We demonstrate here that HSCs are the major source of ADAMTS1, whose expression is increased nearly 250-fold upon full activation. MMP2 has been similarly associated with HSC activation during chronic liver injury, and, accordingly, we establish a clear correlation of ADAMTS1 and MMP2 expression in fibrotic liver samples. Taken together, our data identify ADAMTS1 as a new hub of the protease network that also contains the well-known MMP2 and is associated with liver fibrosis. The major regulatory step for all metalloprotease
activity in vivo occurs at the protein level and requires a primary proteolysis of the N-terminal prodomain. ADAMTS1 has been shown to undergo a second cleavage at the C-terminal end, leading to a shorter form that lacks the PF-02341066 mw two carboxy-terminal TSP1 repeats and has a reduced ability to bind to the ECM.32 Here, http://www.selleckchem.com/products/abc294640.html we describe, for the first time, the role of HSCs in the synthesis of a full-length 110-kDa unprocessed polypeptide secreted as the p87 active form. We also detected the shorter 65-kDa form that has been suggested
to reflect an inactivation pathway for p87. In addition, we show that only the 87-kDa active form is detected during chronic liver injury, suggesting that the p65-kDa form does not accumulate within liver tissue. Similar observations have been reported in non-small-cell lung carcinomas.33 However, characterization of ADAMTS1 forms within human tissues remains poorly documented, and their contribution to the onset and development of disease is still unclear. A mechanistic understanding of the effect of ADAMTS1 during liver fibrosis may be deduced from its catalytic activity against matrix components, such 上海皓元 as aggrecan, versican, and nidogen. However, metallopeptidase
activities are highly redundant, and genetic inactivation of many metallopeptidases leads to minimal phenotypes. Moreover, no alteration of aggrecan turnover was found in ADAMTS1 knockout mice.34 In contrast, loss-of-function ADAMTS1 studies have shown severe embryonic and perinatal lethality, suggesting an implication in development35, 36 that may be related to its noncatalytic functions that depend on interactions with growth factors, such as vascular endothelial growth factor and fibroblast growth factor-2.37, 38 We now demonstrate that ADAMTS1 also interacts with the profibrotic cytokine, TGF-β, leading to its release from its latent to active forms. Increased ADAMTS1 expression during chronic liver injury contributes to TGF-β-dependent transcriptional activity and, hence, to liver fibrosis. This interpretation is in line with the recent report of the implication of ADAMTS1 in the stimulation of the stromal reaction in lung cancer, including induction of TGF-β and collagen.