A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasma

A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasma

ApoA-I(L141R)Pisa is a naturally occurring apolipoprotein A-I variant that causes virtual absence of HDL in hemizygotes and hypoalphalipoproteinemia with half-normal levels of HDL-cholesterol in heterozygotes. In this study we analyzed the distribution of HDL subclasses in plasmas of four hemizygote...

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Main Authors: R Miccoli, Y Zhu, U Daum, J Wessling, Y Huang, R Navalesi, G Assmann, A von Eckardstein
Format: Article
Language:English
Published: Elsevier 1997-06-01
Series:Journal of Lipid Research
Online Access:http://www.sciencedirect.com/science/article/pii/S0022227520372059
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spelling doaj-ffe947bd07c24cb59e40875d8d77c5072021-04-26T05:47:54ZengElsevierJournal of Lipid Research0022-22751997-06-0138612421253A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasmaR Miccoli0Y Zhu1U Daum2J Wessling3Y Huang4R Navalesi5G Assmann6A von Eckardstein7Institut für Arterioskleroseforschung, Universität Münster, Germany.Institut für Arterioskleroseforschung, Universität Münster, Germany.Institut für Arterioskleroseforschung, Universität Münster, Germany.Institut für Arterioskleroseforschung, Universität Münster, Germany.Institut für Arterioskleroseforschung, Universität Münster, Germany.Institut für Arterioskleroseforschung, Universität Münster, Germany.Institut für Arterioskleroseforschung, Universität Münster, Germany.Institut für Arterioskleroseforschung, Universität Münster, Germany.ApoA-I(L141R)Pisa is a naturally occurring apolipoprotein A-I variant that causes virtual absence of HDL in hemizygotes and hypoalphalipoproteinemia with half-normal levels of HDL-cholesterol in heterozygotes. In this study we analyzed the distribution of HDL subclasses in plasmas of four hemizygotes for this mutation. We also investigated the abilities of these plasmas to esterify cholesterol and to promote cholesterol efflux. Residual apoA-I-containing lipoproteins in plasmas of hemizygotes for apoA-I(L141R)Pisa correspond to pre beta 1-LpA-I and small alpha-LpA-I. Unlike normal pre beta 1-LpA-I, pre beta 1-LpA-I of apoA-I(L141R)Pisa hemizygotes was not converted into a larger alpha-migrating particle. Plasmas of apoA-I(L141R)Pisa hemizygotes were significantly reduced in their activity to esterify cholesterol in either endogenous or exogenous lipoproteins. Cholesterol efflux capacity was significantly lower than that of normal plasma. Efflux of [3H] cholesterol from radiolabeled fibroblasts into apoB-depleted plasma of normal probands was biphasic with fast cholesterol efflux occurring in the first minute. Thereafter, cholesterol efflux was slow and unsaturable. After incubation with radiolabeled fibroblasts, efflux values of [3H]cholesterol into apoB-depleted plasma from normal controls and from apoA-I(L141R)Pisa hemizygotes were indistinguishable at 1 min. Longer incubations with apoB-free plasma from apoA-I(L141R)Pisa hemizygotes did not, however, lead to the unsaturable increase in cholesterol efflux that was observed during incubations with apoB-free plasma of normolipidemic probands. Pre beta 1-LpA-I of apoA-I(L141R)Pisa hemizygotes took up significantly less cell-derived [3H]cholesterol than pre beta 1-LpA-I of normal donors. We conclude that apoA-I(L141R)Pisa interferes with the formation of lipid-rich alpha-HDL but not with that of lipid-poor pre beta 1-LpA-I. Very low concentrations of alpha-HDL in plasmas of apoA-I(L141R)Pisa hemizygotes combined with reduced LCAT activity cause a decrease of the slow, unspecific, and LCAT-dependent components of cholesterol efflux into plasma.http://www.sciencedirect.com/science/article/pii/S0022227520372059
collection DOAJ
language English
format Article
sources DOAJ
author R Miccoli
Y Zhu
U Daum
J Wessling
Y Huang
R Navalesi
G Assmann
A von Eckardstein
spellingShingle R Miccoli
Y Zhu
U Daum
J Wessling
Y Huang
R Navalesi
G Assmann
A von Eckardstein
A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasma
Journal of Lipid Research
