Cell Reports (Oct 2017)

Genetic Dissection of the Impact of miR-33a and miR-33b during the Progression of Atherosclerosis

  • Nathan L. Price,
  • Noemi Rotllan,
  • Alberto Canfrán-Duque,
  • Xinbo Zhang,
  • Paramita Pati,
  • Noemi Arias,
  • Jack Moen,
  • Manuel Mayr,
  • David A. Ford,
  • Ángel Baldán,
  • Yajaira Suárez,
  • Carlos Fernández-Hernando

Journal volume & issue
Vol. 21, no. 5
pp. 1317 – 1330

Abstract

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Summary: As an important regulator of macrophage cholesterol efflux and HDL biogenesis, miR-33 is a promising target for treatment of atherosclerosis, and numerous studies demonstrate that inhibition of miR-33 increases HDL levels and reduces plaque burden. However, important questions remain about how miR-33 impacts atherogenesis, including whether this protection is primarily due to direct effects on plaque macrophages or regulation of lipid metabolism in the liver. We demonstrate that miR-33 deficiency in Ldlr−/− mice promotes obesity, insulin resistance, and hyperlipidemia but does not impact plaque development. We further assess how loss of miR-33 or addition of miR-33b in macrophages and other hematopoietic cells impact atherogenesis. Macrophage-specific loss of miR-33 decreases lipid accumulation and inflammation under hyperlipidemic conditions, leading to reduced plaque burden. Therefore, the pro-atherogenic effects observed in miR-33-deficient mice are likely counterbalanced by protective effects in macrophages, which may be the primary mechanism through which anti-miR-33 therapies reduce atherosclerosis. : miR-33a and miR-33b, the miR-33 family of miRNAs, are important regulators of reverse cholesterol transport and atherosclerosis. Price et al. have developed genetic models to explore the specific roles of miR-33a and miR-33b in atherosclerotic plaque formation. Their findings highlight both the utility and potential issues involved in anti-miR-33 therapies. Keywords: Atherosclerosis, miR-33, HDL-C, metabolism, cholesterol