Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasminogen activators convert plasminogen into plasmin, a serine protease that initiates extracellular proteolysis. Two types of plasminogen activator activities have recently been demonstrated in granulosa cells, and the proteolysis-inducing enzymes are believed to be involved in ovulation. However, little attention has been paid to the presence of these enzymes in oocytes. Using sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by a fibrin overlay technique, we studied plasminogen activator activity in oocytes. Denuded oocytes collected from ovaries of hypophysectomized, estrogen-treated immature rats contained a tissue-type plasminogen activator (tPA), but not urokinase (uPA). In contrast, oocyte-free granulosa cells in these preantral follicles contained uPA, but not tPA. The tPA activity found in oocytes was plasminogen-dependent; incubation with increasing numbers (25-200) of denuded oocytes resulted in a dose-dependent increase in fibrinolysis only in the presence of plasminogen. Cellular localization of tPA was studied in the preantral follicles using an immuno-cytochemical method. Positive tPA staining was detected in the cytoplasm, but not in the germinal vesicle or zona pellucida of the oocytes. Furthermore, analysis using a reverse fibrin-overlay method did not reveal the presence of a plasminogen activator inhibitor. Culturing of denuded oocytes for 24 h increased the cellular content of tPA, but the enzyme activity was not further enhanced by treatment with FSH or forskolin. Also, no tPA activity was detected in the medium. We further studied plasminogen activator activities in the cumulus-oocyte complexes. Although only tPA activity was detected in freshly obtained cumulus-oocyte complexes, incubation for 24 h increased both tPA and uPA activity. Furthermore, tPA, but not uPA, activity was stimulated by treatment with FSH or forskolin. This was accompanied by the secretion of tPA into the medium. The identity of tPA and uPA in the cumulus-oocyte complexes was further confirmed by immunoprecipitation with specific antibodies. Isolation of denuded oocytes and cumulus cells after hormonal stimulation of the cumulus-oocyte complexes suggested that tPA activity was stimulated in both cell types and that the cumulus cells may mediate the action of FSH and forskolin on oocytes. In conclusion, the detection and regulation of tPA activity in cumulus-oocyte complexes suggest possible involvement of this enzyme in ovulation or the process of cumulus cell expansion and dispersion. Changes in oocyte tPA content may also serve as an indicator of oocyte development.
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PMID:Identification and regulation of tissue plasminogen activator activity in rat cumulus-oocyte complexes. 309 95

Two molecular variants of plasminogen activator (PA): urokinase (uPA) and tissue-type plasminogen activator (tPA), have been reported to be synthesized in the rat testis. Data obtained in this study using monospecific antibodies raised against uPA and tPA in immunoblotting and bioimmunoassay protocols consistently demonstrate that only tPA (and not uPA) is synthesized by bovine Sertoli cell-enriched cultures, and is induced by bovine FSH. Zymographic analysis of conditioned medium on gels containing plasminogen and casein showed a dominant PA proteolytic band (72 kDa) which co-migrated with human tPA. A proteolytic band (43 kDa), which was also secreted by FSH-stimulated cells, was not present when protection was afforded from auto-proteolysis by aprotinin, and was therefore concluded to be a proteolytic fragment of tPA, and not uPA.
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PMID:Only tissue-type plasminogen activator is secreted by immature bovine Sertoli cell-enriched cultures. 312 22

FSH and GnRH both stimulate rat granulosa cells to produce tissue-type plasminogen activator (tPA). We have studied the molecular mechanisms involved in the action of these hormones by measuring tPA mRNA levels in primary cultures of rat granulosa cells. When granulosa cells were cultured in the presence of FSH or GnRH the level of tPA mRNA was increased 20- and 12-fold, respectively. The induction of tPA mRNA by FSH and GnRH was additive and the kinetics of induction differed. The effect of FSH could be mimicked by bromo-cAMP or forskolin, and was drastically enhanced by cotreatment with the phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine. These findings are consistent with the notion that FSH mediates its effect through the protein kinase A pathway. GnRH is believed to augment phospholipid turnover in granulosa cells, leading to the activation of the protein kinase C pathway. Like GnRH, the protein kinase C activator phorbol myristate acetate also induced tPA mRNA in granulosa cells. In the presence of the protein synthesis inhibitor, cycloheximide, FSH-stimulated tPA message levels were enhanced by 30-fold, revealing superinduction of tPA mRNA levels by this pathway. In contrast the induction of tPA mRNA by GnRH was inhibited by cycloheximide indicating that the synthesis of an intermediate protein is required for the GnRH effect. Our data suggest that FSH and GnRH increase the tPA mRNA levels by two distinct pathways in cultured granulosa cells, providing a model system for studying the hormonal regulation of tPA gene expression.
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PMID:Hormonal regulation of tissue-type plasminogen activator messenger ribonucleic acid levels in rat granulosa cells: mechanisms of induction by follicle-stimulating hormone and gonadotropin releasing hormone. 313 93

