Apolipoproteins E and CIII interact to regulate HDL metabolism and coronary heart disease risk

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Standard

Apolipoproteins E and CIII interact to regulate HDL metabolism and coronary heart disease risk. / Morton, Allyson M.; Koch, Manja; Mendivil, Carlos O.; Furtado, Jeremy D.; Tjønneland, Anne; Overvad, Kim; Wang, Liyun; Jensen, Majken K.; Sacks, Frank M.

I: JCI insight, Bind 3, Nr. 4, 22.02.2018.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Morton, AM, Koch, M, Mendivil, CO, Furtado, JD, Tjønneland, A, Overvad, K, Wang, L, Jensen, MK & Sacks, FM 2018, 'Apolipoproteins E and CIII interact to regulate HDL metabolism and coronary heart disease risk', JCI insight, bind 3, nr. 4. https://doi.org/10.1172/jci.insight.98045

APA

Morton, A. M., Koch, M., Mendivil, C. O., Furtado, J. D., Tjønneland, A., Overvad, K., Wang, L., Jensen, M. K., & Sacks, F. M. (2018). Apolipoproteins E and CIII interact to regulate HDL metabolism and coronary heart disease risk. JCI insight, 3(4). https://doi.org/10.1172/jci.insight.98045

Vancouver

Morton AM, Koch M, Mendivil CO, Furtado JD, Tjønneland A, Overvad K o.a. Apolipoproteins E and CIII interact to regulate HDL metabolism and coronary heart disease risk. JCI insight. 2018 feb. 22;3(4). https://doi.org/10.1172/jci.insight.98045

Author

Morton, Allyson M. ; Koch, Manja ; Mendivil, Carlos O. ; Furtado, Jeremy D. ; Tjønneland, Anne ; Overvad, Kim ; Wang, Liyun ; Jensen, Majken K. ; Sacks, Frank M. / Apolipoproteins E and CIII interact to regulate HDL metabolism and coronary heart disease risk. I: JCI insight. 2018 ; Bind 3, Nr. 4.

Bibtex

@article{2255eb32a304464982f7ede3c3350e52,
title = "Apolipoproteins E and CIII interact to regulate HDL metabolism and coronary heart disease risk",
abstract = "BACKGROUND: Subspecies of HDL contain apolipoprotein E (apoE) and/or apoCIII. Both proteins have properties that could affect HDL metabolism. The relation between HDL metabolism and risk of coronary heart disease (CHD) is not well understood. METHODS: Eighteen participants were given a bolus infusion of [D3]L-leucine to label endogenous proteins on HDL. HDL was separated into subspecies containing apoE and/or apoCIII and then into 4 sizes. Metabolic rates for apoA-I in HDL subspecies and sizes were determined by interactive modeling. The concentrations of apoE in HDL that contain or lack apoCIII were measured in a prospective study in Denmark including 1,949 incident CHD cases during 9 years. RESULTS: HDL containing apoE but not apoCIII is disproportionately secreted into the circulation, actively expands while circulating, and is quickly cleared. These are key metabolic steps in reverse cholesterol transport, which may protect against atherosclerosis. ApoCIII on HDL strongly attenuates these metabolic actions of HDL apoE. In the epidemiological study, the relation between HDL apoE concentration and CHD significantly differed depending on whether apoCIII was present. HDL apoE was associated significantly with lower risk of CHD only in the HDL subspecies lacking apoCIII. CONCLUSIONS: ApoE and apoCIII on HDL interact to affect metabolism and CHD. ApoE promotes metabolic steps in reverse cholesterol transport and is associated with lower risk of CHD. ApoCIII, when coexisting with apoE on HDL, abolishes these benefits. Therefore, differences in metabolism of HDL subspecies pertaining to reverse cholesterol transport are reflected in differences in association with CHD. TRIAL REGISTRATION: Clinicaltrials.gov NCT01399632. FUNDING: This work was supported by NIH grant R01HL095964 to FMS and by a grant to the Harvard Clinical and Translational Science Center (8UL1TR0001750) from the National Center for Advancing Translational Science.",
keywords = "Cardiovascular disease, Epidemiology, Lipoproteins, Metabolism",
author = "Morton, {Allyson M.} and Manja Koch and Mendivil, {Carlos O.} and Furtado, {Jeremy D.} and Anne Tj{\o}nneland and Kim Overvad and Liyun Wang and Jensen, {Majken K.} and Sacks, {Frank M.}",
year = "2018",
month = feb,
day = "22",
doi = "10.1172/jci.insight.98045",
language = "English",
volume = "3",
journal = "JCI Insight",
issn = "2379-3708",
publisher = "American Society for Clinical Investigation",
number = "4",

}

RIS

TY - JOUR

T1 - Apolipoproteins E and CIII interact to regulate HDL metabolism and coronary heart disease risk

AU - Morton, Allyson M.

