Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0338671 (Steroids)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activities of neutral collagenolytic enzymes (CE) and neutral proteoglycan-degrading enzymes (PE) in the synovial membranes of osteoarthritis (OA) patients were determined. The total neutral metallo-CE activity showed a significantly higher level of activity when the membranes of OA patients were compared with those of controls. The severely and moderately inflamed synovia had significantly more enzyme activity than did either mildly inflamed or control synovia. Steroids reduced the total metallo-CE activity. In specimens with severe inflammation, the active form of the neutral metallo-CE was significantly elevated over that found in controls. The serine-CE activity was also significantly elevated in OA synovia with severe inflammation and synovial hypertrophy. The total and active neutral metallo-PE was significantly elevated in synovial membranes of OA patients with severe inflammation. Moreover, the serine-PE showed much more activity in OA patients than in controls. The enzyme activity remained at a significantly high level in the OA synovium, regardless of the presence or absence of macroscopic synovial hypertrophy or the histologic grading of the synovium (mild, moderate, severe). Our data indicate that, in OA, an increased level of neutral proteases in the synovia could be involved in the local tissue destruction of the periarticular structures. Because of the very high level of serine proteases, their diffusion may render plausible a degradative action on the cartilage surface.
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PMID:Neutral proteases in human osteoarthritic synovium. 301 59

Prostate androgen receptors are liable to proteolytic digestion during in vitro analysis; thus, various proteolytic enzyme inhibitors were tested for their ability to improve the androgen receptor assay. The serine (phenylmethylsulfonylflouride, aprotinin, p-aminobenzamidine) and thiol-senine (leupeptin, bacitracin) protease inhibitors individually present in the homogenization buffer significantly increased the measurable androgen binding sites by 30-35% in rat prostate cytosol as determined by saturation analysis with [3H]-17 beta-hydroxy-17-methyl- 4,9 11-estratrien-3-one (R-1881) for 20 hr at 4 degrees C. The apparent binding affinity was also increased by these compounds. Various combinations were tried and aprotinin/bacitracin was found to be additive in effect. This combination was also shown to prevent receptor degradation as determined by sucrose density gradient centrifugation. The carboxyl protease inhibitor, pepstatin A, was ineffective in improving the receptor assay. Rabbit bile, an inhibitor of seminin, interfered with receptor binding thus rendering it ineffective for use in saturation analysis. The results show that the use of serine-thiol protease inhibitors significantly improves the cytosol androgen receptor yield and assay sensitivity; therefore, we recommend routine inclusion of these compounds(s) in the homogenization buffer for androgen receptor assays.
Steroids 1982 Aug
PMID:Effect of protease inhibitors on androgen receptor analysis in rat prostate cytosol. 618 54

P450c17 is a single microsomal enzyme that catalyzes two distinct steroid biosynthetic activities: 17 alpha-hydroxylase and 17,20 lyase. Human beings have only one gene that encodes only one form of P450c17. Three clinical observations indicated that these were independently regulated activities. First, several cases of isolated 17,20 lyase deficiency were reported, in which 17 alpha-hydroxylase activity was spared. Second, most adrenal steroidogenesis in children stops after 17 alpha-hydroxylation, thus permitting the synthesis of cortisol, whereas most gonadal steroidogenesis proceeds to C19 sex steroids as a result of both activities. Third, the 17,20 lyase activity of the human adrenal is developmentally activated during adrenarche. To catalyze these two activities, P450c17 must receive reducing equivalents from electron donors (redox partners). Previous observations showed that the molar ratio of P450 oxidoreductase to P450c17 was 3-fold higher in the testis than in the adrenal, and that increasing the molar ratio of the redox partner to P450c17 would increase the ratio of 17,20 lyase activity to 17 alpha-hydroxylase. We have recently shown that P450c17 must be phosphorylated on serine and threonine residues by a cAMP-dependent protein kinase to acquire 17,20 lyase activity. We have also recently found two cases of isolated 17,20 lyase deficiency that have mutations of residues in the proposed redox partner binding site. Together, these studies suggest a unified view of the regulation of 17,20 lyase activity. The ratio of 17,20 lyase to 17 alpha-hydroxylase activity of P450c17 is regulated by the availability of reducing equivalents flowing to the enzyme. This can be increased by increasing the molar concentration of electron-donating redox partners, such as P450 oxidoreductase or possibly cytochrome b5, as appears to be the case in the gonads. Alternatively, the affinity of P450c17 for redox partners may be selectively increased by Ser/Thr phosphorylation, or selectively decreased by certain mutations in the redox partner binding site, in either case altering an electrostatic interaction between P450c17 and the redox partner. This model is consistent with all present observations about the biochemistry, genetics, enzymology, and clinical phenomenology of P450c17.
Steroids 1997 Jan
PMID:The regulation of 17,20 lyase activity. 902 28

