In Vivo Evidence for Both Lipolytic and Nonlipolytic Function of Hepatic Lipase in the Metabolism of HDL

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Arteriosclerosis, Thrombosis, and Vascular Biology. 2000;20:793-800

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	Lipid and lipoprotein metabolism

(Arteriosclerosis, Thrombosis, and Vascular Biology. 2000;20:793.)
© 2000 American Heart Association, Inc.

Atherosclerosis and Lipoproteins

In Vivo Evidence for Both Lipolytic and Nonlipolytic Function of Hepatic Lipase in the Metabolism of HDL

K. A. Dugi; M. J. A. Amar; C. C. Haudenschild; R. D. Shamburek; A. Bensadoun; R. F. Hoyt, Jr; J. Fruchart-Najib; Z. Madj; H. B. Brewer, Jr; S. Santamarina-Fojo

From the Molecular Disease Branch (K.A.D., M.J.A.A., C.C.H., R.D.S., H.B.B., S.S.-F.) and Laboratory of Animal Medicine and Surgery (R.F.H.), NHLBI, National Institutes of Health, Bethesda, Md; Cornell University, Ithaca, NY (A.B.); and the Faculté de Pharmacie, Institut Pasteur, INSERM U325, Lille, France (J.F.-N., Z.M.). K.A. Dugi is now at the Department of Internal Medicine I, Endocrinology and Metabolism, Heidelberg University, Heidelberg, Germany.

Correspondence to S. Santamarina-Fojo, National Institutes of Health, Molecular Disease Branch, National Heart, Lung, and Blood Institute, Building 10, Room 7N115, 10 Center Dr, MSC 1666, Bethesda, MD 20892.

Abstract—To investigate the in vivo role that hepaticlipase (HL) plays in HDL metabolism independently of its lipolyticfunction, recombinant adenovirus (rAdV) expressing native HL,catalytically inactive HL (HL-145G), and luciferase controlwas injected in HL-deficient mice. At day 4 after infusion of2x10⁸ plaque-forming units of rHL-AdV and rHL-145G-AdV, similarplasma concentrations were detected in postheparin plasma (HL=8.4±0.8µg/mL and HL-145G=8.3±0.8 µg/mL). Mice expressingHL had significant reductions of cholesterol (-76%), phospholipids(PL; -68%), HDL cholesterol (-79%), apolipoprotein (apo) A-I (-45%),and apoA-II (-59%; P<0.05 for all), whereas mice expressingHL-145G decreased their cholesterol (-49%), PL (-40%), HDL cholesterol(-42%), and apoA-II (-89%; P<0.005 for all) but had no changesin apoA-I. The plasma kinetics of ¹²⁵I-labeled apoA-I HDL, ¹³¹I-labeledapoA-II HDL, and [³H]cholesteryl ester (CE) HDL revealed thatcompared with mice expressing luciferase control (fractionalcatabolic rate [FCR] in d^-1: apoA-I HDL=1.3±0.1; apoA-IIHDL=2.1±0; CE HDL=4.1±0.7), both HL and HL-145G enhancedthe plasma clearance of CEs and apoA-II present in HDL (apoA-IIHDL=5.6±0.5 and 4.4±0.2; CE HDL=9.3±0.0and 8.3±1.1, respectively), whereas the clearance ofapoA-I HDL was enhanced in mice expressing HL (FCR=4.6±0.3)but not HL-145G (FCR=1.4±0.4). These combined findingsdemonstrate that both lipolytic and nonlipolytic functions ofHL are important for HDL metabolism in vivo. Our study provides,for the first time, in vivo evidence for a role of HL in HDLmetabolism independent of lipolysis and provides new insightsinto the role of HL in facilitating distinct metabolic pathwaysinvolved in the catabolism of apoA-I– versus apoA-II–containingHDL.

Key Words: hepatic lipase • HDL metabolism • lipolysis • nonlipolytic function

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				I. L. Ruel, P. Couture, J. S. Cohn, A. Bensadoun, M. Marcil, and B. Lamarche Evidence that hepatic lipase deficiency in humans is not associated with proatherogenic changes in HDL composition and metabolism J. Lipid Res., August 1, 2004; 45(8): 1528 - 1537. [Abstract] [Full Text] [PDF]

				U. C. Broedl, C. Maugeais, J. S. Millar, W. Jin, R. E. Moore, I. V. Fuki, D. Marchadier, J. M. Glick, and D. J. Rader Endothelial Lipase Promotes the Catabolism of ApoB-Containing Lipoproteins Circ. Res., June 25, 2004; 94(12): 1554 - 1561. [Abstract] [Full Text] [PDF]

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				K. Conde-Knape, A. Bensadoun, J. H. Sobel, J. S. Cohn, and N. S. Shachter Overexpression of apoC-I in apoE-null mice: severe hypertriglyceridemia due to inhibition of hepatic lipase J. Lipid Res., December 1, 2002; 43(12): 2136 - 2145. [Abstract] [Full Text] [PDF]

				J. M. Ordovas, D. Corella, S. Demissie, L. A. Cupples, P. Couture, O. Coltell, P. W.F. Wilson, E. J. Schaefer, and K. L. Tucker Dietary Fat Intake Determines the Effect of a Common Polymorphism in the Hepatic Lipase Gene Promoter on High-Density Lipoprotein Metabolism: Evidence of a Strong Dose Effect in This Gene-Nutrient Interaction in the Framingham Study Circulation, October 29, 2002; 106(18): 2315 - 2321. [Abstract] [Full Text] [PDF]

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				R. L. Wade, R. A. Van Andel, S. G. Rice, C. L. Banka, and C. A. Dyer Hepatic Lipase Deficiency Attenuates Mouse Ovarian Progesterone Production Leading to Decreased Ovulation and Reduced Litter Size Biol Reprod, April 1, 2002; 66(4): 1076 - 1082. [Abstract] [Full Text] [PDF]

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				F. Rinninger, M. Brundert, I. Brosch, N. Donarski, R. M. Budzinski, and H. Greten Lipoprotein lipase mediates an increase in selective uptake of HDL-associated cholesteryl esters by cells in culture independent of scavenger receptor BI J. Lipid Res., November 1, 2001; 42(11): 1740 - 1751. [Abstract] [Full Text] [PDF]

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				H. L. Dichek, S. M. Johnson, H. Akeefe, G. T. Lo, E. Sage, C. E. Yap, and R. W. Mahley Hepatic lipase overexpression lowers remnant and LDL levels by a noncatalytic mechanism in LDL receptor-deficient mice J. Lipid Res., February 1, 2001; 42(2): 201 - 210. [Abstract] [Full Text]

				A. Zambon, S. S. Deeb, A. Bensadoun, K. E. Foster, and J. D. Brunzell In vivo evidence of a role for hepatic lipase in human apoB-containing lipoprotein metabolism, independent of its lipolytic activity J. Lipid Res., December 1, 2000; 41(12): 2094 - 2099. [Abstract] [Full Text]