A number of tightly regulated proteolytic enzyme systems, including the plasminogen activation cascade and matrix metalloproteases, play integral roles in the remodelling of extracellular matrices during pregnancy and parturition. This study assessed these labour-associated changes in protease activity in human gestational tissues. Amnion, choriodecidua and placenta collected from women before (at caesarean section, not in labour), during (at caesarean section, in labour) and after (spontaneous-onset labour, normal vaginal delivery) labour were examined on gelatin-substrate SDS-PAGE zymography. All tissues displayed major 55 kDa plasminogen-dependent activity that was abolished by the serine protease inhibitors (10 mmol phenylmethyl-sulphonylfluoride l-1, 100 mmol epsilon aminocaproic acid l-1, 1 mmol Glu-Gly-Arg chloromethylketone l-1). The enzymic activity was identified as urokinase plasminogen activator on the basis of its co-migration with reference standard and western blot analysis, and did not vary with labour status. An additional protease with an apparent molecular mass of approximately 90 kDa was detected in all tissues. Densitometric measurement of these tissues showed a significant (P < 0.05) increase in this enzyme activity with labour onset. Heavy metal chelators (1 mmol 1.10 phenanthroline l-1 and 10 mmol EDTA l-1) selectively blocked the 90 kDa activity, consistent with the proposal that it is a metalloprotease. Co-migration with reference standard and western blot analysis confirmed the identity of this protease as the matrix metalloprotease 9 (MMP-9). Immunoreactive MMP-9 protein was also significantly (P < 0.05) increased during and after labour compared with before labour in all tissues examined. It is proposed that the upregulated expression of MMP-9 is involved in fetal membrane rupture and placental separation during and after labour onset, respectively. In conclusion, the regulated repertoire of protease activities expressed by human gestational tissues implies an important role for matrix-degrading enzymes during human parturition.
SUMMARYThe relaxed conformation of plasminogen activator inhibitor-2 (PAIr) is formed during inactivation of the matrix-degrading enzyme urokinase plasminogen activator (uPA). The presence of PAIr in tissues, therefore, indicates the in situ inhibition of uPA-mediated proteolysis. In addition, PAIr functions as a ligand for the clearance receptor low-density lipoprotein receptor-related protein (LRP), thereby promoting internalization of receptorbound uPA-PAIr complexes from the cell surface. The rapid internalization of receptorbound, inactivated uPA has been suggested to be characteristic of invasive cell phenotypes. The aims of this study were to characterize the immunohistochemical localization of PAIr in human term gestational tissues (amnion, choriodecidua, and placenta) and to establish its co-expression with other components of the uPA cascade. The results obtained indicate that PAIr immunoreactivity was exclusively localized to amnion epithelial cells, with only minimal staining in the underlying chorion. PAIr immunoreactivity was not detectable in any of the trophoblastic tissues examined (villous and extravillous). The tissue-specific expression of PAIr immunoreactivity was not significantly altered in association with labor onset. uPA and PAI-2 staining was localized predominantly to amnion epithelial cells, underlying chorion, and trophoblast cells of villous and extravillous tissue. Amnion and trophoblasts of extravillous and chorionic tissue showed uPAR immunoreactivity, whereas staining in placenta was absent. Immunoreactive LRP was confined to trophoblasts of the chorion, and the villous and extravillous tissue. For the first time, localization of PAIr at the tissue level has been identified. The data obtained are consistent with the hypothesis that cells of invasive phenotype, although expressing all components of the uPA cascade, do not accumulate immunoreactive PAIr, because it is rapidly internalized from the cell surface. Conversely, cells of noninvasive phenotype will accumulate PAIr immunoreactivity only in the absence of LRP expression. We propose that the presence of PAIr and the absence of LRP at the cell surface are putative markers of noninvasive phenotypes.
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