Cell Metabolism
Volume 18, Issue 1, 2 July 2013, Pages 118-129
Journal home page for Cell Metabolism

Short Article
Cold Exposure Promotes Atherosclerotic Plaque Growth and Instability via UCP1-Dependent Lipolysis

https://doi.org/10.1016/j.cmet.2013.06.003Get rights and content
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open access

Highlights

  • Cold activates lipolysis and increases blood levels of VLDL and LDL remnants

  • Cold-induced hypercholesterolemia promotes plaque growth and instability

  • Deletion of Ucp1 attenuates cold-induced lipolysis, plaque growth, and instability

  • Cold acclimation reduces plasma adiponectin levels

Summary

Molecular mechanisms underlying the cold-associated high cardiovascular risk remain unknown. Here, we show that the cold-triggered food-intake-independent lipolysis significantly increased plasma levels of small low-density lipoprotein (LDL) remnants, leading to accelerated development of atherosclerotic lesions in mice. In two genetic mouse knockout models (apolipoprotein E−/− [ApoE−/−] and LDL receptor−/− [Ldlr−/−] mice), persistent cold exposure stimulated atherosclerotic plaque growth by increasing lipid deposition. Furthermore, marked increase of inflammatory cells and plaque-associated microvessels were detected in the cold-acclimated ApoE−/− and Ldlr−/− mice, leading to plaque instability. Deletion of uncoupling protein 1 (UCP1), a key mitochondrial protein involved in thermogenesis in brown adipose tissue (BAT), in the ApoE−/− strain completely protected mice from the cold-induced atherosclerotic lesions. Cold acclimation markedly reduced plasma levels of adiponectin, and systemic delivery of adiponectin protected ApoE−/− mice from plaque development. These findings provide mechanistic insights on low-temperature-associated cardiovascular risks.

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