High-density lipoproteins, reverse cholesterol transport and atherogenesis

doi:10.1038/s41569-021-00538-z

Review

. 2021 Oct;18(10):712-723.

doi: 10.1038/s41569-021-00538-z. Epub 2021 Apr 8.

High-density lipoproteins, reverse cholesterol transport and atherogenesis

Henry J Pownall¹, Corina Rosales², Baiba K Gillard², Antonio M Gotto Jr³

Affiliations

¹ Center for Bioenergetics, Department of Medicine, Houston Methodist Research Institute, Houston, TX, USA. hjpownall@houstonmethodist.org.
² Center for Bioenergetics, Department of Medicine, Houston Methodist Research Institute, Houston, TX, USA.
³ Weill Cornell Medicine, New York, NY, USA. amg2004@med.cornell.edu.

PMID: 33833449
DOI: 10.1038/s41569-021-00538-z

Review

High-density lipoproteins, reverse cholesterol transport and atherogenesis

Henry J Pownall et al. Nat Rev Cardiol. 2021 Oct.

. 2021 Oct;18(10):712-723.

doi: 10.1038/s41569-021-00538-z. Epub 2021 Apr 8.

Authors

Henry J Pownall¹, Corina Rosales², Baiba K Gillard², Antonio M Gotto Jr³

Affiliations

¹ Center for Bioenergetics, Department of Medicine, Houston Methodist Research Institute, Houston, TX, USA. hjpownall@houstonmethodist.org.
² Center for Bioenergetics, Department of Medicine, Houston Methodist Research Institute, Houston, TX, USA.
³ Weill Cornell Medicine, New York, NY, USA. amg2004@med.cornell.edu.

PMID: 33833449
DOI: 10.1038/s41569-021-00538-z

Abstract

Plasma HDL-cholesterol concentrations correlate negatively with the risk of atherosclerotic cardiovascular disease (ASCVD). According to a widely cited model, HDL elicits its atheroprotective effect through its role in reverse cholesterol transport, which comprises the efflux of cholesterol from macrophages to early forms of HDL, followed by the conversion of free cholesterol (FCh) contained in HDL into cholesteryl esters, which are hepatically extracted from the plasma by HDL receptors and transferred to the bile for intestinal excretion. Given that increasing plasma HDL-cholesterol levels by genetic approaches does not reduce the risk of ASCVD, the focus of research has shifted to HDL function, especially in the context of macrophage cholesterol efflux. In support of the reverse cholesterol transport model, several large studies have revealed an inverse correlation between macrophage cholesterol efflux to plasma HDL and ASCVD. However, other studies have cast doubt on the underlying reverse cholesterol transport mechanism: in mice and humans, the FCh contained in HDL is rapidly cleared from the plasma (within minutes), independently of esterification and HDL holoparticle uptake by the liver. Moreover, the reversibility of FCh transfer between macrophages and HDL has implicated the reverse process - that is, the transfer of FCh from HDL to macrophages - in the aetiology of increased ASCVD under conditions of very high plasma HDL-FCh concentrations.

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References

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[1] Kannel, W. B., Castelli, W. P. & Gordon, T. Cholesterol in the prediction of atherosclerotic disease. New perspectives based on the Framingham study. Ann. Intern. Med. 90, 85–91 (1979). - PubMed - DOI

[2] Kannel, W. B., Castelli, W. P. & Gordon, T. Cholesterol in the prediction of atherosclerotic disease. New perspectives based on the Framingham study. Ann. Intern. Med. 90, 85–91 (1979). - PubMed - DOI

[3] Baigent, C. et al. Efficacy and safety of cholesterol-lowering treatment: prospective meta-analysis of data from 90,056 participants in 14 randomised trials of statins. Lancet 366, 1267–1278 (2005). - PubMed - DOI

[4] Baigent, C. et al. Efficacy and safety of cholesterol-lowering treatment: prospective meta-analysis of data from 90,056 participants in 14 randomised trials of statins. Lancet 366, 1267–1278 (2005). - PubMed - DOI

[5] Cholesterol Treatment Trialists' (CTT) Collaborators. et al. The effects of lowering LDL cholesterol with statin therapy in people at low risk of vascular disease: meta-analysis of individual data from 27 randomised trials. Lancet 380, 581–590 (2012). - DOI

[6] Cholesterol Treatment Trialists' (CTT) Collaborators. et al. The effects of lowering LDL cholesterol with statin therapy in people at low risk of vascular disease: meta-analysis of individual data from 27 randomised trials. Lancet 380, 581–590 (2012). - DOI

[7] Stone, N. J. & Grundy, S. M. The 2018 AHA/ACC/Multi-Society Cholesterol guidelines: Looking at past, present and future. Prog. Cardiovasc. Dis. 62, 375–383 (2019). - PubMed - DOI

[8] Stone, N. J. & Grundy, S. M. The 2018 AHA/ACC/Multi-Society Cholesterol guidelines: Looking at past, present and future. Prog. Cardiovasc. Dis. 62, 375–383 (2019). - PubMed - DOI

[9] HPS2-THRIVE Collaborative Group. et al. Effects of extended-release niacin with laropiprant in high-risk patients. N. Engl. J. Med. 371, 203–212 (2014). - DOI

[10] HPS2-THRIVE Collaborative Group. et al. Effects of extended-release niacin with laropiprant in high-risk patients. N. Engl. J. Med. 371, 203–212 (2014). - DOI

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High-density lipoproteins, reverse cholesterol transport and atherogenesis

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High-density lipoproteins, reverse cholesterol transport and atherogenesis

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