Cellular and molecular mechanisms for rapid regression of atherosclerosis: From bench top to potentially achievable clinical goal

Kevin Jon Williams, Jonathan E. Feig, Edward A. Fisher

Research output: Contribution to journalReview articlepeer-review

30 Scopus citations

Abstract

PURPOSE OF REVIEW: Decades of literature have unambiguously demonstrated regression and remodeling of atherosclerotic lesions, including advanced plaques. Recent insights into underlying mechanisms are reviewed. RECENT FINDINGS: Factors promoting regression include decreased apolipoprotein B-lipoprotein retention within the arterial wall, efflux of cholesterol and other harmful lipids from plaques, and emigration of lesional foam cells followed by entry of healthy phagocytes that remove necrotic debris and other plaque components. Cellular lipid efflux and foam cell emigration can occur surprisingly rapidly once the plaque milieu is improved. Lipid efflux and foam cell emigration each involve specific molecular mediators, many of which have been identified. Necrotic debris removal can be surprisingly comprehensive, with essentially full disappearance documented in animal models. SUMMARY: The essential prerequisite for regression is robust improvement in plaque milieu, meaning large plasma reductions in atherogenic apolipoprotein B-lipoproteins or brisk enhancements in 'reverse' lipid transport from plaque into liver. Importantly, the processes of regression are consistent with rapid correction of features characteristic of the rupture-prone, vulnerable plaques responsible for acute coronary syndromes. New interventions to lower apolipoprotein B-lipoprotein levels and enhance reverse lipid transport may allow regression to become a widespread clinical goal. Strategies based on recent mechanistic insights may facilitate further therapeutic progress.

Original languageEnglish
Pages (from-to)443-450
Number of pages8
JournalCurrent Opinion in Lipidology
Volume18
Issue number4
DOIs
StatePublished - Aug 2007
Externally publishedYes

Keywords

  • Apolipoprotein B
  • Atherosclerosis
  • Foam cell emigration
  • Regression
  • Reverse lipid transport

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