Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.2 (guanylate cyclase)
 8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Agents that are known to be scavengers of hydroxyl radicals inhibit lymphocyte mitogenesis induced by phorbol myristate acetate (PMA) to a greater extent than they inhibit mitogenesis induced by concanavalin A or phytohemagglutinin. These agents include dimethyl sulfoxide, benzoate, thiourea, dimethylurea, tetramethylurea, L-tryptophan, mannitol, and several other alcohols. Their inhibitory effect is not associated with cytotoxicity. The hydroxyl radical scavengers do not inhibit PMA-dependent amino acid transport in T cells or PMA-induced superoxide production by monocytes. Thus, they do not inhibit the primary interaction of PMA with responding cells. Treatment of peripheral blood mononuclear cells with PMA increased cellular guanylate cyclase in most experiments, and dimethyl sulfoxide tended to inhibit this increase. In addition to inhibition of PMA-induced mitogenesis, hydroxyl radical scavengers markedly inhibited the activity of lymphocyte activating factor (interleukin 1). The differential inhibition of lymphocyte mitogenesis induced by different mitogens appears to be related to the differential macrophage requirements of the mitogens. The data suggest that hydroxyl radicals may be involved in mediating the triggering signal for lymphocyte activation. Some of the hydroxyl radical scavengers are inducers of cellular differentiation,. nd it is possible that their differentiating activity is related to their ability to scavenge free radicals.
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PMID:Hydroxyl radical scavengers inhibit lymphocyte mitogenesis. 612 9

Pyruvate increased cyclic GMP levels in rat hepatocytes. The effects were observed without or with 1-methyl-3-isobutylxanthine. Lactate, acetate, oxaloacetate, alpha-ketoglutarate, succinate, acetoacetate and beta-hydroxybutyrate also increased cyclic GMP levels. Some compounds increased cyclic GMP in kidney cortex slices. The effects were dependent upon Ca2+ in the medium. Cyclic AMP was increased 30-50% by some of these substances with 2.6 mM Ca2+. Rotenone, oligomycin, antimycin, dinitrophenol, KCN, and arsenate decreased GTP and ATP, basal cyclic GMP and the pyruvate effect, but did not alter cyclic AMP. Although fluoroacetate alone had no effect on cyclic nucleotides, GTP, or ATP, it potentiated the pyruvate effect on cyclic GMP. Adenosine and guanosine increased cyclic GMP and GTP to a similar extent of 30-50%. Aminooxyacetate, cycloserine, pentenoic acid and mepacrine decreased the pyruvate effect while cycloserine or mepacrine alone increased cyclic GMP. Citrate and mepacrine inhibited soluble and particulate guanylate cyclase from rat liver while cycloserine and acetoacetate increased guanylate cyclase activity. None of the other compounds altered guanylate cyclase activity. These results indicate that various metabolites and inhibitors can alter cyclic GMP accumulation in hepatocytes and renal cortex slices. Several mechanisms may be involved in these effects.
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PMID:Effects of pyruvate and other metabolites on cyclic GMP levels in incubations of rat hepatocytes and kidney cortex. 616 85

Analysis of adenylate cyclase (ACase) activity in broken cell preparations usually involves conversion of [alpha-32P]ATP to [32P]cyclic AMP (cAMP) followed by purification of cAMP by liquid chromatographic methods. An automated, preparative reverse-phase HPLC procedure was developed that purifies cAMP rapidly and decreases variability and background. It permits the separation procedure to be validated rapidly prior to use with actual samples, and is readily adaptable for assaying guanylate cyclase, phosphodiesterases (PDE), or a variety of other related nucleotide-metabolizing enzymes. For ACase assays, 4.5% ZnSO4-10% Ba(OH)2 is added to the incubation mixture, and following centrifugation, the supernatant is injected on an HPLC apparatus fitted with a Waters Z-Module containing a 10-microns C18 reverse-phase cartridge. Using a mobile phase of 0.15 M sodium acetate-20% methanol (pH 5.0) at a flow rate of 4 ml/min, cAMP is eluted at k' greater than 1.25, whereas k' less than 0.5 for all other adenine nucleotides, permitting collection of the cAMP fraction after running the other nucleotides to waste. The method was validated by characterizing dopamine-sensitive ACase in homogenates of striatum from Sprague-Dawley rats. Basal activity (177 +/- 16 pmol/mg protein/min), the stimulation by dopamine (186 +/- 19 pmol/mg/min), the apparent Km for dopamine (5.0 +/- 1.5 microM), and expected effects of varying magnesium, EGTA, and GTP were similar to available data. However, it was found that isobutylmethylxanthine (IBMX) or theophylline, usually included in the incubation mixture as PDE inhibitors, markedly inhibited the synthesis of cAMP in both the presence and absence of dopamine. A consequence of this inhibition was a marked change in the apparent Km of dopamine calculated from a Lineweaver-Burk plot. The use of IBMX to inhibit PDEs was compared with an alternate strategy, the addition of excess exogenous cAMP. Simultaneous analysis of PDE and ACase activity was accomplished by including [3H]cAMP in the incubation and quantifying the amounts of [3H]cAMP hydrolyzed and [32P]cAMP synthesized. Without IBMX, a concentration of 1 mM exogenous cAMP was sufficient to prevent significant loss of [3H]cAMP. In the absence of exogenous cAMP, 0.5 mM IBMX did not completely prevent the breakdown of [3H]cAMP, whereas 2.5 mM IBMX did. Although there was 25% less [3H]cAMP recovered in the presence of 0.5 mM IBMX than with 2.5 mM IBMX, there was no difference in the amount of [32P]cAMP formed (either with or without dopamine).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:An improved, automated adenylate cyclase assay utilizing preparative HPLC: effects of phosphodiesterase inhibitors. 631 7