An apical serine protease, channel-activating protease 1 (CAP1), augments sodium transport in A6 cells. Prostasin, a novel serine protease originally purified from seminal fluid, has been proposed to be the mammalian ortholog of CAP1. We have recently found functional evidence for a similar protease activity in the M-1 cortical collecting duct cell line. The purposes of the present studies were to determine whether prostasin (or CAP1) is present in collecting duct cells by use of mouse M-1 cells, to sequence mouse prostasin, and to further characterize the identity of the serine protease activity and additional functional features in M-1 cells. Using mouse expressed sequence tag sequences that are highly homologous to the published human prostasin sequence as templates, reverse transcription-polymerase chain reaction and RACE (rapid amplification of cDNA ends) were used to sequence mouse prostasin mRNA, which shows 99% identical to published mouse CAP1 sequence. A single 1800-bp transcript was found by Northern analysis, and this was not altered by aldosterone. Equivalent short-circuit current (I(eq)), which represents sodium transport in these cells, dropped to 59+/-3% of control value within 1 hour of incubation with aprotinin, a serine protease inhibitor. Trypsin increased the I(eq) in aprotinin-treated cells to the value of the control group within 5 minutes. Application of aprotinin not only inhibited amiloride sensitive I(eq) but also reduced transepithelial resistance (R(te)) to 43+/-2%, an effect not expected with simple inhibition of sodium channels. Trypsin partially reversed the effect of aprotinin on R(te). Another serine protease inhibitor, soybean trypsin inhibitor (STI), decreased I(eq) in M-1 cells. STI inhibited I(eq) gradually over 6 hours, and the inhibition of I(eq) by 2 inhibitors was additive. STI decreased transepithelial resistance much less than did aprotinin. Neither aldosterone nor dexamethasone significantly augmented protease activity or prostasin mRNA levels, and in fact, dexamethasone decreased prostasin mRNA expression. In conclusion, although prostasin is present in M-1 cells and probably augments sodium transport in these cells, serine proteases probably have other effects (eg, resistance) in the collecting duct in addition to effects on sodium channels. Steroids do not alter these effects in M-1 cells. Additional proteases are likely also present in mouse collecting duct cells.
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PMID:Serine protease activity in m-1 cortical collecting duct cells. 1196 40

Steroids and thyroid hormone are thought primarily to act via binding to hormone-specific nuclear receptor superfamily members. The nuclear ligand-receptor complexes then initiate transcriptional activity. Actions of steroids and iodothyronines that are nongenomic or extranuclear in mechanism have been recognized recently and new insights into such mechanisms are available. Despite their distinct structures and biologic effects, the two families of hormones have similarities in the mechanisms of their nongenomic actions. That is, both steroids and thyroid hormone appear to interact with specific cell surface G protein-coupled receptors and to activate signal transducing kinases such as those involved in the mitogen-activated protein kinase (MAPK) pathway. Much is known about the ability of certain steroids such as estrogen and mineralocorticoids to increase [Ca2+]i acutely and stimulation of the MAPK cascade by L-T4 appears to depend upon a hormone-induced increase in [Ca2+]i via phosphoinositide pathway activation. At least in the case of iodothyronines, hormone activation of the MAPK pathway modulates the cellular activities of certain cytokines and growth factors. One of the two cell surface estrogen receptors (ERs) may be an expression of the same transcript as that for nuclear ER, whereas the mineralocorticoid and progesterone-binding proteins in the plasma membrane appear to be products of genes different from those of nuclear receptors. Iodothyronine structure-activity relationships at the plasma membrane binding site for thyroid hormone suggest that the cell surface receptor for T4 that also binds 3,5,3'-triiodo-L-T3 is different from the nuclear T3 receptor (TR). There are interfaces of nongenomic and genomic mechanisms for both steroids and thyroid hormone. For example, by nongenomic mechanisms, estrogen and thyroid hormone can promote serine phosphorylation, respectively, of nuclear ER and TR. Transcriptional activity of the nuclear receptor proteins can be altered by such phosphorylation.
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PMID:Comparison of the mechanisms of nongenomic actions of thyroid hormone and steroid hormones. 1203 Jun 12

