VLDL (Very-Low-Density Lipoprotein)-Apo E (Apolipoprotein E) May Influence Lp(a) (Lipoprotein [a]) Synthesis or Assembly

To clarify the association between PCSK9 (proprotein convertase subtilisin/kexin type 9) and Lp(a) (lipoprotein [a]), we studied Lp(a) kinetics in patients with loss-of-function and gain-of-function mutations and in patients in whom extended-release niacin reduced Lp(a) and PCSK9 concentrations. App...

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Published inArteriosclerosis, thrombosis, and vascular biology Vol. 40; no. 3; pp. 819 - 829
Main Authors Croyal, Mikaël, Blanchard, Valentin, Ouguerram, Khadija, Chétiveaux, Maud, Cabioch, Léa, Moyon, Thomas, Billon-Crossouard, Stéphanie, Aguesse, Audrey, Bernardeau, Karine, Le May, Cédric, Flet, Laurent, Lambert, Gilles, Hadjadj, Samy, Cariou, Bertrand, Krempf, Michel, Nobécourt-Dupuy, Estelle
Format Journal Article
LanguageEnglish
Published United States American Heart Association, Inc 01.03.2020
American Heart Association
Subjects
Cardiology and cardiovascular system
Endocrinology and metabolism
Human health and pathology
Life Sciences
apolipoprotein E
niacin
loss of function mutation
kinetics
isotopes
lipoprotein (a)
Online AccessGet full text
ISSN1079-5642
1524-4636
1524-4636
DOI10.1161/ATVBAHA.119.313877

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Abstract To clarify the association between PCSK9 (proprotein convertase subtilisin/kexin type 9) and Lp(a) (lipoprotein [a]), we studied Lp(a) kinetics in patients with loss-of-function and gain-of-function mutations and in patients in whom extended-release niacin reduced Lp(a) and PCSK9 concentrations. Approach and Results: Six healthy controls, 9 heterozygous patients with familial hypercholesterolemia (5 with low-density lipoprotein receptor [ ] mutations and 4 with gain-of-function mutations) and 3 patients with heterozygous dominant-negative loss-of-function mutations were included in the preliminary study. Eight patients were enrolled in a second study assessing the effects of 2 g/day extended-release niacin. Apolipoprotein kinetics in VLDL (very-low-density lipoprotein), LDL (low-density lipoprotein), and Lp(a) were studied using stable isotope techniques. Plasma Lp(a) concentrations were increased in -gain-of-function and familial hypercholesterolemia- groups compared with controls and -loss-of-function groups (14±12 versus 5±4 mg/dL; =0.04), but no change was observed in Lp(a) fractional catabolic rate. Subjects with -loss-of-function mutations displayed reduced apoE (apolipoprotein E) concentrations associated with a VLDL-apoE absolute production rate reduction. Lp(a) and VLDL-apoE absolute production rates were correlated ( =0.50; <0.05). ApoE-to-apolipoprotein (a) molar ratios in Lp(a) increased with plasma Lp(a) ( =0.96; <0.001) but not with PCSK9 levels. Extended-release niacin-induced reductions in Lp(a) and VLDL-apoE absolute production rate were correlated ( =0.83; =0.015). In contrast, PCSK9 reduction (-35%; =0.008) was only correlated with that of VLDL-apoE absolute production rate ( =0.79; =0.028). VLDL-apoE production could determine Lp(a) production and/or assembly. As PCSK9 inhibitors reduce plasma apoE and Lp(a) concentrations, apoE could be the link between PCSK9 and Lp(a).
