The malonyl CoA axis as a potential target for treating ischaemic heart disease

Cardiovascular disease is the leading cause of death and disability for people living in western societies, with ischaemic heart disease accounting for the majority of this health burden. The primary treatment for ischaemic heart disease consists of either improving blood and oxygen supply to the he...

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Bibliographic Details
Published in:Cardiovascular research 2008-07, Vol.79 (2), p.259-268
Main Authors: Ussher, John R., Lopaschuk, Gary D.
Format: Article
Language:English
Subjects:
Acetyl CoA carboxylase
AMP-activated protein kinase
Animals
Biological and medical sciences
Cardiology. Vascular system
Carnitine O-Palmitoyltransferase - metabolism
Coronary heart disease
Energy Metabolism - physiology
Fatty acid oxidation
Fatty Acids - metabolism
Heart
Humans
Ischaemic heart disease
Malonyl CoA
Malonyl CoA decarboxylase
Malonyl Coenzyme A - metabolism
Medical sciences
Mitochondria - metabolism
Myocardial Ischemia - metabolism
Myocarditis. Cardiomyopathies
Myocardium - metabolism
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Summary:Cardiovascular disease is the leading cause of death and disability for people living in western societies, with ischaemic heart disease accounting for the majority of this health burden. The primary treatment for ischaemic heart disease consists of either improving blood and oxygen supply to the heart or reducing the heart’s oxygen demand. Unfortunately, despite recent advances with these approaches, ischaemic heart disease still remains a major health problem. Therefore, the development of new treatment strategies is still required. One exciting new approach is to optimize cardiac energy metabolism, particularly by decreasing the use of fatty acids as a fuel and by increasing the use of glucose as a fuel. This approach is beneficial in the setting of ischaemic heart disease, as it allows the heart to produce energy more efficiently and it reduces the degree of acidosis associated with ischaemia/reperfusion. Malonyl CoA is a potent endogenous inhibitor of cardiac fatty acid oxidation, secondary to inhibiting carnitine palmitoyl transferase-I, the rate-limiting enzyme in the mitochondrial uptake of fatty acids. Malonyl CoA is synthesized in the heart by acetyl CoA carboxylase, which in turn is phosphorylated and inhibited by 5′AMP-activated protein kinase. The degradation of myocardial malonyl CoA occurs via malonyl CoA decarboxylase (MCD). Previous studies have shown that inhibiting MCD will significantly increase cardiac malonyl CoA levels. This is associated with an increase in glucose oxidation, a decrease in acidosis, and an improvement in cardiac function and efficiency during and following ischaemia. Hence, the malonyl CoA axis represents an exciting new target for the treatment of ischaemic heart disease.
ISSN:0008-6363
1755-3245
DOI:10.1093/cvr/cvn130