Estrogen receptor alpha (ERalpha) is phosphorylated on multiple amino acid residues. For example, in response to estradiol binding, human ERalpha is predominately phosphorylated on Ser-118 and to a lesser extent on Ser-104 and Ser-106. In response to activation of the mitogen-activated protein kinase pathway, phosphorylation occurs on Ser-118 and Ser-167. These serine residues are all located within the activation function 1 region of the N-terminal domain of ERalpha. In contrast, activation of protein kinase A increases the phosphorylation of Ser-236, which is located in the DNA-binding domain. The in vivo phosphorylation status of Tyr-537, located in the ligand-binding domain, remains controversial. In this review, I present evidence that these phosphorylations occur, and identify the kinases thought to be responsible. Additionally, the functional importance of ERalpha phosphorylation is discussed.
Steroids 2003 Jan
PMID:Estrogen receptor phosphorylation. 1247 18

The estrogen receptor alpha (ERalpha) exists as a functional receptor at the plasma membrane. The structural requirements for localization and function are not well understood. Several laboratories have recently elucidated certain requirements. We recently found the translocation of ERalpha to the membrane in the absence of estrogen is dependent on caveolin-1 and serine 522 of the ERalpha protein. Mutation of serine 522 to alanine results in a 62% decrease in membrane localization and association with caveolin-1. Similarly, deletion of the caveolin-1 scaffolding domain (amino acids 60-100) largely prevents the localization of ERalpha at the plasma membrane. In the presence of estradiol (E2), ERalpha, Src-homology and collagen homology (Shc), and insulin-like growth factor receptor-1 proteins associate with and increase the localization of ERalpha at the membrane. Membrane-localized ERalpha functions as an atypical G-protein coupled receptor. There is no good evidence that ERalpha spans the membrane or contains an extracellular domain. E2/ERalpha activates different G-proteins in cell context-related fashion. These G-proteins lead to the activation of Src through PLC, PKC, IP3 and calcium influx. In breast cancer, Src activates matrix metalloproteinase-2 and -9, which cleaves heparin binding epidermal growth factor, and thus activates EGFR. This leads to downstream signaling through ERK and PI3 kinase, imparting cell growth and survival.
Steroids
PMID:Requirements for estrogen receptor alpha membrane localization and function. 1586 18

Because the androgen and estrogen nuclear hormone receptors are subject to acetylation, we speculated that the nuclear thyroid hormone receptor-beta1 (TRbeta1), another superfamily member, was also subject to this posttranslational modification. Treatment of 293T cells that contain TRbeta1(wt) with l-thyroxine (T4)(10(-7)M, total concentration) resulted in the accumulation of acetylated TR in nuclear fractions at 30-45 min and a decrease in signal by 60 min. A similar time course characterized recruitment by TR of p300, a coactivator protein with intrinsic transacetylase activity. Recruitment by the receptor of SRC-1, a TR coactivator that also acetylates nucleoproteins, was also demonstrated. Inhibition of the MAPK (ERK1/2) signal transduction cascade by PD 98059 blocked the acetylation of TR caused by T4. Tetraiodothyroacetic acid (tetrac) decreased T4-induced acetylation of TR. At 10(-7)M, 3,5,3'-triiodo-l-thyronine (T3) was comparably effective to T4 in causing acetylation of TR. We studied acetylation in TR that contained mutations in the DNA-binding domain (DBD) (residues 128-142) that are known to be relevant to recruitment of coactivators and to include the MAPK docking site. In response to T4 treatment, the K128A TR mutant transfected into CV-1 cells recruited p300, but not SRC-1, and was subject to acetylation. R132A complexed with SRC-1, but not p300; it was acetylated equally well in both the absence and presence of T4. S142E was acetylated in the absence and presence of T4 and bound SRC-1 under both conditions; this mutant was also capable of binding p300 in the presence of T4. There was no serine phosphorylation of TR in any of these mutants. We conclude that (1) TRbeta1, like AR and ER, is subject to acetylation; (2) the process of acetylation of TR requires thyroid hormone-directed MAPK activity, but not serine phosphorylation of TR by MAPK, suggesting that the contribution of MAPK is upstream in the activation of the acetylase; (3) the amino acid residue 128-142 region of the DBD of TR is important to thyroid hormone-associated recruitment of p300 and SRC-1; (4) acetylation of TR DBD mutants that is directed by T4 appears to be associated with recruitment of p300.
Steroids
PMID:Acetylation of nuclear hormone receptor superfamily members: thyroid hormone causes acetylation of its own receptor by a mitogen-activated protein kinase-dependent mechanism. 1586 28

