1E). To evaluate whether OPN directly contributed to the fibrogenic response evoked by MCD diets and gain further insight into the relationship between OPN and the Hh pathway, OPN−/− mice (n = 12) and littermate controls (n = 12) were fed MCD or control diets for 4 weeks. OPN deficiency had no obvious effect on expression of the Hh target gene
Gli2, because both OPN−/− mice and littermate controls showed similar PD98059 price induction of Gli2 mRNA (data not shown) and protein (Fig. 2A) after 4 weeks of an MCD diet. Despite apparent similarities in Hh pathway activity, however, the fibrogenic responses of OPN−/− mice were markedly attenuated when compared with their littermate controls. After MCD diet feeding, for example, OPN−/− mice accumulated 50% fewer α-smooth muscle actin (αSMA)–positive cells (Fig. 2B) and significantly fewer Sirius red–stained fibrils (Fig. 2C) than comparably treated littermates. These results are consistent with an earlier report of reduced collagen gene expression in OPN−/− mice18 and suggest that the Hh pathway mediates its fibrogenic effects, at least in part, by inducing expression of OPN. Hh-responsive bile ductular cells are major selleck compound sources of OPN (Fig. 1E). Therefore,
we treated primary cultures of rodent HSCs with conditioned medium from monocultures of a cholangiocyte cell line, and assessed effects on HSC gene expression. To determine whether HSC responses were mediated by OPN, studies were repeated using cholangiocyte-conditioned medium plus OPN-targeted aptamers. Cholangiocyte-conditioned media augmented HSC expression of αSMA (Fig. 3A) and collagen (Fig. 3B); RNA aptamer treatment repressed αSMA induction by 50% and returned collagen expression to basal values, proving that paracrine signaling involving OPN promoted fibrogenic gene expression in HSCs. In separate studies, other primary HSC cultures were treated with rOPN (100 ng/mL) or vehicle for 24 hours, and RNA was analyzed by way of QRT-PCR (Fig.
3C,D). rOPN also augmented expression of αSMA (Fig. 3C) and collagen Ia1 expression (Fig. 3D). These findings support the concept that exogenous OPN can function as a paracrine factor to promote fibrogenic 上海皓元医药股份有限公司 gene expression in HSCs. Because it has been reported that MF-HSCs themselves also express OPN,16 we next investigated changes in endogenous OPN gene expression during spontaneous culture-related activation of Q-HSCs to MF-HSCs. We confirmed that HSC expression of OPN mRNA and protein increased significantly as Q-HSCs transitioned to becoming MF-HSCs (Fig. 4A; Supporting Information Fig. 3A). Addition of OPN aptamers to day 4 cultures significantly repressed αSMA and collagen gene expression, providing novel evidence that HSC-derived OPN may help to maintain the myofibroblastic phenotype of cultured HSCs.