Niacin Reduces Atherosclerosis Development in APOE*3Leiden.CETP Mice Mainly by Reducing NonHDL-Cholesterol

OBJECTIVE: Niacin potently lowers triglycerides, mildly decreases LDL-cholesterol, and largely increases HDL-cholesterol. Despite evidence for an atheroprotective effect of niacin from previous small clinical studies, the large outcome trials, AIM-HIGH and HPS2-THRIVE did not reveal additional benef...

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Autores principales: Kühnast, Susan, Louwe, Mieke C., Heemskerk, Mattijs M., Pieterman, Elsbet J., van Klinken, Jan B., van den Berg, Sjoerd A. A., Smit, Johannes W. A., Havekes, Louis M., Rensen, Patrick C. N., van der Hoorn, José W. A., Princen, Hans M. G., Jukema, J. Wouter
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3686722/
https://www.ncbi.nlm.nih.gov/pubmed/23840481
http://dx.doi.org/10.1371/journal.pone.0066467
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author Kühnast, Susan
Louwe, Mieke C.
Heemskerk, Mattijs M.
Pieterman, Elsbet J.
van Klinken, Jan B.
van den Berg, Sjoerd A. A.
Smit, Johannes W. A.
Havekes, Louis M.
Rensen, Patrick C. N.
van der Hoorn, José W. A.
Princen, Hans M. G.
Jukema, J. Wouter
author_facet Kühnast, Susan
Louwe, Mieke C.
Heemskerk, Mattijs M.
Pieterman, Elsbet J.
van Klinken, Jan B.
van den Berg, Sjoerd A. A.
Smit, Johannes W. A.
Havekes, Louis M.
Rensen, Patrick C. N.
van der Hoorn, José W. A.
Princen, Hans M. G.
Jukema, J. Wouter
author_sort Kühnast, Susan
collection PubMed
description OBJECTIVE: Niacin potently lowers triglycerides, mildly decreases LDL-cholesterol, and largely increases HDL-cholesterol. Despite evidence for an atheroprotective effect of niacin from previous small clinical studies, the large outcome trials, AIM-HIGH and HPS2-THRIVE did not reveal additional beneficial effects of niacin (alone or in combination with laropiprant) on top of statin treatment. We aimed to address this apparent discrepancy by investigating the effects of niacin without and with simvastatin on atherosclerosis development and determine the underlying mechanisms, in APOE*3Leiden.CETP mice, a model for familial dysbetalipoproteinemia (FD). APPROACH AND RESULTS: Mice were fed a western-type diet containing cholesterol without or with niacin (120 mg/kg/day), simvastatin (36 mg/kg/day) or their combination for 18 weeks. Similarly as in FD patients, niacin reduced total cholesterol by -39% and triglycerides by −50%, (both P<0.001). Simvastatin and the combination reduced total cholesterol (−30%; −55%, P<0.001) where the combination revealed a greater reduction compared to simvastatin (−36%, P<0.001). Niacin decreased total cholesterol and triglycerides primarily by increasing VLDL clearance. Niacin increased HDL-cholesterol (+28%, P<0.01) and mildly increased reverse cholesterol transport. All treatments reduced monocyte adhesion to the endothelium (−46%; −47%, P<0.01; −53%, P<0.001), atherosclerotic lesion area (−78%; −49%, P<0.01; −87%, P<0.001) and severity. Compared to simvastatin, the combination increased plaque stability index [(SMC+collagen)/macrophages] (3-fold, P<0.01). Niacin and the combination reduced T cells in the aortic root (−71%, P<0.01; −81%, P<0.001). Lesion area was strongly predicted by nonHDL-cholesterol (R(2) = 0.69, P<0.001) and to a much lesser extent by HDL-cholesterol (R(2) = 0.20, P<0.001). CONCLUSION: Niacin decreases atherosclerosis development mainly by reducing nonHDL-cholesterol with modest HDL-cholesterol-raising and additional anti-inflammatory effects. The additive effect of niacin on top of simvastatin is mostly dependent on its nonHDL-cholesterol-lowering capacities. These data suggest that clinical beneficial effects of niacin are largely dependent on its ability to lower LDL-cholesterol on top of concomitant lipid-lowering therapy.