The principal secreted estrogen, 17beta-estradiol rapidly activates signaling cascades that regulate important physiological processes including ion transport across membranes, cytosolic pH and cell proliferation. These effects have been extensively studied in the MCF-7 estrogen-responsive human breast carcinoma cell line. Here, we demonstrate that a physiological concentration of 17beta-estradiol caused a rapid, synchronous and transient increase in intracellular calcium concentration in a confluent monolayer of MCF-7 cells 2-3 min after treatment. This response was abolished when cells were pre-incubated with the phospholipase A(2) (PLA(2)) inhibitor quinacrine or with the cyclooxygenase inhibitor indomethacin. The translocation of GFP-cPLA(2)alpha to perinuclear membranes occurred 1-2 min after 17beta-estradiol treatment; this translocation was concurrent with the transient phosphorylation of cPLA(2)alpha at serine residue 505. The phosphorylation and translocation of cPLA(2) were sensitive to inhibition of the extracellular signal regulated kinase (ERK) signaling cascade and occurred simultaneously with a transient activation of ERK. The phosphorylation of cPLA(2) could be stimulated by membrane impermeable 17beta-estradiol conjugated to bovine serum albumen and was blocked by an antagonist of the classical estrogen receptor. Here we show, for the first time, that PLA(2) and the eicosanoid biosynthetic pathway are involved in the 17beta-estradiol induced rapid calcium responses of breast cancer cells.
Steroids 2006 Mar
PMID:Estrogen induces phospholipase A2 activation through ERK1/2 to mobilize intracellular calcium in MCF-7 cells. 1637 35

Lung cancer is the most common cause of cancer mortality in male and female patients in the US. The etiology of non-small cell lung cancer (NSCLC) is not fully defined, but new data suggest that estrogens and growth factors promote tumor progression. In this work, we confirm that estrogen receptors (ER), both ERalpha and ERbeta, occur in significant proportions of archival NSCLC specimens from the clinic, with receptor expression in tumor cell nuclei and in extranuclear sites. Further, ERalpha in tumor nuclei was present in activated forms as assessed by detection of ER phosphorylation at serines-118 and -167, residues commonly modulated by growth factor receptor as well as steroid signaling. In experiments using small interfering RNA (siRNA) constructs, we find that suppressing expression of either ERalpha or ERbeta elicits a significant reduction in NSCLC cell proliferation in vitro. Estrogen signaling in NSCLC cells may also include steroid receptor coactivators (SRC), as SRC-3 and MNAR/PELP1 are both expressed in several lung cell lines, and both EGF and estradiol elicit serine phosphorylation of SRC-3 in vitro. EGFR and ER also cooperate in promoting early activation of p42/p44 MAP kinase in NSCLC cells. To assess new strategies to block NSCLC growth, we used Faslodex alone and with erlotinib, an EGFR kinase inhibitor. The drug tandem elicited enhanced blockade of the growth of NSCLC xenografts in vivo, and antitumor activity exceeded that of either agent given alone. The potential for use of antiestrogens alone and with growth factor receptor antagonists is now being pursued further in clinical trials.
Steroids 2007 Feb
PMID:Estrogen receptor signaling pathways in human non-small cell lung cancer. 1727 70


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