Implications of Decidualization-Associated Protease Expression in Implantation and Menstruation

 

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Abstract

During progesterone-induced decidualization of estradiol (E₂)-primed human endometrial stromal cells (HESCs), the interstitial-type extracellular matrix (ECM) of the follicular phase endometrium is transformed in the luteal phase to a mixture of residual interstitial- and new basal laminar-type components. This transformation is accelerated by reduced proteolytic activity of HESCs undergoing decidualization (DZ). In cultured HESCs, progestins, but not E₂, induce the expression of several DZ markers, and E₂ enhances these effects despite the lack of response to E₂ alone. Using this well-characterized in vitro DZ model we evaluated the expression of plasminogen activators (PAs), which degrade ECM components that undergo rapid turnover, and matrix metalloproteinases (MMPs), which degrade the bulk of ECM components. Medroxyprogesterone acetate (MPA) inhibited the catalytic activity of urokinase-type PA (uPA) and tissue-type PA (tPA) as well as the expression of such MMPs as interstitial collagenase (MMP-1) and stromelysin-1 (MMP-3). Moreover, E2 + MPA elicited greater inhibitory effects on the expression of all of these proteases. Progestin inhibition of PA activities reflected reciprocal upregulation in the output of the PA inhibitor PAI-1, which produced large molar excesses of PAI-1 compared with the PAs in HESC-conditioned medium. By contrast, the tissue inhibitor of the MMPs, TIMP1, as well as gelatinase A (MMP-2), was constitutively expressed by the HESCs. In the absence of implantation, menstruation-associated degradation of the functional endometrial ECM is triggered by withdrawal of circulating ovarian steroids. This process was evaluated in cultured HESCs that were first decidualized during 10 days of exposure to E2 + MPA, and then withdrawn to steroid-free medium with and without the antiprogestin RU 486. As expected, steroid withdrawal reversed progestin-inhibited PA activity as well as the expression of MMP-1 and MMP-3 and progestin-enhanced PAI-1; much greater reversal was observed in medium supplemented with RU 486. Unlike the changes in PAI-1, neither TIMP1, nor MMP-2 expression was affected by withdrawal to steroid-free or to RU 486-medium. By altering the composition of the ECM of luteal phase endometrium, progestin-elicited inhibition of the PAs, uPA and tPA, as well as that of the MMPs, MMP-1 and MMP-3, modulates trophoblast adhesion, migration and differentiation. Conversely, steroid withdrawal elicited increases in uPA, MMP-1 and MMP-3 activities would promote endometrial sloughing by degrading the mixture of decidual cell-derived basement membrane-like proteins and interstitial components that comprise the stromal ECM of the perimenstrual endometrium.