Rabbit myocardial lysophospholipase-transacylase. Purification, characterization, and inhibition by endogenous cardiac amphiphiles

Rabbit myocardial lysophospholipase-transacylase was purified 69,000-fold to near homogeneity by ammonium sulfate precipitation, DEAE-Sephacel, hydroxylapatite chromatography, and high precision liquid chromatography. The purified protein was a single band (Mr = 63,000) after sodium dodecyl sulfate-...

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Bibliographic Details
Published in:The Journal of biological chemistry 1983-12, Vol.258 (24), p.15165-15172
Main Authors: Gross, R W, Drisdel, R C, Sobel, B E
Format: Article
Language:English
Subjects:
Acyltransferases - antagonists & inhibitors
Acyltransferases - isolation & purification
Analytical, structural and metabolic biochemistry
Animals
Biological and medical sciences
Computers
Enzymes and enzyme inhibitors
Fundamental and applied biological sciences. Psychology
Hydrolases
Kinetics
Lysophosphatidylcholines - metabolism
Lysophospholipase - antagonists & inhibitors
Lysophospholipase - isolation & purification
Models, Chemical
Molecular Weight
Multienzyme Complexes - antagonists & inhibitors
Multienzyme Complexes - isolation & purification
Myocardium - enzymology
Palmitic Acid
Palmitic Acids - pharmacology
Palmitoylcarnitine - pharmacology
Phospholipases - isolation & purification
Rabbits
Substrate Specificity
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Summary:Rabbit myocardial lysophospholipase-transacylase was purified 69,000-fold to near homogeneity by ammonium sulfate precipitation, DEAE-Sephacel, hydroxylapatite chromatography, and high precision liquid chromatography. The purified protein was a single band (Mr = 63,000) after sodium dodecyl sulfate-polyacrylamide gel electrophoresis and silver staining. It had a specific activity of 4 mumol/mg/min for fatty acid release and 2 mumol/mg/min for phosphatidylcholine synthesis. Both its hydrolase and transacylase activities were saturated at a lysophosphatidylcholine concentration of 20 microM and transacylation was prominent at submicellar concentrations of substrate (2 microM). Fatty acid release obeyed Michaelian kinetics, but Line-weaver-Burk plots of transacylase activity were parabolic. In contrast, plots of the reciprocal of the initial reaction velocity of phosphatidylcholine formation (1/V) versus 1/[S]2 were linear. Computer simulations of a reaction mechanism in which two molecules of substrate formed a ternary complex with the enzyme resulted in linear Lineweaver-Burk plots for fatty acid release and linear 1/V versus 1/[S]2 plots for phosphatidylcholine synthesis. Low concentrations of long chain acylcarnitine (5-20 microM) markedly inhibited both fatty acid release and phosphatidylcholine synthesis. Inhibition of lysophospholipase-transacylase by L-palmitoylcarnitine was reversible by dilution or dialysis. Since long chain acylcarnitines increase in the cytosolic compartment of ischemic myocardium, these results suggest that inhibition of lysophospholipase-transacylase by long chain acylcarnitines contributes to the accumulation of lysophosphoglycerides in ischemic myocardium with consequent deleterious effects on membrane function.
ISSN:0021-9258
1083-351X
DOI:10.1016/S0021-9258(17)43788-4