AbstractList To clarify the association between PCSK9 (proprotein convertase subtilisin/kexin type 9) and Lp(a) (lipoprotein [a]), we studied Lp(a) kinetics in patients with loss-of-function and gain-of-function PCSK9 mutations and in patients in whom extended-release niacin reduced Lp(a) and PCSK9 concentrations. Approach and Results: Six healthy controls, 9 heterozygous patients with familial hypercholesterolemia (5 with low-density lipoprotein receptor [LDLR] mutations and 4 with PCSK9 gain-of-function mutations) and 3 patients with heterozygous dominant-negative PCSK9 loss-of-function mutations were included in the preliminary study. Eight patients were enrolled in a second study assessing the effects of 2 g/day extended-release niacin. Apolipoprotein kinetics in VLDL (very-low-density lipoprotein), LDL (low-density lipoprotein), and Lp(a) were studied using stable isotope techniques. Plasma Lp(a) concentrations were increased in PCSK9-gain-of-function and familial hypercholesterolemia-LDLR groups compared with controls and PCSK9-loss-of-function groups (14±12 versus 5±4 mg/dL; P=0.04), but no change was observed in Lp(a) fractional catabolic rate. Subjects with PCSK9-loss-of-function mutations displayed reduced apoE (apolipoprotein E) concentrations associated with a VLDL-apoE absolute production rate reduction. Lp(a) and VLDL-apoE absolute production rates were correlated (r=0.50; P<0.05). ApoE-to-apolipoprotein (a) molar ratios in Lp(a) increased with plasma Lp(a) (r=0.96; P<0.001) but not with PCSK9 levels. Extended-release niacin-induced reductions in Lp(a) and VLDL-apoE absolute production rate were correlated (r=0.83; P=0.015). In contrast, PCSK9 reduction (-35%; P=0.008) was only correlated with that of VLDL-apoE absolute production rate (r=0.79; P=0.028).OBJECTIVETo clarify the association between PCSK9 (proprotein convertase subtilisin/kexin type 9) and Lp(a) (lipoprotein [a]), we studied Lp(a) kinetics in patients with loss-of-function and gain-of-function PCSK9 mutations and in patients in whom extended-release niacin reduced Lp(a) and PCSK9 concentrations. Approach and Results: Six healthy controls, 9 heterozygous patients with familial hypercholesterolemia (5 with low-density lipoprotein receptor [LDLR] mutations and 4 with PCSK9 gain-of-function mutations) and 3 patients with heterozygous dominant-negative PCSK9 loss-of-function mutations were included in the preliminary study. Eight patients were enrolled in a second study assessing the effects of 2 g/day extended-release niacin. Apolipoprotein kinetics in VLDL (very-low-density lipoprotein), LDL (low-density lipoprotein), and Lp(a) were studied using stable isotope techniques. Plasma Lp(a) concentrations were increased in PCSK9-gain-of-function and familial hypercholesterolemia-LDLR groups compared with controls and PCSK9-loss-of-function groups (14±12 versus 5±4 mg/dL; P=0.04), but no change was observed in Lp(a) fractional catabolic rate. Subjects with PCSK9-loss-of-function mutations displayed reduced apoE (apolipoprotein E) concentrations associated with a VLDL-apoE absolute production rate reduction. Lp(a) and VLDL-apoE absolute production rates were correlated (r=0.50; P<0.05). ApoE-to-apolipoprotein (a) molar ratios in Lp(a) increased with plasma Lp(a) (r=0.96; P<0.001) but not with PCSK9 levels. Extended-release niacin-induced reductions in Lp(a) and VLDL-apoE absolute production rate were correlated (r=0.83; P=0.015). In contrast, PCSK9 reduction (-35%; P=0.008) was only correlated with that of VLDL-apoE absolute production rate (r=0.79; P=0.028).VLDL-apoE production could determine Lp(a) production and/or assembly. As PCSK9 inhibitors reduce plasma apoE and Lp(a) concentrations, apoE could be the link between PCSK9 and Lp(a).CONCLUSIONSVLDL-apoE production could determine Lp(a) production and/or assembly. As PCSK9 inhibitors reduce plasma apoE and Lp(a) concentrations, apoE could be the link between PCSK9 and Lp(a).
