EC:4.6.1.2 - FACTA Search

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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)

Membrane vesicles can be prepared from murine lymphoid cells by nitrogen cavitation and fractionated by sedimentation through nonlinear sucrose density gradients. Two subpopulations of membrane vesicles, PMI and PMII, can be distinguished on the basis of sedimentation rate. The subcellular distribution of adenylate and guanylate cyclases in these membrane subpopulations have been compared with the distribution of a number of marker enzymes. Approximately 20-30% of the total adenylate and guanylate cyclase activity is located at the top of the sucrose gradient (soluble enzyme), the remainder of the activity being distributed in the PMI and PMII fractions (membrane-bound enzyme). More than 90% of the 5'-nucleotidase and NADH oxidase activities detected in lymphoid cell homogenates are located in PMI and PMII fractions, whereas succinate cytochrome c reductase activity is detected only in the PMII fractions. In addition, beta-galactosidase activity is distributed in the soluble and PMII fractions of the sucrose density gradients. On the basis of the fractionation patterns of these various enzyme activities, it appears that PMI fractions contain vesicles of plasma membrane and endoplasmic reticulum, whereas PMII fractions contain mitochondria, lysomes, and plasma membrane vesicles. Approximately 30-40% of the adenylate and guanylate cyclase activities in PMII can be converted to a PMI-like form following dialysis and resedimentation through a second nonlinear sucrose gradient. Adenylate and guanulate cyclases can be distinguished on the basis of sensitivity to nonionic detergents.
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PMID:The subcellular distribution of adenylate and guanylate cyclases in murine lymphoid cells. 0 90

We examined whether L-arginine is a substrate for nitric oxide (NO) production by peripheral blood mononuclear cells (MNC) in vitro. Minimal extracellular arginine (0.04 mmol/L) is required for maximal lymphocyte proliferation after phytohemagglutinin stimulation. In the absence of arginine, proliferation was 41% of normal without loss of viability. In contrast, MNC total protein synthesis (as assessed by tritiated leucine incorporation) or lymphokine synthesis (interleukin-2, as assessed by cytotoxic lymphoid line (CTLL) proliferation) were not affected by the absence or presence of arginine in the medium. Exogenous nitric oxide provided as sodium nitroprusside could replace L-arginine for maximal blastogenic proliferation. The addition of NG-monomethyl-L-arginine (NMMA; 0.1 mmol/L), a specific inhibitor of the NO synthetic pathway, significantly reduced DNA synthesis both at 0 and 0.1 mmol/L arginine concentrations; this effect was reversed to 91% of normal by excess arginine (1.0 mmol/L). Homoarginine (0.1 mmol/L; a known substrate for NO production) partially substituted for arginine, and this effect was also abrogated by NMMA. Nitrite levels (an end product of NO metabolism) were reduced when L-arginine was absent or NMMA was added to L-arginine-containing media. Cytosol from phytohemagglutinin-stimulated MNC-enhanced cyclic guanosine monophosphate production in the presence of L-arginine as substrate. The data suggest that the inductive effects of L-arginine on MNC DNA synthesis are not related to its nutrient requirement for protein synthesis, but rather caused by its role as a substrate for NO production. MNC actively synthesize NO during mitogenic proliferation. NO appears to be a promoter of MNC DNA synthesis, probably by its well-known effect as an activator of guanylate cyclase, which increases cyclic guanosine monophosphate levels.
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PMID:Nitric oxide generation from L-arginine is required for optimal human peripheral blood lymphocyte DNA synthesis. 185 40

Guanylin and uroguanylin are peptides that stimulate membrane guanylate cyclases (GC) and regulate intestinal and renal function via cGMP. Complementary DNAs were isolated encoding opossum preproguanylin and a 279-amino acid portion of a receptor-guanylate cyclase expressed in opossum kidney (OK) cells (GC-OK). The tissue expression of messenger RNA transcripts for these signaling molecules were then compared. Northern and/or reverse transcription-PCR assays revealed that guanylin, uroguanylin, and GC-OK messenger RNAs are expressed in tissues within the digestive, renal, central nervous, reproductive, and lymphoid organ systems. Receptor autoradiography localized the receptors for uroguanylin and guanylin to renal proximal tubules and seminiferous tubules of testis. Synthetic guanylin and uroguanylin peptides activated the receptor-GCs in opossum kidney cortex and in cultured OK cells eliciting increased intracellular cGMP. Expression of agonist and receptor-GC signaling molecules provides a pathway for paracrine and/or autocrine regulation of cellular functions via cGMP in the digestive, renal, central nervous, reproductive, and lymphoid/immune organ systems. Uroguanylin also links the intestine and kidney in a potential endocrine axis that activates tubular receptor-GCs and influences renal function.
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PMID:Signaling pathways for guanylin and uroguanylin in the digestive, renal, central nervous, reproductive, and lymphoid systems. 934 89

