Fallowfield Jonathan A, Mizuno Masashi, Kendall Timothy J, Constandinou Christothea M, Benyon R Christopher, Duffield Jeremy S, Iredale John P
Liver Research Group, Southampton General Hospital, Southampton, United Kingdom.
J Immunol. 2007 Apr 15;178(8):5288-95. doi: 10.4049/jimmunol.178.8.5288.
Both the identity and source of the rodent collagenase(s) that mediates matrix remodeling in liver fibrosis remain elusive. We have recently demonstrated an unequivocal role for scar-associated macrophages (SAMs) in the spontaneous resolution of liver fibrosis and sought to determine whether SAMs are the source of matrix metalloproteinase (MMP) 13 (collagenase 3), considered to be the primary interstitial collagenase in rodents. In this study, we demonstrate an association between MMP13 expression and the presence of SAMs in the regression of experimental liver fibrosis. mmp13 gene expression was restricted to regions of fibrosis that were rich in SAMs. Both MMP13 mRNA and protein colocalized to large phagocytes within and directly apposed to hepatic scars. Using the CD11b-DTR-transgenic mouse to deplete SAMs in a model of chronic CCl(4) injury, we found that SAM depletion resulted in a 5-fold reduction in mmp13 message (p = 0.005). Furthermore, resolution of CCl(4)-induced fibrosis was retarded in MMP13-deficient mice. Thus, SAMs selectively, during resolution of fibrosis induce and use the major collagenase MMP13 to mediate the resorption of interstitial matrix and successfully remodel the fibrotic liver.
介导肝纤维化过程中基质重塑的啮齿动物胶原酶的身份和来源仍然不清楚。我们最近已经证明瘢痕相关巨噬细胞(SAMs)在肝纤维化的自然消退中具有明确作用,并试图确定SAMs是否是基质金属蛋白酶(MMP)13(胶原酶3)的来源,MMP13被认为是啮齿动物中的主要间质胶原酶。在本研究中,我们证明了在实验性肝纤维化消退过程中MMP13表达与SAMs存在之间的关联。mmp13基因表达局限于富含SAMs的纤维化区域。MMP13 mRNA和蛋白均定位于肝瘢痕内及紧邻肝瘢痕的大吞噬细胞。利用CD11b-DTR转基因小鼠在慢性CCl4损伤模型中清除SAMs,我们发现清除SAMs导致mmp13信息减少5倍(p = 0.005)。此外,MMP13缺陷小鼠中CCl4诱导的纤维化消退延迟。因此,在纤维化消退过程中,SAMs选择性地诱导并利用主要的胶原酶MMP13来介导间质基质的吸收,并成功重塑纤维化肝脏。
