Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach

Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach

To differentiate effects of lovastatin on low density lipoprotein (LDL) receptor activity from effects on LDL metabolic properties, LDL apolipoprotein B (apoB) turnover was studied in eight hyperlipidemic subjects during baseline and lovastatin treatment, in the latter case with LDL tracers isolated...

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Main Authors: Lars Berglund, Joseph L. Witztum, Narmer F. Galeano, Andrew S. Khouw, Henry N. Ginsberg, Rajasekhar Ramakrishnan
Format: Article
Language:English
Published: Elsevier 1998-04-01
Series:Journal of Lipid Research
Subjects:
HMG-CoA reductase inhibitors
LDL receptor
apolipoprotein B
lipoprotein metabolism
tracer kinetics
lipid-lowering therapy
Online Access:http://www.sciencedirect.com/science/article/pii/S0022227520325773
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spelling doaj-1358af1a0a4c4ba6bb68083866889a052021-04-26T05:46:20ZengElsevierJournal of Lipid Research0022-22751998-04-01394913924Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approachLars Berglund0Joseph L. Witztum1Narmer F. Galeano2Andrew S. Khouw3Henry N. Ginsberg4Rajasekhar Ramakrishnan5To whom correspondence should be addressed.; Department of Medicine, College of Physicians and Surgeons of Columbia University, New York, NY 10032; Department of Medicine, University of California-San Diego, La Jolla, CADepartment of Medicine, University of California-San Diego, La Jolla, CADepartment of Pediatrics, College of Physicians and Surgeons of Columbia University, New York, NY 10032Department of Medicine, University of California-San Diego, La Jolla, CADepartment of Medicine, College of Physicians and Surgeons of Columbia University, New York, NY 10032Department of Medicine, College of Physicians and Surgeons of Columbia University, New York, NY 10032; Department of Pediatrics, College of Physicians and Surgeons of Columbia University, New York, NY 10032To differentiate effects of lovastatin on low density lipoprotein (LDL) receptor activity from effects on LDL metabolic properties, LDL apolipoprotein B (apoB) turnover was studied in eight hyperlipidemic subjects during baseline and lovastatin treatment, in the latter case with LDL tracers isolated during both baseline (C-LDL) and drug treatment (Rx-LDL) conditions. Lovastatin (40 mg/day) significantly lowered total plasma and LDL cholesterol levels (27% and 25%, respectively) as well as plasma triglyceride levels (30%). Using contemporaneous tracers (C-LDL before and Rx-LDL during treatment), lovastatin caused a modest increase in LDL fractional catabolic rate (FCR) (0.410 ± 0.113 vs. 0.339 ± 0.108 pools/day, P < 0.04 by paired t). The increase in LDL tracer FCR was higher when C-LDL tracer isolated during the untreated period was injected during lovastatin treatment (0.496 ± 0.177 vs. 0.339 ± 0.108 pools/day, P < 0.02). These in vivo studies in humans were confirmed by injecting LDL tracers from two patients into five guinea pigs. The C-LDL tracer was cleared consistently faster than the Rx-LDL tracer (0.082 ± 0.018 vs. 0.057 ± 0.015 pools/h, P < 0.001). The results demonstrate three important outcomes of lovastatin treatment in these subjects: LDL receptor activity increased by 49% (P < 0.02); LDL apoB production rate decreased by 17% (P < 0.03), and LDL particle in vivo affinity for the LDL receptor decreased by 15% (P < 0.01). The decrease in LDL particle affinity partially negated the expected effect of increased LDL receptors on LDL clearance. The present study provides an explanation for earlier observations by several investigators using contemporaneous tracers that treatment with HMG-CoA reductase inhibitors resulted in only modest increases in low density lipoprotein functional catabolic rate.—Berglund, L., J. L. Witztum, N. F. Galeano, A. S. Khouw, H. N. Ginsberg, and R. Ramakrishnan. Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach. J. Lipid Res. 1998. 39: 913–924.http://www.sciencedirect.com/science/article/pii/S0022227520325773HMG-CoA reductase inhibitorsLDL receptorapolipoprotein Blipoprotein metabolismtracer kineticslipid-lowering therapy
