Activation of Lipoprotein Lipase: EFFECTS OF RAT SERUM LIPOPROTEIN FRACTIONS AND HEPARIN

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Circulation Research. 1970;27:941-951

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(Circulation Research. 1970;27:941.)
© 1970 American Heart Association, Inc.

Activation of Lipoprotein Lipase

EFFECTS OF RAT SERUM LIPOPROTEIN FRACTIONS AND HEPARIN

THOMAS F. WHAYNE Jr. M.D.¹ JAMES M. FELTS Ph.D.²

¹ Banting and Best Department of Medical Research, University of Toronto Toronto 5, Ontario, Canada; Department of Medicine, College of Medicine, Ohio State University Columbus, Ohio 43210
² Banting and Best Department of Medical Research, University of Toronto Toronto 5, Ontario, Canada

Guinea pig serum is deficient in high density lipoproteins (HDL);post-heparin lipoprotein lipase (LPL) from it hydrolyzes a triglyceride(TG) emulsion very slowly. The rate is markedly increased bythe addition of rat serum and even further by rat serum plusheparin. We have studied further the activation of LPL in thissystem. Rat serum lipoprotein fractions were isolated by ultracentrifugationand added to guinea pig postheparin serum in the presence orabsence of heparin. When added in proportion to their originalserum concentrations, HDL caused the greatest increase in TGhydrolysis. When each fraction was added at equal protein concentrations,purified low density lipoproteins had almost no effect; bothvery low density lipoproteins and HDL were very effective inincreasing the rate of hydrolysis. Rat serum or rat HDL, addedto the assay system in increasing amounts, appeared to increasethe effective substrate concentration. In the absence of heparin,increasing the concentration of HDL increased the reaction ratewhich approached a limiting velocity (V_max) and produced a hyperboliccurve which conformed to Michaelis-Menten kinetics. In the presenceof heparin, increasing the concentration of HDL produced anS-shaped curve and increased the V_max. These data conformedto the sigmoidal kinetics described by the Hill equation. Ourresults suggest that (1) heparin may function as a specificligand which acts as an allosteric modifier of LPL and altersthe kinetics of interaction of LPL with the effective substrateand (2) the rate of hydrolysis of the effective TG substrateis regulated by the concentration of this substrate.

Key Words: triglycerides • ligand • enzyme kinetics • enzyme activation • lipolysis • guinea pig

Submitted on July 2, 1970
Accepted on October 6, 1970