UNIPROT:P00750 - FACTA Search

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ovulation, recurring every midcycle of the mammalian female and triggered by a surge of luteinizing hormone (LH) released from the pituitary, is an essential prerequisite for fertilization and subsequent embryonic development. Here we shall describe two of the biological components of the ovulatory response, cumulus expansion (frequently denoted as cumulus maturation) and the rupture of follicular wall, both crucial for the release of a fertilizable ovum. The role of a proteolytic cascade and its regulation by eicosanoids will be emphasized in relation to follicle rupture. The new data implicating cumulus maturation as an essential step for the release of the ovum and the apparent mediatory role of interleukin-1 in this process will be presented. LH/hCG stimulates, in the preovulatory follicles, a cascade of proteolytic enzymes, including plasminogen activator (PA), plasmin and matrix metalloproteinase 1 (MMP-1). These enzymes bring about the degradation of perifollicular matrix and, most notably, the decomposition of the meshwork of collagen fibers which provides the strength to follicular wall. Furthermore, pharmacological blockage of any of these enzymes resulted in inhibition of follicle rupture. LH/hCG stimulates, in addition, an increase in ovarian production of eicosanoids. These include prostaglandins, obtained from arachidonic acid via the cyclooxygenase pathway and leukotrienes, the products of lipoxygenase. Previous studies from our and other laboratories have demonstrated the ability of inhibitors of cyclooxygenase and of lipoxygenases to suppress ovulation in several mammalian species. MK-886, which inhibits the translocation of 5-lipoxygenase (5-LO) from the cytosol and its binding to the membranal 5-LO activating enzyme, suppressed dose-dependently follicular rupture from the treated ovary. Zymographic analysis of ovarian extracts from PMSG/hCG-stimulated rats revealed a band of collagenolytic activity at 52kD, corresponding to human MMP-1 and at 72kD, corresponding to human MMP-2. Both activities were markedly stimulated by administration of hCG and were significantly inhibited by indomethacin, NDGA or MK-886. Thus, eicosanoids seem to mediate LH stimulation of follicular collagenase. Interleukin-1 (IL-1) has been recently implicated in ovulation. The ability of an IL-1 receptor antagonist (ra) to block ovulation in vivo and in vitro has been demonstrated recently. Morphological examination of the ovulatory follicles failing to ovulate suggests that this effect is exerted by inhibiting cumulus oophorus expansion and detachment from mural granulosa cells. In vitro, IL-1ra attenuated the action of hCG and FSH on cumulus expansion and follicular hyaluronic acid synthesis. Thus, IL-1 seems to mediate and/or facilitate gonadotropin action on cumulus expansion, and hence on ovulation.
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PMID:Ovulation as a tissue remodelling process. Proteolysis and cumulus expansion. 748 19

We investigated the effect of gonadotropins on protease that were suggested to be implicated in the invasive activity of the trophoblast. hCG levels ranging from 10 x 10(3) to 333 x 10(3) IU/L produced a dose-dependent inhibition of the in vitro globinolytic activity of the purified proteases trypsin, chymotrypsin, and urokinase, but failed to inhibit plasmin, collagenase, elastase, and tissue-type plasminogen activator. Likewise, FSH inhibited purified trypsin and urokinase, but not plasmin or tissue-type plasminogen activator. Culture medium conditioned with human trophoblast displayed serine protease and urokinase-like activities; exposure of the cultured trophoblast to exogenous hCG markedly suppressed serine protease and urokinase activities in the conditioned medium. A short treatment of the conditioned medium with trypsin abolished the hCG-mediated inhibition of urokinase activity. The present findings offer an explanation for earlier observations that hCG reduced collagenase activity in trophoblasts without affecting the level of collagenase-specific mRNA. The present results are also consistent with the concept that hCG, by its direct ability to inhibit certain serine proteases and urokinase in trophoblast, suppresses a protease-mediated conversion of procollagenase to active collagenase. The ability of hCG to prevent initiation of the collagenolytic cascade suggests that gonadotropins may regulate the transient invasive activity of the trophoblast.
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PMID:Gonadotropin-mediated inhibition of proteolytic enzymes produced by human trophoblast in culture. 768 89

