Over-expression of Chitotriosidase Modulates ECM Distribution in Atherosclerotic Plaques of Mice

Abstract

Abstract Macrophage is the predominant cell type in all phases of atherosclerosis and it plays a major role in disease progression. Although mammals have no endogenous chitin, macrophages produce chitotriosidase-1 (CHIT1) as part of the innate immune response in various inflammatory conditions including atherosclerosis. We aimed to investigate mechanisms by which CHIT1 may modulate the progression of atherosclerosis using CHIT1-overexpressing, Ldlr−/− mice, and also to determine whether overexpression of CHIT1 by macrophages affects the morphology of atherosclerotic plaques. We developed an atherosclerosis-prone, conditional CHIT1 over-expressing (CHIT1-OE) mouse model which allowed us to study the effects of macrophage CHIT1 over-expression on morphological characteristics as well as extracellular matrix (ECM) formation in vivo. Further, bone marrow-derived macrophages (BMDM) from CHIT1-OE mice and littermate controls were used to determine the cellular mechanisms of non-enzymatic CHIT1 signaling in vitro. Over-expression of CHIT1 in Ldlr−/− mice after 12 weeks of high-fat diet modulated the ECM by altering the accumulation and localization of hyaluronic acid (HA) and collagen in atherosclerotic plaques observed within the aortic sinus. We also found, in vitro, that macrophage invasiveness was significantly enhanced in BMDM from CHIT1-OE mice upon addition of IL-13 as an immunoregulator. Our findings indicate that CHIT1 over-expression modulates ECM properties in the atherosclerotic plaques of Ldlr−/− mice and macrophage behavior in vitro, which may be atheroprotective and promote plaque stability.