Saccharomyces cerevisiae was inoculated into a yeast nitrogen base with either glycerol or glucose as carbon source. Cell proliferation was followed by colony counts on agar medium. Cells in the glycerol-supplemented medium divided less than once in 10 days. When glucose, 6-deoxy-glucose or protoporphyrin IX was added, the cells had doubling times of about 24 h and increased in number to about 0.5 x 10(6) cells ml-1. Addition of either of the protein kinase C activators oleoyl-acetyl-glycerol or phorbol-12-myristate-13-acetate did not activate cell proliferation in the glycerol medium. However, when (i) glucose was combined with either protoporphyrin IX or chlorophyllin, or (ii) either protoporphyrin IX or chlorophyllin was combined with either of the protein kinase C activators, the cells had doubling times of about 12 h. Hence, (i) glucose can act as both a carbon source and a signalling molecule for proliferation, and (ii) two systems are involved in activating cell proliferation in S. cerevisiae: one operating through a protein kinase C system and another through a guanylate cyclase system.
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PMID:Effects of glucose, tetrapyrroles and protein kinase C activators on cell proliferation in cultures of Saccharomyces cerevisiae. 759 Jan 58

The human acrosome reaction (AR; sperm exocytosis) is absolutely required for fertilization. In the course of further characterizing the AR and its control, an AR-inhibiting glycoprotein (ARIG) from human seminal plasma was purified by differential centrifugation, carboxymethyl cellulose chromatography, chromatofocusing, and Sephacryl S300 gel filtration. A highly purified protein with a molecular weight of 74,000 was obtained as determined by gel filtration and SDS-PAGE. ARIG eluted in a narrow pH range (6.2-5.4) during chromatofocusing, corresponding to a pl of 5.8 +/- 0.4. It had covalent modifications, including internal disulfide bonds, and both complex N-linked and O-linked oligosaccharide chains. Lectin analysis suggested that sialic acid was absent and that the complex oligosaccharide chains had sequences containing galactose, galactosamine, and/or glucosamine in a beta 1-4 linkage. Mannose residues were also present. When ARIG was added to in vitro-capacitated human spermatozoa 30 min prior to the calcium ionophore A23187, the AR was significantly inhibited (ID50 = 8.5 micrograms/ml). In addition, ARIG reduced sperm exocytosis in response to atrial natriuretic peptide (a guanylate cyclase activator) and to the protein kinase C activators phorbol myristate acetate and dioctanoylglycerol. The ability of ARIG to block the human AR induced by a variety of agonists and the fact that biological activity of the protein was lost after removal of its sugar moieties suggests that it may function as a general inhibitor of sperm exocytosis and that its interaction with spermatozoa may be mediated by carbohydrate-binding proteins on the sperm cell.
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PMID:Purification and partial characterization of acrosome reaction inhibiting glycoprotein from human seminal plasma. 766 49

