidation (4-HNE) and maintained heart function. To further determine the role of mCU in IO-mediated ferroptosis in the heart, we used isolated myocytes from WT and mCU KO and conducted Live/Dead cell viability assays. While Fe (FAC, 0.1-5 mM) induced ferroptosis in a dose-dependent manner, it was prevented by ferrostatin-1 (10 μM), the Fe chelator 2,2'-bipyridyl (2 mM), and MitoTEMPO (5 μM), respectively. Fe-induced ferroptosis in mCU KO myocytes did not occur while the lipid oxidation level (Liperfluo) remained low. In conclusion, mitochondrial Fe uptake, presumably mediated by mCU, accounts for the molecular/cellular mechanisms for Fe-induced myocyte ferroptosis and cardiomyopathy. Cardiac-specific deficiency of mCU prevents the development of Fe induced cardiomyopathy.
Databáze: OpenAIRE
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