UNIPROT:P00750 - FACTA Search

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

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

To examine whether plasminogen activator reflects the functional state of estrogen receptors in human breast cancer, the enzyme activities were determined in extracts prepared from 160 breast cancer specimens and compared on qualitative and quantitative bases with the levels of steroid receptors, such as cytoplasmic estrogen receptor (ERC), progesterone receptor (PgR) and nuclear estrogen receptor (ERN). With any receptor, plasminogen activator activity was significantly higher in receptor-positive tumors than in receptor-negative tumors. When these breast tumors were categorized into 8 groups in terms of combinations of receptor status, breast cancers which were positive for all these receptors were found to contain the highest plasminogen activator activity. Furthermore, quantitative analyses demonstrated positive correlations of the enzyme activity with either ERC content (correlation coefficient +0.37, P less than 0.001) or PgR content (correlation coefficient +0.45, P less than 0.001). These results strongly suggest that plasminogen activator can be used as an effective functional marker for hormone dependence in human breast cancer.
...
PMID:Plasminogen activator as a functional marker for estrogen dependence in human breast cancer cells. 308 29

The total plasminogen activator (PA) activity and the activities of urokinase type (uPA) and tissue type (tPA) plasminogen activators were measured in 43 primary human breast cancer homogenates. The majority of the PA activity was found in the 100,000 X g crude membrane pellets (log mean of 490 milli-IU/mg of protein, +1169, -346), and little PA activity was present in the cytosolic supernatant (log mean of 19 milli-IU/mg of protein, +168, -17). The activities of total PA and of each type of PA were compared to the estrogen receptor (ER) and epidermal growth factor receptor (EGFR) status of the tumors and to their histological grade. Total PA activity and uPA activity were not significantly different in any group of tumors stratified according to receptor status or tumor grade. Tissue type PA levels, however, were significantly lower in ER-negative compared with ER-positive tumors and in EGFR-positive compared with EGFR-negative tumors (P less than 0.01 and less than 0.05, respectively). The tPA activity was also related to grade, decreasing with worsening differentiation (P = 0.04). The ER-negative tumors were further stratified into EGFR-positive and -negative subgroups. Only the ER-negative tumors possessing EGFR had significantly lower tPA levels than the ER-positive tumors (P less than 0.01). Low tPA levels in breast cancers were, therefore, associated with ER negativity combined with EGFR positivity and may be an indication of poorer differentiation and prognosis.
...
PMID:Relationship of membrane-bound tissue type and urokinase type plasminogen activators in human breast cancers to estrogen and epidermal growth factor receptors. 314 Oct 47

Tamoxifen aziridine (TA), an antiestrogen-based affinity label for the estrogen receptor, is highly selective and efficient in its covalent binding to the estrogen receptor (Katzenellenbogen et al., J. biol. Chem. 258 (1983) 3487-3495). Thus, it was of interest to investigate the biological character and potency of this compound and, in particular, to determine if the irreversible attachment of this tamoxifen-derived compound to the estrogen receptor would result in enhanced antiestrogenic properties or in unusual biological activity. The effect of tamoxifen aziridine and tamoxifen (Tam), the parent compound which is an antiestrogen that binds reversibly to the estrogen receptor, were compared with respect to their effects on uterine growth, growth of dimethylbenzanthracene (DMBA)-induced mammary tumors in rats, and proliferation and plasminogen activator activity of MCF-7 human breast cancer cells. In immature (day 20) rats, Tam and TA behaved as weak estrogen agonists and estrogen antagonists in that Tam or TA alone increased uterine weight to levels lower than that evoked by estradiol (E2), and both were able to suppress the stimulation of uterine weight evoked by E2. Administration of Tam and TA via Alzet minipumps (25 or 200 micrograms/rat/day) to mature rats bearing DMBA-induced mammary tumors resulted in marked regression and/or disappearance of most tumors. Uterine weights were also suppressed in these mature rats by Tam and TA. Tam was slightly more potent than TA in evoking tumor regression and in suppressing uterine weights in these in vivo studies. In MCF-7 human breast cancer cells in culture, Tam and TA suppressed cell proliferation and evoked no increase in plasminogen activator activity by themselves, while being very effective in preventing plasminogen activator activity stimulation by E2. Thus, TA displayed a bioactivity profile similar to that of Tam, the reversibly binding ligand, in vitro and in vivo. The covalent attachment of TA to the receptor does not, therefore, markedly alter the biological character or potency of the antiestrogen receptor complex.
...
PMID:Biological activities of tamoxifen aziridine, an antiestrogen-based affinity label for the estrogen receptor, in vivo and in vitro. 393 47