The effects of cyclic nucleotides and phorbol ester on Ca2+ efflux from cultured bovine adrenal chromaffin cells were examined. Dibutyryl cyclic AMP (DB-cAMP), forskolin (an activator of adenylate cyclase), dibutyryl cyclic GMP (DB-cGMP) and nitroprusside (an activator of guanylate cyclase) all stimulated 45Ca2+ efflux from the cells preloaded with 45Ca2+. These agents did not increase the intracellular free Ca2+ ([Ca2+]i) level. On the contrary, phorbol 12-myristate 13-acetate (PMA; an activator of protein kinase C) did not affect the efflux of 45Ca2+, but inhibited the increase in 45Ca2+ efflux caused by DB-cAMP, forskolin, DB-cGMP or nitroprusside. The 45Ca2+ effluxes stimulated by cyclic nucleotides, forskolin and nitroprusside were inhibited by deprivation of extracellular Na+ ([Na+]o). These results suggest that both cAMP- and cGMP-dependent protein kinases are involved in the stimulatory mechanism of [Na+]o dependent Ca2+ efflux, probably through acceleration of [Na+]o/[Ca2+]i exchange and that protein kinase C plays an inhibitory role in this mechanism.
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PMID:Regulations by cyclic nucleotides and phorbol ester of calcium efflux from cultured bovine adrenal chromaffin cells. 767 26

All-trans retinoic acid (tretinoin) is a known inducer of differentiation of the human monoblastic cell line, U-937. We now report that the ability of retinoic acid (RA) to induce differentiation of U-937 cells into cells possessing respiratory burst activity is enhanced by the known nitric oxide-donating drugs glyceryl trinitrate, molsidomine and CAS 936, and by tetranitromethane in combination with cysteine. RA alone was a strong inducer of U-937 differentiation as indicated by the following responses to 12-O-tetradecanoylphorbol-13-acetate (TPA) stimulation: (1) increase in the percentage of cells staining with nitroblue tetrazolium (NBT); (2) increase in the total amount of formazan (the product of NBT reduction by O2-.) as determined spectrophotometrically; (3) increase in hexose monophosphate shunt (HMPS) activity as assessed by [14C]CO2 released from D-[1-14C]glucose. RA was also able to increase mRNA levels for two respiratory burst-related genes and for glucose-6-phosphate dehydrogenase (G6PD), an HMPS enzyme. Other indications of differentiation were reduced cell proliferation, increased adherence and altered nuclear morphology. The observed increase in formazan production and HMPS activity and the reduction of cell proliferation due to RA were augmented by co-treatment with either glyceryl trinitrate, molsidomine, CAS 936 or tetranitromethane plus cysteine. Glyceryl trinitrate alone increased HMPS activity and G6PD mRNA levels and also reduced cell proliferation. Glyceryl trinitrate, molsidomine and CAS 936 are presumed to release nitric oxide and increase intracellular cGMP levels by stimulation of soluble guanylate cyclase. The mechanism of action of tetranitromethane is less certain, although it may also generate reactive nitrogen intermediates. These data suggest that a NO./cGMP pathway may augment a retinoic acid-mediated pathway to enhance maturation of U-937 cells with respect to the respiratory burst. Glyceryl trinitrate may act additionally by another pathway.
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PMID:Potentiation of retinoic acid-induced U-937 differentiation into respiratory burst-competent cells by nitric oxide donors. 776 33

We examined adenosine 5'-triphosphate (ATP), pertussis toxin (PT) and phorbol myristate acetate (PMA), a protein kinase C (PKC) activator, modulation of atrial natriuretic peptide (ANP)-stimulated cell-membrane guanylate cyclase (ANP-s-GC) activity and ANP stimulation of whole-cell cGMP accumulation (ANP-s-cGMP) in an ANP-receptor-transduction cell model, the human renal cell line (SK-NEP-1). Acute and long-term effects of PMA on PKC isotype activity are different: Acute (20-min) PMA activation of PKC inhibits ANP-s-cGMP and ANP-s-GC; whereas, long-term (36-h) PMA treatment inhibits slightly less by only partially down-regulating PKC activity, the type-III PKC isotype being 36-h resistant. Long-term 10(-7)M PMA treatment of cells neither affected membrane basal GC activity nor ANP-s-GC activity but partially inhibited ATP enhancement of ANP-s-GC. This partial inhibition was completely reversed by the PKC inhibitor H7 and a PKC inhibitory antibody but only partially reversed by the antibody to the catalytic domain of PKC type III. The EC50 for ATP and its non-phosphorylating analog ATP gamma S in the presence of acute PMA inhibition of ANP-s-cGMP was similar (approximately 10(-9)). This enhancement of PMA inhibition was two orders of magnitude more sensitive (EC50 10(-7)M) than inhibition of ANP-s-cGMP that we previously reported for acute PMA treatment of whole SK-NEP-1 cells. The three- to four-fold ATP enhancement of cell membrane ANP-s-GC was not blocked by 12-hour preincubation of cells with 150 ng/mL PT but was completely blocked if 2-x-10(-7)M PMA was then added for 20 minutes, indicating that acute activation of PKC by PMA does not require a functional "G-type" protein. Acute PMA inhibition of ANP-s-cGMP was reversed by permeabilizing SK-NEP-1 cells to a specific PKC inhibitory peptide, further confirming that PMA inhibition was mediated through PKC activation. These data demonstrated that ANP-s-GC and ANP-s-cGMP were modified through non-phosphorylating interactions with ATP, by multiple PMA activatable PKC isoforms, and that neither were affected by PT-sensitive guanine-nucleotide-binding (G)-protein(s).
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PMID:Adenosine 5'-triphosphate, phorbol ester, and pertussis toxin effects on atrial natriuretic peptide stimulation of guanylate cyclase in a human renal cell line. 790 11