Carbon monoxide (CO) induces acute or chronic toxicity, according to the level and duration of the exposure. Since chronic CO exposure was shown to have immunosuppressive effects (as it decreases the frequency of rat splenic immunocompetent cells and immunoglobulin production), we investigated the effect of CO on thymocytes, since these are the most sensitive cells to oxidative damage from the lymphoid lineage. We exposed thymocytes to CO, then determined their apoptotic index after 6 h of incubation at 37 degrees C using the fluorochrome Hoechst 33342 and electron microscopy and found an increase of apoptosis in CO-exposed thymocytes. Trolox (6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid), an antioxidant vitamin E analog, decreased CO-induced thymocyte apoptosis unlike methylene blue, L-nitroarginine methyl ester or pyrrolidine dithiocarbamate. We also observed that lipid peroxidation was increased in the CO-exposed thymocytes and that it was inhibited by Trolox. Our results suggest that CO induces thymocyte apoptosis by a free radical-mediated mechanism which can be inhibited by Trolox but which does not involve the activation of the guanylyl cyclase-cGMP pathway.
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PMID:Carbon monoxide induces murine thymocyte apoptosis by a free radical-mediated mechanism. 953 44

Guanylin and uroguanylin are small peptides containing two disulfide bonds that activate membrane guanylate cyclase-receptors in the intestine, kidney and other epithelia. Hybridization assays with a uroguanylin complementary DNA (cDNA) detected uroguanylin-like messenger RNAs (mRNAs) in the opossum spleen and testis, but these transcripts are larger than uroguanylin mRNAs. RT of RNA from spleen to produce cDNAs for amplification in the PCR followed by cloning and sequencing revealed a novel lymphoid-derived cDNA containing an open reading frame encoding a 109-amino acid polypeptide. This protein shares 84% and 40% of its residues with preprouroguanylin and preproguanylin, respectively. A 15-amino acid, uroguanylin-like peptide occurs at the COOH-terminus of the precursor polypeptide. However, this peptide is unique in having only three cysteine residues. We named the gene and its peptide product lymphoguanylin because the source of the first cDNA isolated was spleen and its mRNA is expressed in all of the lymphoid tissues tested. A 15-amino acid form of lymphoguanylin containing a single disulfide bond was synthesized that activates the guanylate cyclase receptors of human T84 intestinal and opossum kidney (OK) cells, although with less potency than uroguanylin and guanylin. Northern and/or RT-PCR assays detected lymphoguanylin mRNA transcripts in many tissues and organs of opossums, including those within the lymphoid/immune, cardiovascular/renal, reproductive, and central nervous organ systems. Lymphoguanylin joins guanylin and uroguanylin in a growing family of peptide agonists that activate transmembrane guanylate cyclase receptors, thus influencing target cell function via the intracellular second messenger, cGMP.
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PMID:Lymphoguanylin: cloning and characterization of a unique member of the guanylin peptide family. 1009 18

