Leyland H, Gentry J, Arthur M J, Benyon R C
University Medicine, Southampton General Hospital, England.
Hepatology. 1996 Nov;24(5):1172-8. doi: 10.1002/hep.510240532.
Urokinase plasminogen activator (uPA) generates plasmin, a process inhibited by plasminogen-activator inhibitor (PAI)-1 and localized to the cell surface by binding of uPA to a specific receptor. Plasmin degrades extracellular matrix (ECM) both directly and by activation of matrix metalloproteinases (MMPs). Because stellate cells play a central role in the pathogenesis of liver fibrosis both via production of ECM proteins and through secretion of MMPs, their contribution to plasmin generation was assessed. Stellate cells were prepared from rat liver and cultured on plastic. Northern analysis showed cellular expression of messenger RNA (mRNA) for PAI-1, uPA, and uPA receptor. Zymography/reverse zymography identified cell-surface-associated uPA activity and uPA and PAI-1 in culture media. Net uPA activity in culture media was maximal after 7 days in culture and then declined, whereas PAI-1 antigen levels remained consistently elevated between 7 and 21 days in culture. Stellate cell-mediated plasmin generation was also seen in in vitro cultures supplemented with plasminogen. Because hepatic stellate cells (HSCs) contain retinoids and release them on activation, the effect of retinoic acid on the plasminogen-activating system was also assessed. Treatment of cultured HSCs with retinoic acid (1 micromol/L) increased uPA secretion 2.6-fold but did not alter PAI-1. We conclude that stellate cells synthesize key components of the plasminogen-activating system and generate plasmin and therefore have the ability to regulate MMP activation. Upregulation of uPA synthesis by retinoic acid may have implications in matrix remodeling in sites of stellate cell activation in which high concentrations of retinoids may be achieved.
尿激酶型纤溶酶原激活物(uPA)可生成纤溶酶,该过程受到纤溶酶原激活物抑制剂(PAI)-1的抑制,并且uPA通过与特定受体结合而定位在细胞表面。纤溶酶可直接降解细胞外基质(ECM),也可通过激活基质金属蛋白酶(MMPs)来降解。由于星状细胞在肝纤维化发病机制中通过产生ECM蛋白和分泌MMPs发挥核心作用,因此评估了它们对纤溶酶生成的贡献。从大鼠肝脏制备星状细胞并在塑料培养皿上培养。Northern分析显示细胞表达PAI-1、uPA和uPA受体的信使核糖核酸(mRNA)。酶谱分析/反向酶谱分析鉴定了培养基中细胞表面相关的uPA活性以及uPA和PAI-1。培养基中的净uPA活性在培养7天后达到最大值,然后下降,而PAI-1抗原水平在培养7至21天之间持续升高。在补充了纤溶酶原的体外培养物中也观察到星状细胞介导的纤溶酶生成。由于肝星状细胞(HSCs)含有视黄醇并在激活时释放它们,因此还评估了视黄酸对纤溶酶原激活系统的影响。用视黄酸(1微摩尔/升)处理培养的HSCs可使uPA分泌增加2.6倍,但不改变PAI-1。我们得出结论,星状细胞合成纤溶酶原激活系统的关键成分并生成纤溶酶,因此具有调节MMP激活的能力。视黄酸上调uPA合成可能对星状细胞激活部位的基质重塑有影响,在这些部位可能会达到高浓度的视黄醇。
