Multiple roles of Toll-like receptor signaling in atherosclerosis

Abstract

Toll-like receptors are key regulators of both innate and adaptive immune responses. This review outlines the recently emerged multiple roles of Toll-like receptor signaling in atherosclerosis. Mice deficient in TLR4, TLR2 and MyD88 all have reduced atherosclerosis which establishes that Toll-like receptor-dependent pathways contribute to disease development. Although it is likely that total "infectious burden" contributes to atherosclerosis progression, endogenous ligands may also initiate and modulate Toll-like receptor signaling pathways. CD36, with established roles in recognition of endogenous ligands and atherosclerotic disease, facilitates TLR2 signaling and might therefore represent a bridge between endogenous lipid ligands and Toll-like receptor pathways. Furthermore, lipoprotein oxidation generates ligands that activate Toll-like receptor pathways. At the same time, Toll-like receptor activation may be inhibited by accumulating oxidized phospholipids, which could result in reduced dendritic cell maturation and impaired immunological priming. Activation of Toll-like receptor signaling can promote atherosclerosis by multiple mechanisms, while some beneficial Toll-like receptor pathways may be inhibited by lipid accumulation. Due to their central role in the disease process, Toll-like receptor signaling pathways represent a target of immunomodulatory therapy with the goal of tipping the balance from excessive chronic inflammation towards resolution of inflammation, while not compromising host defense or atheroprotective immune functions.