author_facet R Miccoli
Y Zhu
U Daum
J Wessling
Y Huang
R Navalesi
G Assmann
A von Eckardstein
author_sort R Miccoli
title A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasma
title_short A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasma
title_full A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasma
title_fullStr A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasma
title_full_unstemmed A natural apolipoprotein A-I variant, apoA-I (L141R)Pisa, interferes with the formation of alpha-high density lipoproteins (HDL) but not with the formation of pre beta 1-HDL and influences efflux of cholesterol into plasma
title_sort natural apolipoprotein a-i variant, apoa-i (l141r)pisa, interferes with the formation of alpha-high density lipoproteins (hdl) but not with the formation of pre beta 1-hdl and influences efflux of cholesterol into plasma
publisher Elsevier
series Journal of Lipid Research
issn 0022-2275
publishDate 1997-06-01
description ApoA-I(L141R)Pisa is a naturally occurring apolipoprotein A-I variant that causes virtual absence of HDL in hemizygotes and hypoalphalipoproteinemia with half-normal levels of HDL-cholesterol in heterozygotes. In this study we analyzed the distribution of HDL subclasses in plasmas of four hemizygotes for this mutation. We also investigated the abilities of these plasmas to esterify cholesterol and to promote cholesterol efflux. Residual apoA-I-containing lipoproteins in plasmas of hemizygotes for apoA-I(L141R)Pisa correspond to pre beta 1-LpA-I and small alpha-LpA-I. Unlike normal pre beta 1-LpA-I, pre beta 1-LpA-I of apoA-I(L141R)Pisa hemizygotes was not converted into a larger alpha-migrating particle. Plasmas of apoA-I(L141R)Pisa hemizygotes were significantly reduced in their activity to esterify cholesterol in either endogenous or exogenous lipoproteins. Cholesterol efflux capacity was significantly lower than that of normal plasma. Efflux of [3H] cholesterol from radiolabeled fibroblasts into apoB-depleted plasma of normal probands was biphasic with fast cholesterol efflux occurring in the first minute. Thereafter, cholesterol efflux was slow and unsaturable. After incubation with radiolabeled fibroblasts, efflux values of [3H]cholesterol into apoB-depleted plasma from normal controls and from apoA-I(L141R)Pisa hemizygotes were indistinguishable at 1 min. Longer incubations with apoB-free plasma from apoA-I(L141R)Pisa hemizygotes did not, however, lead to the unsaturable increase in cholesterol efflux that was observed during incubations with apoB-free plasma of normolipidemic probands. Pre beta 1-LpA-I of apoA-I(L141R)Pisa hemizygotes took up significantly less cell-derived [3H]cholesterol than pre beta 1-LpA-I of normal donors. We conclude that apoA-I(L141R)Pisa interferes with the formation of lipid-rich alpha-HDL but not with that of lipid-poor pre beta 1-LpA-I. Very low concentrations of alpha-HDL in plasmas of apoA-I(L141R)Pisa hemizygotes combined with reduced LCAT activity cause a decrease of the slow, unspecific, and LCAT-dependent components of cholesterol efflux into plasma.
url http://www.sciencedirect.com/science/article/pii/S0022227520372059
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AT yzhu anaturalapolipoproteinaivariantapoail141rpisainterfereswiththeformationofalphahighdensitylipoproteinshdlbutnotwiththeformationofprebeta1hdlandinfluenceseffluxofcholesterolintoplasma
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AT gassmann anaturalapolipoproteinaivariantapoail141rpisainterfereswiththeformationofalphahighdensitylipoproteinshdlbutnotwiththeformationofprebeta1hdlandinfluenceseffluxofcholesterolintoplasma
AT avoneckardstein anaturalapolipoproteinaivariantapoail141rpisainterfereswiththeformationofalphahighdensitylipoproteinshdlbutnotwiththeformationofprebeta1hdlandinfluenceseffluxofcholesterolintoplasma
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AT avoneckardstein naturalapolipoproteinaivariantapoail141rpisainterfereswiththeformationofalphahighdensitylipoproteinshdlbutnotwiththeformationofprebeta1hdlandinfluenceseffluxofcholesterolintoplasma
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