Stimulation of guanylyl cyclase A (GC-A) by atrial natriuretic peptide (ANP) is antagonized by activators of protein kinase C (PKC). Thus, it has been suggested that PKC phosphorylates and desensitizes GC-A. Here, we have developed stable GC-A transfectants of NIH3T3 cells, which display marked reductions in hormone-dependent cGMP elevations and guanylyl cyclase activity after incubation with ANP or phorbol 12-myristate 13-acetate (PMA). ANP binding and immunoblot analysis indicated that the decreases were not due to receptor internalization or degradation. GC-A isolated from 32PO4-labeled cells contained phosphoserine and phosphothreonine. ANP and/or PMA addition caused substantial decreases in the 32P content of the receptor that coincided with reductions in hormone-dependent guanylyl cyclase activity. The specific PKC inhibitor, GF-109203X, completely blocked the PMA-dependent dephosphorylation and desensitization of GC-A but failed to inhibit either ANP-dependent process. Tryptic phosphopeptide maps of GC-A isolated from ANP- or PMA-treated cells were unique, suggesting that the sites that dephosphorylated in response to each agent were different. In contrast to previous reports, we conclude that PMA and ANP desensitization of GC-A are distinct events mediated by dephosphorylation of specific residues through PKC-dependent and -independent pathways, respectively.
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PMID:Protein kinase C-dependent desensitization of the atrial natriuretic peptide receptor is mediated by dephosphorylation. 791 Jan 66

Recent studies have implicated protein kinase-C (PKC) in the regulation of guanylate cyclase in several cell types. In view of prior experiments by our laboratory which have demonstrated that 1 alpha,25-dihydroxyvitamin D3 [1 alpha,25-(OH)2D3] can activate PKC in CaCo-2 cells, it was of interest to determine whether this secosteroid influenced particulate guanylate cyclase and, if so, to determine which isoforms of PKC were involved. To address these issues, CaCo-2 cells were treated with 1 alpha,25-(OH)2D3 or other agents (see below), and crude membranes prepared from these cells were assayed for guanylate cyclase activity. In several experiments, agents were added directly to isolated membranes, and guanylate cyclase activity was then assayed. These studies demonstrated that 1) the addition of 1 alpha,25-(OH)2D3 or 12-O-tetradecanoyl phorbol 13-acetate (TPA), a known activator of PKC, to intact CaCo-2 cells stimulated particulate guanylate cyclase activity in a time- and concentration-dependent manner; 2) these agents induced the translocation of PKC alpha, but not PKC zeta, from the cytosolic to the membrane fraction of these cells; 3) preincubation of cells with staurosporine (50 nM), a PKC inhibitor, or U73122 (10 microM), an inhibitor of phospholipase-C-dependent processes, significantly reduced (P < 0.05) the stimulatory effect of 1 alpha,25-(OH)2D3 (3 nM) on guanylate cyclase; 4) preincubation of isolated membranes with TPA, calcium, and Mg(2+)-ATP increased guanylate cyclase activity, an affect that was augmented by purified rat brain PKC and inhibited by the PKC inhibitor peptide, PKC-(19-36); and 5) selective down-regulation of PKC alpha by treatment of cells with TPA (200 nM) for 24 h concomitantly abolished the activation of guanylate cyclase by 1 alpha,25-(OH)2D3. Taken together, these studies demonstrate that 1 alpha,25-(OH)2D3 activates particulate guanylate cyclase at least in part via a PKC alpha-dependent mechanism.
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PMID:The role of protein kinase-C alpha in the activation of particulate guanylate cyclase by 1 alpha,25-dihydroxyvitamin D3 in CaCo-2 cells. 791 83


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