AU - Koch, Manja

AU - Mendivil, Carlos O.

AU - Furtado, Jeremy D.

AU - Tjønneland, Anne

AU - Overvad, Kim

AU - Wang, Liyun

AU - Jensen, Majken K.

AU - Sacks, Frank M.

PY - 2018/2/22

Y1 - 2018/2/22

N2 - BACKGROUND: Subspecies of HDL contain apolipoprotein E (apoE) and/or apoCIII. Both proteins have properties that could affect HDL metabolism. The relation between HDL metabolism and risk of coronary heart disease (CHD) is not well understood. METHODS: Eighteen participants were given a bolus infusion of [D3]L-leucine to label endogenous proteins on HDL. HDL was separated into subspecies containing apoE and/or apoCIII and then into 4 sizes. Metabolic rates for apoA-I in HDL subspecies and sizes were determined by interactive modeling. The concentrations of apoE in HDL that contain or lack apoCIII were measured in a prospective study in Denmark including 1,949 incident CHD cases during 9 years. RESULTS: HDL containing apoE but not apoCIII is disproportionately secreted into the circulation, actively expands while circulating, and is quickly cleared. These are key metabolic steps in reverse cholesterol transport, which may protect against atherosclerosis. ApoCIII on HDL strongly attenuates these metabolic actions of HDL apoE. In the epidemiological study, the relation between HDL apoE concentration and CHD significantly differed depending on whether apoCIII was present. HDL apoE was associated significantly with lower risk of CHD only in the HDL subspecies lacking apoCIII. CONCLUSIONS: ApoE and apoCIII on HDL interact to affect metabolism and CHD. ApoE promotes metabolic steps in reverse cholesterol transport and is associated with lower risk of CHD. ApoCIII, when coexisting with apoE on HDL, abolishes these benefits. Therefore, differences in metabolism of HDL subspecies pertaining to reverse cholesterol transport are reflected in differences in association with CHD. TRIAL REGISTRATION: Clinicaltrials.gov NCT01399632. FUNDING: This work was supported by NIH grant R01HL095964 to FMS and by a grant to the Harvard Clinical and Translational Science Center (8UL1TR0001750) from the National Center for Advancing Translational Science.

AB - BACKGROUND: Subspecies of HDL contain apolipoprotein E (apoE) and/or apoCIII. Both proteins have properties that could affect HDL metabolism. The relation between HDL metabolism and risk of coronary heart disease (CHD) is not well understood. METHODS: Eighteen participants were given a bolus infusion of [D3]L-leucine to label endogenous proteins on HDL. HDL was separated into subspecies containing apoE and/or apoCIII and then into 4 sizes. Metabolic rates for apoA-I in HDL subspecies and sizes were determined by interactive modeling. The concentrations of apoE in HDL that contain or lack apoCIII were measured in a prospective study in Denmark including 1,949 incident CHD cases during 9 years. RESULTS: HDL containing apoE but not apoCIII is disproportionately secreted into the circulation, actively expands while circulating, and is quickly cleared. These are key metabolic steps in reverse cholesterol transport, which may protect against atherosclerosis. ApoCIII on HDL strongly attenuates these metabolic actions of HDL apoE. In the epidemiological study, the relation between HDL apoE concentration and CHD significantly differed depending on whether apoCIII was present. HDL apoE was associated significantly with lower risk of CHD only in the HDL subspecies lacking apoCIII. CONCLUSIONS: ApoE and apoCIII on HDL interact to affect metabolism and CHD. ApoE promotes metabolic steps in reverse cholesterol transport and is associated with lower risk of CHD. ApoCIII, when coexisting with apoE on HDL, abolishes these benefits. Therefore, differences in metabolism of HDL subspecies pertaining to reverse cholesterol transport are reflected in differences in association with CHD. TRIAL REGISTRATION: Clinicaltrials.gov NCT01399632. FUNDING: This work was supported by NIH grant R01HL095964 to FMS and by a grant to the Harvard Clinical and Translational Science Center (8UL1TR0001750) from the National Center for Advancing Translational Science.

KW - Cardiovascular disease

KW - Epidemiology

KW - Lipoproteins

KW - Metabolism

U2 - 10.1172/jci.insight.98045

DO - 10.1172/jci.insight.98045

M3 - Journal article

C2 - 29467335

AN - SCOPUS:85048818799

VL - 3

JO - JCI Insight

JF - JCI Insight

SN - 2379-3708

IS - 4

ER -

ID: 244626418