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spelling pubmed-36867222013-07-09 Niacin Reduces Atherosclerosis Development in APOE*3Leiden.CETP Mice Mainly by Reducing NonHDL-Cholesterol Kühnast, Susan Louwe, Mieke C. Heemskerk, Mattijs M. Pieterman, Elsbet J. van Klinken, Jan B. van den Berg, Sjoerd A. A. Smit, Johannes W. A. Havekes, Louis M. Rensen, Patrick C. N. van der Hoorn, José W. A. Princen, Hans M. G. Jukema, J. Wouter PLoS One Research Article OBJECTIVE: Niacin potently lowers triglycerides, mildly decreases LDL-cholesterol, and largely increases HDL-cholesterol. Despite evidence for an atheroprotective effect of niacin from previous small clinical studies, the large outcome trials, AIM-HIGH and HPS2-THRIVE did not reveal additional beneficial effects of niacin (alone or in combination with laropiprant) on top of statin treatment. We aimed to address this apparent discrepancy by investigating the effects of niacin without and with simvastatin on atherosclerosis development and determine the underlying mechanisms, in APOE*3Leiden.CETP mice, a model for familial dysbetalipoproteinemia (FD). APPROACH AND RESULTS: Mice were fed a western-type diet containing cholesterol without or with niacin (120 mg/kg/day), simvastatin (36 mg/kg/day) or their combination for 18 weeks. Similarly as in FD patients, niacin reduced total cholesterol by -39% and triglycerides by −50%, (both P<0.001). Simvastatin and the combination reduced total cholesterol (−30%; −55%, P<0.001) where the combination revealed a greater reduction compared to simvastatin (−36%, P<0.001). Niacin decreased total cholesterol and triglycerides primarily by increasing VLDL clearance. Niacin increased HDL-cholesterol (+28%, P<0.01) and mildly increased reverse cholesterol transport. All treatments reduced monocyte adhesion to the endothelium (−46%; −47%, P<0.01; −53%, P<0.001), atherosclerotic lesion area (−78%; −49%, P<0.01; −87%, P<0.001) and severity. Compared to simvastatin, the combination increased plaque stability index [(SMC+collagen)/macrophages] (3-fold, P<0.01). Niacin and the combination reduced T cells in the aortic root (−71%, P<0.01; −81%, P<0.001). Lesion area was strongly predicted by nonHDL-cholesterol (R(2) = 0.69, P<0.001) and to a much lesser extent by HDL-cholesterol (R(2) = 0.20, P<0.001). CONCLUSION: Niacin decreases atherosclerosis development mainly by reducing nonHDL-cholesterol with modest HDL-cholesterol-raising and additional anti-inflammatory effects. The additive effect of niacin on top of simvastatin is mostly dependent on its nonHDL-cholesterol-lowering capacities. These data suggest that clinical beneficial effects of niacin are largely dependent on its ability to lower LDL-cholesterol on top of concomitant lipid-lowering therapy. Public Library of Science 2013-06-19 /pmc/articles/PMC3686722/ /pubmed/23840481 http://dx.doi.org/10.1371/journal.pone.0066467 Text en © 2013 Kühnast et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Kühnast, Susan
Louwe, Mieke C.
Heemskerk, Mattijs M.
Pieterman, Elsbet J.
van Klinken, Jan B.
van den Berg, Sjoerd A. A.
Smit, Johannes W. A.
Havekes, Louis M.
Rensen, Patrick C. N.
van der Hoorn, José W. A.
Princen, Hans M. G.
Jukema, J. Wouter
Niacin Reduces Atherosclerosis Development in APOE*3Leiden.CETP Mice Mainly by Reducing NonHDL-Cholesterol
title Niacin Reduces Atherosclerosis Development in APOE*3Leiden.CETP Mice Mainly by Reducing NonHDL-Cholesterol
title_full Niacin Reduces Atherosclerosis Development in APOE*3Leiden.CETP Mice Mainly by Reducing NonHDL-Cholesterol
title_fullStr Niacin Reduces Atherosclerosis Development in APOE*3Leiden.CETP Mice Mainly by Reducing NonHDL-Cholesterol
title_full_unstemmed Niacin Reduces Atherosclerosis Development in APOE*3Leiden.CETP Mice Mainly by Reducing NonHDL-Cholesterol
title_short Niacin Reduces Atherosclerosis Development in APOE*3Leiden.CETP Mice Mainly by Reducing NonHDL-Cholesterol
title_sort niacin reduces atherosclerosis development in apoe*3leiden.cetp mice mainly by reducing nonhdl-cholesterol
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3686722/
https://www.ncbi.nlm.nih.gov/pubmed/23840481
http://dx.doi.org/10.1371/journal.pone.0066467
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