The matrilins: Modulators of extracellular matrix assembly

The matrilins form a family of oligomeric extracellular adaptor proteins that are most strongly expressed in cartilage but also present in many other extracellular matrices. Matrilins bind to different types of collagen fibrils, to other noncollagenous proteins and to aggrecan. They thereby support matrix assembly by connecting fibrillar components and mediating interactions between these and the aggrecan gel. The binding avidity of a matrilin can be varied by alternative splicing, proteolytic processing and formation of homo- and heterooligomers. Such changes in matrilin structure may lead to a modulation of extracellular matrix assembly. Some matrilins bind weakly to alpha 1 beta 1 integrin and cell surface proteoglycans, but even though matrilins play a role in mechanotransduction and matrilin-3 activates the expression of osteoarthritis-associated genes the physiological relevance of matrilin-cell interactions is unclear. Matrilin knockout mice do not display pronounced phenotypes, which points to a redundancy within the protein family or with functionally related proteins. In man, dominant mutations in the von Willebrand factor A like domain of matrilin-3 lead to a protein retention in the endoplasmic reticulum that causes multiple epiphyseal dysplasia by initiating a cell stress response. In contrast, a mutation in an EGF domain of matrilin-3 that is associated with hand osteoarthritis and disc degeneration does not interfere with secretion but instead with extracellular assembly of matrix structures. In this review we summarize such information on matrilin structure and function that we believe is important for the understanding of extracellular matrix assembly and for deciphering pathophysiological mechanisms in diseases causing skeletal malformations or cartilage degeneration. (C) 2010 Elsevier Ltd. All rights reserved.