MicroRNA-25-dependent up-regulation of NADPH oxidase 4 (NOX4) mediates hypercholesterolemia-induced
oxidative/nitrative stress and subsequent dysfunction in the heart
Diet-induced hypercholesterolemia leads to oxidative/nitrative stress and subsequent
myocardial dysfunction. However, the regulatory role of microRNAs in this phenomenon
is unknown. We aimed to investigate, whether hypercholesterolemia-induced myocardial
microRNA alterations play a role in the development of oxidative/nitrative stress
and in subsequent cardiac dysfunction. Male Wistar rats were fed with 2% cholesterol/0.25%
cholate-enriched or standard diet for 12weeks. Serum and tissue cholesterol levels
were significantly elevated by cholesterol-enriched diet. Left ventricular end-diastolic
pressure was significantly increased in cholesterol-fed rats both in vivo and in isolated
perfused hearts, indicating diastolic dysfunction. Myocardial expression of microRNAs
was affected by cholesterol-enriched diet as assessed by microarray analysis. MicroRNA-25
showed a significant down-regulation as detected by microarray analysis and QRT-PCR.
In silico target prediction revealed NADPH oxidase 4 (NOX4) as a putative target of
microRNA-25. NOX4 protein showed significant up-regulation in the hearts of cholesterol-fed
rats, while NOX1 and NOX2 remained unaffected. Cholesterol-feeding significantly increased
myocardial oxidative/nitrative stress as assessed by dihydroethidium staining, protein
oxidation assay, and nitro-tyrosine ELISA, respectively. Direct binding of microRNA-25
mimic to the 3' UTR region of NOX4 was demonstrated using a luciferase reporter assay.
Transfection of a microRNA-25 mimic into primary cardiomyocytes decreased superoxide
production, while a microRNA-25 inhibitor resulted in an up-regulation of NOX4 protein
and an increase in oxidative stress that was attenuated by the NADPH oxidase inhibitor
diphenyleneiodonium. Here we demonstrated for the first time that hypercholesterolemia
affects myocardial microRNA expression, and by down-regulating microRNA-25 increases
NOX4 expression and consequently oxidative/nitrative stress in the heart. We conclude
that hypercholesterolemia-induced microRNA alterations play an important role in the
regulation of oxidative/nitrative stress and in consequent myocardial dysfunction.