It is well established that biglycan, a small leucine-rich proteoglycan, acts as an extracellular matrix-derived danger signal in its soluble form. By binding to innate immunity Toll-like receptors (TLR) 2 and 4, biglycan initiates and perpetuates the inflammatory response. Previous work has conveyed that biglycan's role in inflammation extends far beyond its function as a canonical danger signal. It has been shown that biglycan acts in an anti-inflammatory capacity, wherein it tightly regulates the inflammatory response. In this review, we will discuss a paradigm shift to our understanding of biglycan signaling in inflammation. Mounting evidence suggests that the selective interactions between biglycan, TLRs, and their adapter proteins critically regulate downstream signaling and disease outcome. Biglycan can act as a high-affinity ligand for TLR coreceptors CD14 and CD44, further providing an additional layer of complexity. We propose a novel concept, that biglycan steers signaling toward inflammation by interacting with CD14, whereas it can trigger autophagy by binding to CD44. Thus, biglycan, and perhaps others soluble proteoglycans, could function as molecular switches which could either propagate the signaling of chronic inflammation or promote the resolution of inflammatory processes. Obviously, these new functions have broad implications in the regulation of various inflammatory diseases and could provide the basis for developing novel therapeutic regimens that would selectively target the interactions between biglycan, TLRs, coreceptors, and adapter molecules.
Keywords: DAMP; CD14; CD44; T helper cells; diabetes mellitus; extracellular matrix; lupus nephritis; macrophage; toll-like receptor.
© 2019 Federation of European Biochemical Societies.