The thrombospondins are a family of extracellular proteins that participate in cell-to-cell and cell-to-matrix communication. They regulate cellular phenotype during tissue genesis and repair. Five family members, each representing a separate gene product, probably exist in most vertebrate species. Like most extracellular proteins, the thrombospondins are composed of several structural domains that are responsible for the numerous biological functions that have been described for this protein family. Considerable progress has been made towards understanding the function of thrombospondins. The role of thrombospondin in the process of apoptosis or programmed cell death has recently come into focus. In this review we will concentrate on the role of thrombospondin-1 in the broad field of apoptotis research.
Fibroblasts are cultured in three-dimensional collagen matrices to investigate the effect of mechanical tension on the regulation of apoptosis. Under the influence of mechanical loading, the cells show little apoptosis whereas releasing of tension leads to an increase up to tenfold during the first 24 h and remains constant for further 48 h. An autocrine loop of the integrin alpha(V)beta(3)/CD47 receptor complex and thrombospondin-1 is identified as the molecular coupling device between mechanical loading and apoptosis: The integrin alpha(V)beta(3) is expressed under mechanical loading as well as unloading whereas the CD47 could only be identified after the release of tension. The secreted thrombospondin binds to the active receptor and induces apoptosis. The presented mechanosensitive regulation of apoptosis in fibroblast cultures could be an essential mechanism for the regression of the granulation tissue by apoptosis in the process of wound healing.
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