Abstract
Cardiolipin (CL) is an essential phospholipid component of the inner mitochondrial membrane. In the mammalian heart, the functional form of CL is tetralinoleoyl CL [(18:2)(4)CL]. A decrease in (18:2)(4)CL content, which is believed to negatively impact mitochondrial energetics, occurs in heart failure (HF) and other mitochondrial diseases. Presumably, (18:2)(4)CL is generated by remodeling nascent CL in a series of deacylation-reacylation cycles; however, our overall understanding of CL remodeling is not yet complete. Herein, we present a novel cell culture method for investigating CL remodeling in myocytes isolated from Spontaneously Hypertensive HF rat hearts. Further, we use this method to examine the role of calcium-independent phospholipase A(2) (iPLA(2)) in CL remodeling in both HF and nonHF cardiomyocytes. Our results show that 18:2 incorporation into (18:2)(4)CL is: a) performed singly with respect to each fatty acyl moiety, b) attenuated in HF relative to nonHF, and c) partially sensitive to iPLA(2) inhibition by bromoenol lactone. These results suggest that CL remodeling occurs in a step-wise manner, that compromised 18:2 incorporation contributes to a reduction in (18:2)(4)CL in the failing rat heart, and that mitochondrial iPLA(2) plays a role in the remodeling of CL's acyl composition.
Highlights
Cardiolipin (CL) is an essential phospholipid component of the inner mitochondrial membrane
The maintenance of cardiac (18:2)4CL levels appears to be extremely important in mitochondrial energetics; the exact mechanism by which CL is remodeled to contain 18:2 remains to be determined
First, to develop a method for monitoring CL remodeling in the isolated rat cardiomyocyte, and to use this method to examine both changes in CL remodeling in the context of heart failure (HF) and the role of calcium-independent phospholipase A2 (iPLA2) in CL remodeling
Summary
Cardiolipin (CL) is an essential phospholipid component of the inner mitochondrial membrane. We present a novel cell culture method for investigating CL remodeling in myocytes isolated from Spontaneously Hypertensive HF rat hearts We use this method to examine the role of calcium-independent phospholipase A2 (iPLA2) in CL remodeling in both HF and nonHF cardiomyocytes. Our results show that 18:2 incorporation into (18:2)4CL is: a) performed singly with respect to each fatty acyl moiety, b) attenuated in HF relative to nonHF, and c) partially sensitive to iPLA2 inhibition by bromoenol lactone These results suggest that CL remodeling occurs in a step-wise manner, that compromised 18:2 incorporation contributes to a reduction in (18:2)4CL in the failing rat heart, and that mitochondrial iPLA2 plays a role in the remodeling of CL’s acyl composition.—Zachman, D.
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