Antiestrogens have proven to be effective in controlling the growth of hormone-responsive breast cancers. At the concentrations of antiestrogens achieved in the blood of breast cancer patients taking antiestrogens (up to 2 X 10(-6) M), antiestrogens selectively inhibit the proliferation of estrogen receptor-containing breast cancer cells, and this inhibition is reversible by estradiol. Antiestrogens also inhibit estrogen-stimulation of several specific protein synthetic activities in breast cancer cells, including increases in plasminogen activator activity, progesterone receptor levels and production of several secreted glycoproteins and intracellular proteins. Antiestrogens bind with high affinity to the estrogen receptor and to additional microsomal binding sites to which estrogens do not bind. These latter sites, called antiestrogen binding sites (AEBS), are present in equal concentrations in estrogen receptor-positive and -negative breast cancer cells and are present in a wide variety of tissues, with highest concentrations being found in the liver. The antiestrogenic and growth suppressive potencies of a variety of antiestrogens correlate best with their affinity for estrogen receptor and not with affinity for AEBS. Antiestrogens undergo bioactivation and metabolism in vivo and hydroxylated forms of the antiestrogen have markedly enhanced affinities for the estrogen receptor. Detailed studies with high affinity radiolabelled antiestrogens indicate that antiestrogens induce important conformational changes in receptor that are reflected in the enhanced maintenance of a 5 S form of the estrogen receptor complex; reduced interaction with DNA; and altered activation and dissociation kinetics of the antiestrogen-estrogen receptor complex. These conformational changes effected by antiestrogens likely result in different interactions with chromatin, causing altered cell proliferation and protein synthesis. Analyses of the rates of synthesis and turnover of the estrogen receptor through pulse-chase experiments utilizing the covalently attaching antiestrogen, tamoxifen aziridine, and studies employing dense amino acid labeling of estrogen receptor reveal that the antiestrogen-occupied receptor is degraded at a rate (t 1/2 = 4 h) similar to that of the control unoccupied receptor. Hence, antiestrogens do not prevent estrogen receptor synthesis and they do not either accelerate or block estrogen receptor degradation.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Antiestrogen action in breast cancer cells: modulation of proliferation and protein synthesis, and interaction with estrogen receptors and additional antiestrogen binding sites. 402 93

The antiestrogenic character and potency of 4-(N,N-diethylaminoethoxy)-4'-methoxy-alpha-(p-hydroxyphenyl)-alpha' -ethylstilbene (H1285) and its binding to estrogen receptor and to estrogen-noncompetible antiestrogen binding sites have been studied in MCF-7 human breast cancer cells. H1285 has an affinity for the estrogen receptor (Kd 0.23 nM) which is comparable to that of estradiol (Kd 0.25 nM), and the binding of these two compounds to estrogen receptor is mutually competitive. On high salt sucrose gradients, the sedimentation profiles of nuclear receptor complexes with H1285 and estradiol are different. While the sedimentation profile of the complex with estradiol varies with the buffer composition, being 4.1S in phosphate:thioglycerol: glycerol and predominantly 5.5S in Tris:EDTA buffered gradients, the H1285 receptor complex shows the same sedimentation (5.5S) regardless of the buffer composition. H1285 also binds to estrogen-noncompetable antiestrogen binding sites that are distinct from the estrogen receptor with a low affinity, only 15% that of the antiestrogen tamoxifen. The biological character and potency of H1285 were examined by determining its effects on cell proliferation, cellular progesterone receptor levels, and plasminogen activator activity. In MCF-7 cells, H1285 was a 30- to 100-fold more potent inhibitor of cell proliferation than was the antiestrogen tamoxifen, and it was approximately equipotent with the higher affinity antiestrogen trans-hydroxytamoxifen. H1285 evoked very minimal increases in cellular progesterone receptor levels, and no increase in plasminogen activator activity over a broad range of concentrations (10(-10)-10(-6)M), and it suppressed plasminogen activator activity stimulated by estradiol. Therefore, by the criteria we have used, we conclude that H1285 is a potent and very effective antiestrogen in MCF-7 cells. The ability of estradiol to reverse the suppression of cell proliferation by H1285, and the high affinity of H1285 for estrogen receptor and its low affinity for estrogen-noncompetible antiestrogen binding sites suggest that H1285 exerts its antiestrogenic effects via interaction with the estrogen receptor of these breast cancer cells.
...
PMID:Antiestrogenic potency and binding characteristics of the triphenylethylene H1285 in MCF-7 human breast cancer cells. 404 Aug 7

