Impaired proteolysis of collagen I inhibits proliferation of hepatic stellate cells: implications for regulation of liver fibrosis

Xiaoying Zhou, Aqeel Jamil, Andrew Nash, James Chan, Nathan Trim, John P Iredale, R Christopher Benyon

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

Myofibroblastic-activated hepatic stellate cells are the major source of the collagen I-rich extracellular matrix in liver fibrosis but also produce matrix metalloproteinases, which remodel this protein. We have investigated the role of collagen I proteolysis in both regulating proliferation and maintaining the activated myofibroblastic phenotype of stellate cells in vitro. Compared with stellate cells plated on normal collagen I, those plated on a collagenase-resistant form of collagen I (r/r collagen) had reduced thymidine incorporation and proliferating cell nuclear antigen expression but increased p21 expression. Collagen I was shown to be rendered resistant to matrix metalloproteinases by artificial cross-linking in vitro using tissue transglutaminase exerted similar antiproliferative effects on stellate cells to r/r collagen. Of the stellate cell activation markers examined (tissue inhibitor of metalloproteinases-1, alpha-smooth muscle actin, matrix metalloproteinases-2 and -9, and procollagen I) only the last was decreased by culture on r/r collagen relative to normal collagen I. Antagonists of integrin alphavbeta3, an integrin reported to stimulate stellate cell proliferation, significantly inhibited adhesion, proliferation, and procollagen I synthesis of stellate cells plated on normal collagen I but had reduced effectiveness on these parameters in cells on r/r collagen. We conclude that proliferation of stellate cells is promoted by pericellular collagen I proteolysis acting via alphavbeta3 integrin. Cross-linking of collagen I by tissue transglutaminase, a process known to occur in chronic liver fibrosis, might not only increase its resistance to matrix metalloproteinases thereby inhibiting resolution of fibrosis but also functions to constrain the fibroproliferative process.
Original languageEnglish
Pages (from-to)39757-65
Number of pages9
JournalJournal of Biological Chemistry
Volume281
Issue number52
DOIs
Publication statusPublished - 2006

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