The guanylin family of bioactive peptides consists of three endogenous peptides, including guanylin, uroguanylin and lymphoguanylin, and one exogenous peptide toxin produced by enteric bacteria. These small cysteine-rich peptides activate cell-surface receptors, which have intrinsic guanylate cyclase activity, thus modulating cellular function via the intracellular second messenger, cyclic GMP. Membrane guanylate cyclase-C is an intestinal receptor for guanylin and uroguanylin that is responsible for stimulation of Cl- and HCO3- secretion into the intestinal lumen. Guanylin and uroguanylin are produced within the intestinal mucosa to serve in a paracrine mechanism for regulation of intestinal fluid and electrolyte secretion. Enteric bacteria secrete peptide toxin mimics of uroguanylin and guanylin that activate the intestinal receptors in an uncontrolled fashion to produce secretory diarrhea. Opossum kidney guanylate cyclase is a key receptor in the kidney that may be responsible for the diuretic and natriuretic actions of uroguanylin in vivo. Uroguanylin serves in an endocrine axis linking the intestine and kidney where its natriuretic and diuretic actions contribute to the maintenance of Na+ balance following oral ingestion of NaCl. Lymphoguanylin is highly expressed in the kidney and myocardium where this unique peptide may act locally to regulate cyclic GMP levels in target cells. Lymphoguanylin is also produced in cells of the lymphoid-immune system where other physiological functions may be influenced by intracellular cyclic GMP. Observations of nature are providing insights into cellular mechanisms involving guanylin peptides in intestinal diseases such as colon cancer and diarrhea and in chronic renal diseases or cardiac disorders such as congestive heart failure where guanylin and/or uroguanylin levels in the circulation and/or urine are pathologically elevated. Guanylin peptides are clearly involved in the regulation of salt and water homeostasis, but new findings indicate that these novel peptides have diverse physiological roles in addition to those previously documented for control of intestinal and renal function.
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PMID:Guanylin regulatory peptides: structures, biological activities mediated by cyclic GMP and pathobiology. 1039 5

Guanylin and uroguanylin compose a family of natriuretic, diuretic, and kaliuretic peptides that bind to and activate apical membrane receptor guanylyl cyclase signaling molecules in renal and intestinal epithelia. Recently, a complementary DNA encoding an additional member of the guanylin family of cGMP-regulating peptides was isolated from lymphoid tissues of the opossum and was termed lymphoguanylin (LGN). A peptide analog of opossum LGN was synthesized containing a single disulfide bond with the internal cysteine-7 replaced by a serine residue (LGN(Cys7-->Ser7)). The biological activity of LGN(Ser) was tested by using a cGMP bioassay with cultured T84 (human intestinal) cells and opossum kidney (OK) cells. LGN(Ser) has potencies and efficacies for activation of cGMP production in the intestinal and kidney cell lines that are 100- and 1,000-fold higher than LGN, respectively. In the isolated perfused rat kidney, LGN(Ser) stimulated a maximal increase in fractional Na+ excretion from 24.8 +/- 3.0 to 36.3 +/- 3.3% 60 min after administration and enhanced urine flow from 0.15 +/- 0.01 to 0.24 +/- 0.01 ml. g(-1). min(-1). LGN(Ser) (0.69 microM) also increased fractional K+ excretion from 27.3 +/- 2.3 to 38.0 +/- 3.0% and fractional Cl- excretion from 26.1 +/- 0.8 to 43.5 +/- 1.9. A ninefold increase in the urinary excretion of cGMP from 1.00 +/- 0.04 to 9.28 +/- 1.14 pmol/ml was elicited by LGN(Ser), whereas cAMP levels were not changed on peptide administration. These findings demonstrate that LGN(Ser), which contains a single disulfide bond like native LGN, activates guanylyl cyclase-C (GC-C) receptors in T84 and OK cells and may be very helpful in studying the physiological importance of activation of GC-C in vivo. LGN(Ser) also exhibits full activity in the isolated perfused kidney equivalent to that observed previously with opossum uroguanylin, suggesting a physiological role for LGN in renal function. Thus the single amino acid substitution enhances the activity and potency of LGN.
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PMID:Renal effects of serine-7 analog of lymphoguanylin in ex vivo rat kidney. 1120 95