Plasminogen activator is a protease which catalyses the conversion of the inactive plasminogen to the active plasmin. Most transformed cell lines and solid tumors produce elevated levels of plasminogen activator compared with nontransformed counterparts. This increased synthesis of plasminogen activator may play a role in tumorigenesis, cancer invasion and metastasis. Measurement of plasminogen activator in tumor extracts and body fluids may provide diagnostic and prognostic information. Finally, since plasminogen activator is an estradiol-inducible enzyme, its measurement in breast carcinomas might be a marker for a functional estrogen receptor.
...
PMID:Plasminogen activator and cancer. 637 29

Hormonal regulation of plasminogen activator in rat mammary tumor induced by 7,12-dimethylbenz[a]anthracene (DMBA) was studied both in vivo and in vitro. Plasminogen activator activity in DMBA-induced tumor (DMBA-tumor) was markedly decreased by ovariectomy, and recovered in a dose-dependent fashion upon estradiol administration, reaching a maximal level at 12 hr. This estrogen-stimulated production of the enzyme was prevented by actinomycin D, cycloheximide, and tamoxifen, indicating that in DMBA-tumor, estrogen might regulate de novo synthesis of plasminogen activator at a transcriptional level via an estrogen receptor system. Furthermore, DMBA-tumor cells in primary culture displayed similar estrogen-dependency toward the production of the enzyme without any cell proliferation. This indicates that the action of estrogen is mediated neither by cell division nor by prolactin, another hormone pastulated to be responsible for the development and growth of DMBA-tumor. Taken together, the present results have led to support the view that the primary function of estrogen is to induce plasminogen activator, which is probably essential to maintain the malignant state of DMBA-tumor.
...
PMID:Estrogen-dependent plasminogen activator in 7,12-dimethylbenz[a]anthracene-induced rat mammary tumors in vivo and in vitro. 643 30

Tamoxifen is used widely in the treatment of endocrine-responsive breast cancers in humans. Studies were undertaken to examine the biological character (estrogenic-antiestrogenic properties) and estrogen receptor (ER) interaction of the cis- and trans-isomers of tamoxifen and hydroxytamoxifen in MCF-7 human breast cancer cells. For each compound, the following parameters were monitored: affinity for ER and effects on cellular ER levels; stimulation-inhibition of cell growth, plasminogen activator activity, and cellular progesterone receptor levels; and isomer interconversion and metabolism in vitro. The relative binding affinities of the compounds cis-tamoxifen, trans-tamoxifen, cis-hydroxytamoxifen, and trans-hydroxytamoxifen for cytosol ER were 0.3, 2.5, 1.8, and 310%, respectively, in which the affinity of estradiol is considered 100%. cis-Tamoxifen behaved as a weak estrogen agonist in all assays, while trans-tamoxifen was an effective estrogen antagonist. cis-Tamoxifen behaved like estradiol in stimulating MCF-7 cell growth and increasing plasminogen activator activity and cellular progesterone receptor content, although very much higher concentrations of cis-tamoxifen (10(-6) M) were needed to achieve the levels of stimulation observed with 10(-10) M estradiol. trans-Tamoxifen and trans-hydroxytamoxifen suppressed cell growth, inhibited plasminogen activator activity of control cells, and suppressed estradiol-stimulation of plasminogen activator activity, and they evoked minimal increases in cellular progesterone receptor levels. trans-Hydroxytamoxifen had a 100-fold increased affinity for ER and was approximately 100-times more potent than was trans-tamoxifen in suppressing cell growth and plasminogen activator activity. cis-Hydroxytamoxifen behaved as an estrogen antagonist, suppressing cell growth and plasminogen activator activity, and it elicited submaximal increases in progesterone receptor levels. This apparently paradoxical behavior of cis-hydroxytamoxifen was shown to be due to the fact that the cis- and trans-hydroxytamoxifens readily undergo isomeric interconversion upon exposure to our cell culture conditions, resulting in substantial accumulation of the higher-affinity trans-hydroxytamoxifen in the nuclear ER fraction of cells. In contrast to the facile interconversion of the hydroxytamoxifen isomers, there is no metabolism or interconversion of the parent compounds cis- and trans-tamoxifen in vitro. Hence, by the criteria we have used, the biological characters of trans-tamoxifen and trans-hydroxytamoxifen are similar, the major difference being the approximately 100-fold enhanced potency of the hydroxylated form. In contrast, cis-t
...
PMID:Bioactivities, estrogen receptor interactions, and plasminogen activator-inducing activities of tamoxifen and hydroxy-tamoxifen isomers in MCF-7 human breast cancer cells. 653 99

