Abstract

Several mutations in the extracellular matrix protein matrilin-3 cause a heterogeneous disease spectrum affecting skeletal tissues. We introduced three disease causing point mutations leading to single amino acid exchanges (R116W, T298M, C299S) in matrilin-3 and expressed the corresponding proteins in primary articular chondrocytes to elucidate pathogenic mechanisms at the cellular level. Expression levels, processing, and the secretion pattern of a mutation linked to hand osteoarthritis (T298M) were similar to the wildtype protein, whereas the two other mutants were poorly expressed and hardly detectable in supernatants of transiently transfected cells. Using immunofluorescence staining, we demonstrated that mutants R116W and C299S are retained and accumulate within the endoplasmatic reticulum (ER). Their further trafficking to the Golgi compartment seems to be disturbed, whereas T298M is secreted normally. In cells transfected with the wildtype and T298M constructs, a matrilin-3 containing filamentous network was formed surrounding the cells, whereas in the case of R116W and C299S such structures were completely absent. These observations are similar to those for mutations in the cartilage oligomeric matrix protein (COMP) leading to multiple epiphyseal dysplasia and pseudoachondroplasia suggesting that retention and accumulation of cartilage proteins in the ER might be a general mechanism involved in the pathogenesis of chondrodysplasias.