ABSTRACT
ß-2 Microglobulin (ß2M) is a molecular chaperone for the major histocompatibility class I (MHC I) complex, hemochromatosis factor protein (HFE), and the neonatal Fc receptor (FcRn), but ß2M may also have less understood chaperone-independent functions. Elevated plasma ß2M has a direct role in neurocognitive decline and is a risk factor for adverse cardiovascular events. ß2M mRNA is present in platelets at very high levels, and ß2M is part of the activated platelet releasate. In addition to their more well-studied thrombotic functions, platelets are important immune regulatory cells that release inflammatory molecules and contribute to leukocyte trafficking, activation, and differentiation. We have now found that platelet-derived ß2M is a mediator of monocyte proinflammatory differentiation through noncanonical TGFß receptor signaling. Circulating monocytes from mice lacking ß2M only in platelets (Plt-ß2M-/-) had a more proreparative monocyte phenotype, in part dependent on increased platelet-derived TGFß signaling in the absence of ß2M. Using a mouse myocardial infarction (MI) model, Plt-ß2M-/- mice had limited post-MI proinflammatory monocyte responses and, instead, demonstrated early proreparative monocyte differentiation, profibrotic myofibroblast responses, and a rapid decline in heart function compared with WT mice. These data demonstrate a potentially novel chaperone-independent, monocyte phenotype-regulatory function for platelet ß2M and that platelet-derived 2M and TGFß have opposing roles in monocyte differentiation that may be important in tissue injury responses.
