The Reduction of NDUFC2 Expression is Associated with Mitochondrial Impairment in Circulating Mononuclear Cells of Patients with Acute Coronary Syndrome

Overview

Journal Int J Cardiol

Publisher Elsevier

Specialty Cardiology & Vascular Diseases

Date 2019 Feb 28

PMID 30808603

Citations 13

Authors

Salvatore Raffa

Xiao Lan Diana Chin

Rosita Stanzione

Maurizio Forte

Franca Bianchi

Maria Cotugno

Simona Marchitti

Andrea Micaloni

Giovanna Gallo

Leonardo Schirone

Giuliano Tocci

Roberto Violini

Maria Rosaria Torrisi

Massimo Volpe

Speranza Rubattu

Affiliations

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Abstract

Background: Deficiency of NADH dehydrogenase [ubiquinone], the mitochondrial complex I, represents an emerging mechanism of cardiovascular diseases. Ndufc2, a subunit of mitochondrial complex I, is involved in stroke development. We aimed to gain some insights on the role of Ndufc2 into acute coronary syndrome (ACS) through the assessment of its gene expression, along with that of anti-oxidant proteins and of mitochondrial function parameters, in circulating mononuclear cells (PBMCs) of ACS versus stable angina (SA) patients. The impact of NDUFC2 silencing in human endothelial and vascular smooth muscle cells was assessed in vitro.

Methods And Results: One hundred twenty-three patients presenting with SA (n = 41) or ACS (n = 82) were enrolled. PBMCs were used to assess the gene expression level of: NDUFC2, uncoupling protein 2 (UCP2), superoxide dysmutases 1 and 2 (SOD1, SOD2), levels of ROS and ATP. The mitochondrial dysfunction was assessed by cytofluorimetry; the structural damage by transmission electron microscopy. Cell viability, angiogenesis, markers of atherogenesis were evaluated in NDUFC2-silenced vascular cells. NDUFC2 mRNA level was significantly downregulated, along with UCP2, SOD1, SOD2 expression, in ACS patients. We found significant increases of ROS levels, reduced ATP levels, higher degree of mitochondrial structural damage and dysfunction in ACS patients. In vitro, NDUFC2 silencing favored mechanisms involved in atherogenesis and plaque vulnerability.

Conclusions: A significant reduction of NDUFC2 expression is detected in ACS. In vitro, NDUFC2 silencing affects vascular cell viability and angiogenesis while stimulating the expression of markers of plaque rupture. Our observations suggest that these mechanisms may contribute to ACS development.

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