In the present study, we have examined the influence of transforming growth factor-alpha (TGF alpha) and FSH in vitro on the granulosa cell plasminogen activator (PA) system accompanying cell proliferation and differentiation during follicular development. Undifferentiated and differentiated rat granulosa cells from diethylstilbestrol (DES)- and eCG-treated immature rats, respectively, were cultured in medium containing FSH (400 ng/ml), TGF alpha (0.5-50 ng/ml), and/or transforming growth factor-beta (TGF beta; 25-100 ng/ml). Net secreted PA (PAs) and cell-associated PA (PAc) activities were higher in differentiated cells and were stimulated by TGF alpha (but not by TGF beta) in a concentration-dependent manner. Basal and FSH-stimulated PAs was higher than PAc and accounted for 70-80% of the total PA activity in both cell preparations. FSH-stimulated PA activities increased in undifferentiated granulosa cells but decreased in differentiated cells with increased duration of culture. A biphasic effect (stimulatory in the first 24 h and inhibitory thereafter) of TGF alpha on FSH-induced PA activities was observed in the cultures of undifferentiated granulosa cells. Whereas both urokinase (uPA) and tissue (tPA) PA appeared to be present in cultures of granulosa cells from DES-treated rats, only tPA could be detected in those from eCG-treated animals. TGF alpha increased basal tPA activity at both stages of follicular development but inhibited activities of uPA in undifferentiated granulosa cells, irrespective of the presence of FSH. This growth factor stimulated basal progesterone (P) and 20 alpha-dihydroprogesterone (20 alpha-OH-P) secretion (an index of granulosa cell differentiation), the effect being more pronounced at the late stage of follicular development.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Follicular stage-dependent regulation of rat granulosa cell plasminogen activator system by transforming growth factor-alpha in vitro. 771 Dec 10

The objective of the present in vitro study was to examine the potential modulatory influence of tumor necrosis factor-alpha (TNF alpha) on the granulosa cell plasminogen activator (PA) system during follicular development. Undifferentiated and differentiated rat granulosa cells of preantral follicles and antral follicles, respectively, were cultured in a chemically defined medium with or without TNF alpha and in the absence or presence of FSH (400 ng/ml). TNF alpha (0.5-50 ng/ml) inhibited basal and FSH-induced net PA activities in cultures of granulosa cells from preantral and antral follicles in a concentration- and time-dependent manner. Although PA activities with corresponding molecular masses of 55 kDa and 30 kDa (tissue-[tPA] and urokinase-[uPA] type PA, respectively) were observed in culture of undifferentiated granulosa cells, only tPA was detectable in differentiated cells. Concomitant to the stimulation in PA activities by FSH was a marked increase in progestin secretion and a decrease in DNA synthetic capacity at both stages of follicular development. Independent of the differentiative state of the granulosa cells, TNF alpha suppressed FSH-stimulated tPA activity, but potentiated FSH-induced uPA activity in undifferentiated granulosa cells. The inhibition of the gonadotropin action by TNF alpha was accompanied by an increase in PA inhibitor activity, which was more pronounced in cultures of differentiated granulosa cells. TNF alpha inhibited FSH-induced progestin secretion and reversed the action of the gonadotropin on DNA synthesis irrespective of stage of follicular maturation. These studies demonstrate that TNF alpha modulates gonadotropic action on granulosa cell differentiation (PA and progestin secretion) and proliferation (DNA synthesis) during follicular development.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tumor necrosis factor alpha inhibits rat granulosa cell plasminogen activator activity in vitro during follicular development. 777 96