collection DOAJ
language English
format Article
sources DOAJ
author Lars Berglund
Joseph L. Witztum
Narmer F. Galeano
Andrew S. Khouw
Henry N. Ginsberg
Rajasekhar Ramakrishnan
spellingShingle Lars Berglund
Joseph L. Witztum
Narmer F. Galeano
Andrew S. Khouw
Henry N. Ginsberg
Rajasekhar Ramakrishnan
Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach
Journal of Lipid Research
HMG-CoA reductase inhibitors
LDL receptor
apolipoprotein B
lipoprotein metabolism
tracer kinetics
lipid-lowering therapy
author_facet Lars Berglund
Joseph L. Witztum
Narmer F. Galeano
Andrew S. Khouw
Henry N. Ginsberg
Rajasekhar Ramakrishnan
author_sort Lars Berglund
title Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach
title_short Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach
title_full Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach
title_fullStr Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach
title_full_unstemmed Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach
title_sort three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apob production, and decrease in particle affinity for the receptor. results from a novel triple-tracer approach
publisher Elsevier
series Journal of Lipid Research
issn 0022-2275
publishDate 1998-04-01
description To differentiate effects of lovastatin on low density lipoprotein (LDL) receptor activity from effects on LDL metabolic properties, LDL apolipoprotein B (apoB) turnover was studied in eight hyperlipidemic subjects during baseline and lovastatin treatment, in the latter case with LDL tracers isolated during both baseline (C-LDL) and drug treatment (Rx-LDL) conditions. Lovastatin (40 mg/day) significantly lowered total plasma and LDL cholesterol levels (27% and 25%, respectively) as well as plasma triglyceride levels (30%). Using contemporaneous tracers (C-LDL before and Rx-LDL during treatment), lovastatin caused a modest increase in LDL fractional catabolic rate (FCR) (0.410 ± 0.113 vs. 0.339 ± 0.108 pools/day, P < 0.04 by paired t). The increase in LDL tracer FCR was higher when C-LDL tracer isolated during the untreated period was injected during lovastatin treatment (0.496 ± 0.177 vs. 0.339 ± 0.108 pools/day, P < 0.02). These in vivo studies in humans were confirmed by injecting LDL tracers from two patients into five guinea pigs. The C-LDL tracer was cleared consistently faster than the Rx-LDL tracer (0.082 ± 0.018 vs. 0.057 ± 0.015 pools/h, P < 0.001). The results demonstrate three important outcomes of lovastatin treatment in these subjects: LDL receptor activity increased by 49% (P < 0.02); LDL apoB production rate decreased by 17% (P < 0.03), and LDL particle in vivo affinity for the LDL receptor decreased by 15% (P < 0.01). The decrease in LDL particle affinity partially negated the expected effect of increased LDL receptors on LDL clearance. The present study provides an explanation for earlier observations by several investigators using contemporaneous tracers that treatment with HMG-CoA reductase inhibitors resulted in only modest increases in low density lipoprotein functional catabolic rate.—Berglund, L., J. L. Witztum, N. F. Galeano, A. S. Khouw, H. N. Ginsberg, and R. Ramakrishnan. Three-fold effect of lovastatin treatment on low density lipoprotein metabolism in subjects with hyperlipidemia: increase in receptor activity, decrease in apoB production, and decrease in particle affinity for the receptor. Results from a novel triple-tracer approach. J. Lipid Res. 1998. 39: 913–924.
topic HMG-CoA reductase inhibitors
LDL receptor
apolipoprotein B
lipoprotein metabolism
tracer kinetics
lipid-lowering therapy
url http://www.sciencedirect.com/science/article/pii/S0022227520325773
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