To clarify the association between PCSK9 (proprotein convertase subtilisin/kexin type 9) and Lp(a) (lipoprotein [a]), we studied Lp(a) kinetics in patients with loss-of-function and gain-of-function mutations and in patients in whom extended-release niacin reduced Lp(a) and PCSK9 concentrations. Approach and Results: Six healthy controls, 9 heterozygous patients with familial hypercholesterolemia (5 with low-density lipoprotein receptor [ ] mutations and 4 with gain-of-function mutations) and 3 patients with heterozygous dominant-negative loss-of-function mutations were included in the preliminary study. Eight patients were enrolled in a second study assessing the effects of 2 g/day extended-release niacin. Apolipoprotein kinetics in VLDL (very-low-density lipoprotein), LDL (low-density lipoprotein), and Lp(a) were studied using stable isotope techniques. Plasma Lp(a) concentrations were increased in -gain-of-function and familial hypercholesterolemia- groups compared with controls and -loss-of-function groups (14±12 versus 5±4 mg/dL; =0.04), but no change was observed in Lp(a) fractional catabolic rate. Subjects with -loss-of-function mutations displayed reduced apoE (apolipoprotein E) concentrations associated with a VLDL-apoE absolute production rate reduction. Lp(a) and VLDL-apoE absolute production rates were correlated ( =0.50; <0.05). ApoE-to-apolipoprotein (a) molar ratios in Lp(a) increased with plasma Lp(a) ( =0.96; <0.001) but not with PCSK9 levels. Extended-release niacin-induced reductions in Lp(a) and VLDL-apoE absolute production rate were correlated ( =0.83; =0.015). In contrast, PCSK9 reduction (-35%; =0.008) was only correlated with that of VLDL-apoE absolute production rate ( =0.79; =0.028). VLDL-apoE production could determine Lp(a) production and/or assembly. As PCSK9 inhibitors reduce plasma apoE and Lp(a) concentrations, apoE could be the link between PCSK9 and Lp(a).
OBJECTIVE: To clarify the association between PCSK9 (proprotein convertase subtilisin/kexin type 9) and Lp(a) (Lipoprotein [a]), we studied Lp(a) kinetics in patients with loss-of-function and gain-of-function PCSK9 mutations and in patients in whom extended-release niacin reduced Lp(a) and PCSK9 concentrations.APPROACH AND RESULTS: Six healthy controls, 9 heterozygous patients with familial hypercholesterolemia (5 with low-density lipoprotein receptor [LDLR] mutations and 4 with PCSK9 gain-of-function mutations) and 3 patients with heterozygous dominant-negative PCSK9 loss-of-function mutations were included in the preliminary study. Eight patients were enrolled in a second study assessing the effects of 2 g/day extended-release niacin. Apolipoprotein kinetics in VLDL (very-lowdensity lipoprotein), LDL (low-density lipoprotein), and Lp(a) were studied using stable isotope techniques. Plasma Lp(a) concentrations were increased in PCSK9-gain-of-function and familial hypercholesterolemia-LDLR groups compared with controls and PCSK9-loss-of-function groups (14±12 versus 5±4 mg/dL; P=0.04), but no change was observed in Lp(a) fractional catabolic rate. Subjects with PCSK9-loss-of-function mutations displayed reduced apoE (apolipoprotein E) concentrations associated with a VLDL-apoE absolute production rate reduction. Lp(a) and VLDL-apoE absolute production rates were correlated (r=0.50; P<0.05). ApoE-to-apolipoprotein (a) molar ratios in Lp(a) increased with plasma Lp(a) (r=0.96; P<0.001) but not with PCSK9 levels. Extended-release niacin-induced reductions in Lp(a) and VLDL-apoE absolute production rate were correlated (r=0.83; P=0.015). In contrast, PCSK9 reduction (−35%; P=0.008) was only correlated with that of VLDL-apoE absolute production rate (r=0.79; P=0.028).CONCLUSIONS: VLDL-apoE production could determine Lp(a) production and/or assembly. As PCSK9 inhibitors reduce plasma apoE and Lp(a) concentrations, apoE could be the link between PCSK9 and Lp(a).
Author Bernardeau, Karine
Nobécourt-Dupuy, Estelle
Krempf, Michel
Flet, Laurent
Le May, Cédric
Lambert, Gilles
Moyon, Thomas
Hadjadj, Samy
Blanchard, Valentin
Aguesse, Audrey
Ouguerram, Khadija
Cabioch, Léa
Cariou, Bertrand
Billon-Crossouard, Stéphanie
Croyal, Mikaël
Chétiveaux, Maud
AuthorAffiliation From the NUN, INRA, CHU Nantes, UMR 1280, PhAN, IMAD, CRNH-O, France (M. Croyal, K.O., S.B.-C., A.A., M.K.) CRNH-O Mass Spectrometry Core Facility, F-44000 Nantes, France (M. Croyal, K.O., T.M., S.B.-C., A.A., M.K.) Université de La Réunion, INSERM, UMR 1188 Diabète athérothrombose Réunion Océan Indien (DéTROI), Plateforme CYROI, Saint-Denis de La Réunion, France (V.B., G.L.) L’institut du thorax, INSERM, CNRS, University of Nantes, France (M. Chétiveaux, C.L.M.) Biogenouest-Corsaire platform, Saint Gilles, France (L.C.) P2R «Production de protéines recombinantes», CRCINA, SFR-Santé, INSERM, CNRS, UNIV Nantes, CHU Nantes, France (K.B.) Pharmacy Department, Nantes University Hospital, France (L.F.) L’institut du thorax, INSERM, CNRS, University of Nantes, CHU Nantes, France (S.H., B.C.) ELSAN, clinique Bretéché, Nantes, France (M.K.) Nephrology Department, CHU Saint-Pierre, La Réunion, France (E.N.-D.)