Growth hormone-releasing factor (GRF) and vasoactive intestinal peptide (VIP) are two structurally homologous peptides sharing common target cell receptor and known to enhance FSH-induced steroidogenesis of undifferentiated granulosa cell in vitro. Although VIP, has been reported to stimulate plasminogen activator (PA) activity in rat granulosa cells, our knowledge on the actions and interactions of these two peptides with FSH in the regulation of rat granulosa cell PA system during follicular development remains incomplete. Undifferentiated and differentiated rat granulosa cells from pre-antral (DES-treated rats) and antral (eCG-treated rats) follicles, respectively, were cultured in a chemically defined medium in the absence and presence of FSH (400 ng/ml), GRF (10(-8)-10(-5) M) and/or VIP (10(-9)-10(-5) M). Net secreted (PAs) and cell-associated (PAc) PA activities was measured by the fibrinolysis assay and characterized by the fibrin overlay method. Granulosa cell differentiative (progestin secretion) and proliferative (DNA synthesis) responses were analyzed by radioimmunoassay and [3H]thymidine incorporation, respectively. Both GRF and VIP stimulated PAs and PAc activities in a concentration-dependent manner in 24-h cultures of granulosa cells from the two stages of follicular development. They (10(-5) M) enhanced FSH-stimulated PAs activity in granulosa cell cultures of pre-antral follicles, with GRF being more effective than VIP. On the contrary, only GRF (10 microM) potentiated FSH-induced PAs and PAc activities in cultures of granulosa cell from antral follicles. The stimulation of PA activity by these agonists decreased with the duration of culture irrespective of the stage of follicular development.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Growth hormone releasing factor and vasoactive intestinal peptide stimulate rat granulosa cell plasminogen activator activity in vitro during follicular development. 779 29

Following the preovulatory surge of gonadotropins, the compact layer of cumulus cells in the antral follicle secretes a hyaluronic acid-enriched extracellular matrix and undergoes a morphological change referred to as cumulus expansion. It has been previously shown that a soluble factor(s) produced by the oocyte is required, in combination with FSH, to promote this process. Since such matrix is sensitive to proteases we have now studied the effect of the oocyte on another gonadotropin-controlled follicle cell function, i.e., the synthesis of plasminogen activator (PA). Our data indicate that isolated cumulus cells secrete uPA in the medium and that FSH or dbcAMP increases this production. The presence of the oocyte or the oocyte-conditioned medium greatly reduces uPA synthesis induced by FSH and dbcAMP in cumulus cells by modulating the abundance of its mRNA. The ability of the mouse oocyte to produce such a factor(s) is dependent upon its stage of development, with fully grown oocytes but not growing oocytes or two-cell embryos being able to inhibit uPA synthesis. A preliminary characterization of this factor suggests that it is a heat-unstable protein with an apparent molecular weight above 100 kDa. Thus, the mouse oocytes appear to promote preovulatory matrix accumulation that occurs just prior ovulation by modulating the gonadotropin action on both the synthesis and the degradation of specific matrix component.
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PMID:Mouse oocytes inhibit plasminogen activator production by ovarian cumulus and granulosa cells. 785 58

Granulosa cells from ovarian follicles were shown to express and secrete fibrinogen under the control of FSH. Conditioned medium was collected from granulosa cell cultures and found to contain FSH-dependent 50-kilodalton (kDa) and 93- to 95-kDa proteins. N-Terminal microsequence analysis identified these proteins as fibrinogen beta- and gamma-chains, respectively. Proteins migrating at 93 and 95 kDa contain identical gamma-chain sequences at the N-terminal, suggesting differential processing of fibrinogen. These fibrinogen chains were specifically detected with antifibrinogen antibodies in immunoblot and immuno-precipitation analysis. Fibrinogen gamma-chain mRNA was detected in granulosa cells by polymerase chain reaction analysis, confirming fibrinogen gene expression by these cells. Fibrinogen secretion by granulosa cells was measured by a competitive enzyme-linked immunosorbent assay. Granulosa cells treated with FSH (100 ng/ml) secreted 2-3 times more fibrinogen than untreated cells. These data show that fibrinogen, a major product of the liver, is also a secretory product of granulosa cells. This provides a novel extrahepatic site of fibrinogen expression. As hepatic parenchymal cells normally maintain high circulating levels of fibrinogen, the local production of fibrinogen in the ovary is anticipated to have specialized functions. Locally produced fibrinogen may be important in the clotting process following tissue rupture at ovulation. In addition, fibrinogen fragments may be involved in the mechanism of ovulation by increasing the activity of tissue-type plasminogen activator to control the proteolytic activity required for ovulation.
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PMID:Extrahepatic expression of fibrinogen by granulosa cells: potential role in ovulation. 840 5