MCF-7 human breast cancer cells secrete two immunologic types of plasminogen activator, one related to urokinase, the other unrelated. We have now examined whether estrogen stimulation of secreted plasminogen activator activity reflects an increase in one or both types. Examined semiquantitatively by sodium dodecyl sulfate-polyacrylamide gel electrophoretic zymography, the conditioned media of control cells were seen to contain a major activator band (Mr approximately 54,000) immunologically related to urokinase and a barely discernible doublet (Mr approximately 64,000 and Mr approximately 68,000). Addition of estradiol or, at much higher concentrations, testosterone led to marked enhancement of doublet activity, while the 54-kDa band was invariant. The 64-68-kDa doublet was immunoreactive with antiserum directed against Bowes melanoma tissue plasminogen activator but not with antiurokinase antibodies. Enhancement of doublet activity was correlated with hormone-induced increases in total secreted plasminogen activator activity. Neither progesterone nor dexamethasone increased total activity or the 64-68-kDa zones of lysis. Estradiol and testosterone alterations were blocked by appropriate concentrations of an estrogen antagonist (LY156758), actinomycin D, or cycloheximide. Regulation of MCF-7 cell-secreted tissue plasminogen activators thus appears to be mediated by an estrogen receptor process and to require sustained RNA and protein synthesis.
...
PMID:Estradiol preferentially enhances extracellular tissue plasminogen activators of MCF-7 breast cancer cells. 654 3

A substantial proportion of human breast cancers contain estrogen receptors, and it is believed that the growth of some of these tumors and their synthesis of specific proteins are stimulated by estrogens. Since natural estrogens, such as estradiol, react reversibly with estrogen receptors, it was of interest to determine the biological consequences that would result from very strong, possibly irreversible interaction of an estradiol-based ligand with the estrogen receptor of breast cancer cells. For these studies, we have examined the receptor interactions and biological character of 11 beta- chloromethylestradiol (CME) and 11 beta- bromomethylestradiol (BME) as potential estradiol-based affinity labeling ligands in MCF-7 human breast cancer cells which contain high levels of estrogen receptors. The apparent relative binding affinities of CME and BME for MCF-7 estrogen receptor measured by competitive binding assay are 230 and 15%, respectively, whereas the affinity of estradiol is considered 100%. Incubation of receptor preparations from MCF-7 cells or rat uteri with CME at 21 degrees results in a concentration- and time-dependent decrease in receptor content measured by exchange assays with [3H]estradiol. This may be due to covalent attachment of CME to receptor and is termed "inactivation." Inactivation of 80 to 85% of the receptors occurs within 30 min at 21 degrees by exposure to 5 or 20 nM CME, with 2 nM giving 20 to 40% inactivation. This receptor inactivation is prevented by preincubation with 2000 nM estradiol, indicating that the interaction of CME is occurring at the estradiol binding site on the receptor. MCF-7 cells incubated with 20 nM CME show a rapid loss of cytosol receptor sites and no accumulation of receptors detectable by exchange assay in the nucleus, while 20 nM estradiol shows nuclear localization of receptor. BME, in contrast, inactivates only a portion (approximately 40%) of estrogen receptors. CME and BME both behave as estrogen agonists. They stimulate the proliferation of MCF-7 cells and increase cellular progesterone receptor content and plasminogen activator activity. CME is at least as potent as estradiol on a molar basis in increasing all of these activities, while BME shows a biopotency of only 1% of that of estradiol or CME. Hence, although CME reacts very strongly and apparently irreversibly with estrogen receptors in MCF-7 cells, it still behaves as a potent estrogen agonist.
...
PMID:Biological activity and receptor binding of a strongly interacting estrogen in human breast cancer cells. 654 74

<< Previous 1 2 3 4 5 Next >>