AuthorAffiliation_xml – name: From the NUN, INRA, CHU Nantes, UMR 1280, PhAN, IMAD, CRNH-O, France (M. Croyal, K.O., S.B.-C., A.A., M.K.) CRNH-O Mass Spectrometry Core Facility, F-44000 Nantes, France (M. Croyal, K.O., T.M., S.B.-C., A.A., M.K.) Université de La Réunion, INSERM, UMR 1188 Diabète athérothrombose Réunion Océan Indien (DéTROI), Plateforme CYROI, Saint-Denis de La Réunion, France (V.B., G.L.) L’institut du thorax, INSERM, CNRS, University of Nantes, France (M. Chétiveaux, C.L.M.) Biogenouest-Corsaire platform, Saint Gilles, France (L.C.) P2R «Production de protéines recombinantes», CRCINA, SFR-Santé, INSERM, CNRS, UNIV Nantes, CHU Nantes, France (K.B.) Pharmacy Department, Nantes University Hospital, France (L.F.) L’institut du thorax, INSERM, CNRS, University of Nantes, CHU Nantes, France (S.H., B.C.) ELSAN, clinique Bretéché, Nantes, France (M.K.) Nephrology Department, CHU Saint-Pierre, La Réunion, France (E.N.-D.)
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  fullname: Croyal, Mikaël
  organization: From the NUN, INRA, CHU Nantes, UMR 1280, PhAN, IMAD, CRNH-O, France (M. Croyal, K.O., S.B.-C., A.A., M.K.) CRNH-O Mass Spectrometry Core Facility, F-44000 Nantes, France (M. Croyal, K.O., T.M., S.B.-C., A.A., M.K.) Université de La Réunion, INSERM, UMR 1188 Diabète athérothrombose Réunion Océan Indien (DéTROI), Plateforme CYROI, Saint-Denis de La Réunion, France (V.B., G.L.) L’institut du thorax, INSERM, CNRS, University of Nantes, France (M. Chétiveaux, C.L.M.) Biogenouest-Corsaire platform, Saint Gilles, France (L.C.) P2R «Production de protéines recombinantes», CRCINA, SFR-Santé, INSERM, CNRS, UNIV Nantes, CHU Nantes, France (K.B.) Pharmacy Department, Nantes University Hospital, France (L.F.) L’institut du thorax, INSERM, CNRS, University of Nantes, CHU Nantes, France (S.H., B.C.) ELSAN, clinique Bretéché, Nantes, France (M.K.) Nephrology Department, CHU Saint-Pierre, La Réunion, France (E.N.-D.)
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Issue 3
Keywords apolipoprotein E
niacin
loss of function mutation
kinetics
isotopes
lipoprotein (a)
Language English
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Snippet To clarify the association between PCSK9 (proprotein convertase subtilisin/kexin type 9) and Lp(a) (lipoprotein [a]), we studied Lp(a) kinetics in patients...
OBJECTIVE: To clarify the association between PCSK9 (proprotein convertase subtilisin/kexin type 9) and Lp(a) (Lipoprotein [a]), we studied Lp(a) kinetics in...
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SubjectTerms Cardiology and cardiovascular system
Endocrinology and metabolism
Human health and pathology
Life Sciences
Title VLDL (Very-Low-Density Lipoprotein)-Apo E (Apolipoprotein E) May Influence Lp(a) (Lipoprotein [a]) Synthesis or Assembly
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