Tissue remodeling that accompanies ovarian follicular cell proliferation and migration during follicular maturation and ovulation involves enzymatic degradation of extracellular matrix by proteases such as plasminogen activator (PA). However, the potential role of interleukin-1 beta (IL-1 beta) in the regulation of the rat granulosa cell PA system during folliculogenesis is not known. In vitro treatment of both undifferentiated and differentiated granulosa cells with FSH (400 ng/ml) elicited a significant increase in secreted (PAs) and cell-associated (PAc) PA activities, which were inhibited by IL-1 beta (0.5-50 ng/ml) in a concentration- and time-dependent manner. Basal PAs and PAc activities were stimulated in cultures of undifferentiated granulosa cells by IL-1 beta but attenuated in differentiated ones. The inhibitory effect of IL-1 beta was accompanied by an increase in PA inhibitor (PAI) activity irrespective of the stage of follicular development. Both urokinase-type PA (uPA; 30 kDa) and tissue-type PA (tPA; 55 KDa) activities were present in cultures of undifferentiated granulosa cells, but only tPA was detectable in differentiated granulosa cell cultures. Activity of both enzymes was stimulated by FSH but inhibited by the cytokine in vitro. Whereas FSH-induced differentiation of granulosa cells as indicated by an increase in progesterone (P) secretion was attenuated by IL-1 beta irrespective of the cytodifferentiative state of granulosa cells, the inhibitory effect of gonadotropin on DNA synthesis was reversed by the cytokine at both stages of follicular maturation. These findings suggest that during ovarian folliculogenesis, IL-1 beta may modulate the progression of granulosa cells from a proliferative to a differentiated state and may play a control role in determining the fate of the follicle (i.e., ovulation vs. atresia).
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PMID:Regulation of rat granulosa cell plasminogen activator system: influence of interleukin-1 beta and ovarian follicular development. 856 85

To elucidate the possible role of plasminogen activator (PA) in spermatogenesis and spermiation in mammals, we studied the hormonal regulation of PA secretion in cultured rat and mouse seminiferous tubules during defined stages of spermatogenesis. Results indicated that: (1) under basal conditions, segments of rat seminiferous tubules released primarily urokinase-type PA (uPA) at all stages of the cycle. The highest level of PA secretion occurred at stages VIIab, VIIcd and VIII. FSH, 8-bromo cyclic AMP and forskolin (FK) stimulated PA secretion, predominantly tissue-type PA (tPA). (2) In contrast, mouse seminiferous tubules secreted only tPA under basal conditions. In the presence of 50 microM MIX, seminiferous tubules at stages VII and VIII secreted higher levels of both types of PA than at the other stages. Both tPA and uPA secretion was enhanced by addition of FSH and FK to the organ culture media. (3) Segments of both rat and mouse seminiferous tubules at stages IX-XII in which the sperm residual bodies are absorbed into the Sertoli cells were also very sensitive to the addition of FSH to the organ culture. These results suggest that tPA in rat and mouse testes may play an essential role in the process of spermatogenesis and spermiation as well as in sperm residual body absorption.
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PMID:Hormonal regulation of plasminogen activator in rat and mouse seminiferous epithelium. 872 Jun 90

In the present study we report the isolation and characterization of a clonal Sertoli cell line (42GPA9) from sexually mature polyoma virus large T (PyLT) transgenic mice. The cells multiplied indefinitely and expressed large T antigen. The 42GPA9 cell line expressed biochemical features associated with normal Sertoli cells. Transferrin, sulfated glycoprotein-2, and the ligand of c-kit were detected by reverse transcription-polymerase chain reactions and Western blot analyses. Zymographic analysis indicated that the 42GPA9 cell line secreted tissue-type plasminogen activator. These cells also retained FSH receptors as suggested by their specific responsiveness to the gonadotropin (morphological and phagocytic changes, stimulation of cAMP production) and the detection of FSH receptor mRNAs. Another original aspect of the 42GPA9 cell line is its ability to form tight junctions at confluency as demonstrated by electron microscopic study and immunolocalization of the tight junction-associated protein zonula occludens 1. The 42GPA9 cell line, which has retained several important hallmarks of normal Sertoli cells, may prove useful for further studies on Sertoli cell behavior and on Sertoli-germ cell interactions in the mature testis.
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PMID:Characterization of a clonal Sertoli cell line using adult PyLT transgenic mice. 947 18

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