As stated earlier, the mammalian ovary maintains the continuous development of follicles, but only a few are selected to ovulate and form corpora lutea. These processes are regulated primarily by the gonadotropins and involve specific, sequential changes in the function of theca cells and granulosa cells. Data from recent studies (summarized in Figure 3) show that specific genes are turned on or off at different stages of follicular growth in response to estradiol and different amounts of gonadotropins and cAMP. For example, mRNA for RII51 in granulosa cells and theca cells increases in association with small increased in cAMP but is markedly reduced by the LH surge and high cAMP. The content of mRNA for other kinase subunits, RI and C alpha, show little or no change during similar hormonal changes. In theca cells, mRNA for 17 alpha-hydroxylase increased and decreased in a manner similar to that for RII51. In contrast, levels of mRNA for P450scc increased only gradually in follicles but were markedly increased by the LH surge and high concentrations of cAMP and then appeared to be constitutively expressed in rat corpora lutea in a cAMP-independent manner. PGS and t-PA appear to follow yet another pattern: rapid induction by the LH surge followed by a rapid decline in association with ovulation. One major task for reproductive endocrinologists and molecular biologists now is to determine how low and high concentrations of cAMP act to turn on and turn off the expression of these specific genes at specific times during follicular maturation. A working model of the molecular events occurring in theca and granulosa cells of PO follicles is shown in Figure 4. LH acts on theca cells via cAMP ro regulate both P450scc and P450(17) alpha mRNA levels, leading to increased biosynthesis of androstenedione. The mechanisms by which cAMP acts in theca cells remain to be determined but appear to involve an increase in the content of RII51, P450scc, and P450(17) alpha. In granulosa cells, androstenedione is converted to estradiol by the aromatase P450 enzyme system. Estradiol, in turn, binds to estradiol receptors present in these cells and may thereby regulate gene expression. However, despite the presence of estradiol and estradiol receptors, little or no effect of estradiol is observed unless FSH acts via the FSH receptor to increase intracellular concentrations of cAMP. In a manner not yet understood, cAMP appears to enhance the actions of estradiol.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Molecular aspects of hormone action in ovarian follicular development, ovulation, and luteinization. 328

Although treatment of cultured granulosa cells with gonadotropins increases their fibrinolytic activity, the biochemical nature of this effect is unclear. We have used sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and fibrin autography techniques to characterize the fibrinolytic components secreted by granulosa cells. The fibrinolytic activity of these cells results from the production of both a tissue-type plasminogen activator (t-PA) and a urokinase-like activator (u-PA). The cells also produce an inhibitor of fibrinolysis (antiactivator). FSH and LH stimulate t-PA activity and suppress antiactivator activity, while u-PA activity is not affected by the gonadotropins. The differential regulation of these molecules by the gonadotropins may be essential for ovulation.
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PMID:Cultured granulosa cells produce two plasminogen activators and an antiactivator, each regulated differently by gonadotropins. 391 58

Tissue type (t) and urokinase type (u) plasminogen activators (PA) have been shown to be secreted by Sertoli cells in the seminiferous tubules in a cyclic fashion and to be dependent upon hormonal stimulation or the presence of adjacent spermatogenic cells. Furthermore, in cultured Sertoli cells, tPA has been shown to respond to FSH induction whereas uPA appears to be nonresponsive to gonadotropins. In the present study we analyzed the production of PA by Sertoli cells and regulation of this production by FSH during puberty. Cultured Sertoli cells under basal conditions secreted predominantly uPA. This production was high in 10-day-old animals and gradually decreased in older animals. The treatment of cultures with FSH or dibutyl cAMP induced production of tPA by Sertoli cells but at the same time produced a decrease in uPA activity. Northern blot analysis revealed that the control of PA synthesis is at the steady-state level of their mRNAs. Moreover, the use of cycloheximide, a protein synthesis inhibitor, showed that while tPA stimulation did not require intermediary protein synthesis, the decrease in uPA production was dependent upon protein synthesis. The differences in PA production by Sertoli cells obtained after FSH stimulation could explain the cyclic production of the two enzymes during the spermatogenic cycle and reinforce the hypothesis that different roles are played by the two enzymes in the several events occurring in testis development.
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PMID:Hormonal regulation of urokinase- and tissue- type plasminogen activator in rat Sertoli cells. 754 41

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

Hysterectomies are frequently required operations in gynecology. Several studies have reported an association between premenopausal hysterectomy and the risk of cardiovascular diseases. However, the pathophysiological linkages between these two conditions have not been elucidated. In recent years it has been shown that a decrease in plasma fibrinolytic activity is associated with increased risk of thrombosis. Furthermore, it has been known that the uterus is a very finbrinolytic active organ. In the present study we investigated the hypothesis that hysterectomy may lead to a decrease in plasma fibrinolytic activity, and thereby increase the risk for thromboembolic diseases. Fibrinolytic parameters of plasma were investigated in 26 women before and 6 weeks after premenopausal hysterectomy. Euglobulin lysis time (ELT), a global measure of plasma fibrinolytic activity, and the levels of tissue plasminogen activator (tPA) and plasminogen activator inhibitor type 1 (PAI-1) were not different before and after hysterectomy. The ELT difference before and after venous occlusion, which is a good indicator for the risk of thrombosis, was also not significantly changed after hysterectomy. Estradiol-17 beta, progesterone, LH, FSH and sex hormone binding globulin displayed no significant changes after hysterectomy. Furthermore, the hormone measurements also indicated that the women were premenopausal. There were no correlations between the hormone values and fibrinolytic parameters. These data indicate that premenopausal hysterectomy does not lead to changes in plasma fibrinolytic activity.
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PMID:Influence of hysterectomy on the fibrinolytic activity of plasma of women with intact ovarian function. 778 59


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