Numerous reports indicate that cyclic 3',5' guanosine monophosphate (cGMP) is involved in the regulation of immune processes. However, the mechanisms responsible for the synthesis of this nucleotide and its signaling pathways in immune cells are still not well recognized. The aim of our studies was to establish: 1) which form of guanylyl cyclase (GC) synthesizes cGMP in murine lymphoid organs and 2) whether the same organs express the isoforms PKG1alpha and/or PKG1beta of protein kinase G, known as possible target for synthesized cGMP. Cells isolated from thymus, lymph nodes, and spleen were treated with activators (SNP, ANP, CNP, STa) of soluble or particulate cyclases. Sodium nitroprusside (SNP) elevated intracellular cGMP 2-fold in thymic and lymph node cells and about 10-fold in spleen cells. Atrial natriuretic peptide (ANP) caused modest but statistically significant increases of cGMP in cells of all three organs. Additionally, spleen cells elevated their cGMP content about 2-fold in response to C-type natriuretic protein (CNP). In cellular homogenates of the all analyzed organs, the antibody anti-PKG1beta stained the 78 kDa band corresponding to the molecular mass of PKG1. Only homogenates of spleen cells were stained by the antibody recognizing PKG1alpha. Our results indicate that in the investigated organs cGMP may be synthesized mainly by soluble GC in response to nitric oxide. The modest increase of cGMP upon stimulation by ANP suggests that in all these organs either exists only a small subpopulation of cells that express particulate cyclase GC-A or GC-A is expressed at very low level. In spleen cells, however, cyclase GC-B appears to be the more active enzyme. Elevated cGMP concentration may in turn activate PKG1beta in thymus, lymph node, and spleen cells and also PKG1alpha in spleen cells.
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PMID:The cGMP synthesis and PKG1 expression in murine lymphoid organs. 1237 25

gly96/IEX 1 is a growth- and apoptosis-regulating, immediate early gene that is widely expressed in epithelial and vascular tissues. In vascular tissues, expression of the gene is induced by mechanical stretch, and overexpression of the gene prevents injury-induced vascular smooth muscle hypertrophy and neointimal hyperplasia. We now show that deletion of the gly96/IEX-1 gene in mice is associated with development of elevated blood pressure, cardiac hypertrophy, and diminished fractional shortening of the left ventricle. Systolic blood pressure in conscious male gly96/IEX-1-/- mice is 20-25 mmHg higher than in gly96/IEX-1+/+ mice. Serum and/or urine concentrations of sodium, potassium, creatinine, angiotensin II, corticosterone, aldosterone, epinephrine, norepinephrine, prostaglandin E2, thromboxane B2, prostaglandin-6-keto-1alpha, nitrites and nitrates, cAMP, and cGMP are normal in gly96/IEX-1-/- mice. Alterations in dietary sodium intake do not alter blood pressure in gly96/IEX-1-/- mice. Aortic mRNAs for endothelial nitric oxide synthase, guanylate cyclase-alpha, and cGMP kinase-1 are increased in gly96/IEX-1-/- mice. Treatment with Nomega-nitro-L-arginine methyl ester or L-arginine does not alter blood pressure in gly96/IEX-1-/- mice. Gly96/IEX-1-/- mice respond to infused sodium nitroprusside with decrements in blood pressure similar to those seen in wild-type littermate mice. In contrast to gly96/IEX-1 transgenic mice that have abnormalities in immune function, gly96/IEX-1-/- mice have normal lymphoid tissue architecture and a normal complement of T and B cells in lymphoid tissues. Ablation of the gly96/IEX-1 gene results in hypertension and cardiac hypertrophy, suggesting a novel role for this gene in cardiovascular physiology.
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PMID:Elevated blood pressure and cardiac hypertrophy after ablation of the gly96/IEX-1 gene. 1616 41

Biotin affects gene expression through a diverse array of cell signaling pathways. Previous studies provided evidence that cGMP-dependent signaling also depends on biotin, but the mechanistic sequence of cGMP regulation by biotin is unknown. Here we tested the hypothesis that the effects of biotin in cGMP-dependent cell signaling are mediated by nitric oxide (NO). Human lymphoid (Jurkat) cells were cultured in media containing deficient (0.025 nmol/L), physiological (0.25 nmol/L), and pharmacological (10 nmol/L) concentrations of biotin for 5 wk. Both levels of intracellular biotin and NO exhibited a dose-dependent relationship in regard to biotin concentrations in culture media. Effects of biotin on NO levels were disrupted by the NO synthase (NOS) inhibitor N-monomethyl-arginine. Biotin-dependent production of NO was linked with biotin-dependent expression of endothelial and neuronal NOS, but not inducible NOS. Previous studies revealed that NO is an activator of guanylate cyclase. Consistent with these previous observations, biotin-dependent generation of NO increased the abundance of cGMP in Jurkat cells. Finally, the biotin-dependent generation of cGMP increased protein kinase G activity. Collectively, the results of this study are consistent with the hypothesis that biotin-dependent cGMP signaling in human lymphoid cells is mediated by NO.
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PMID:Nitric oxide signaling depends on biotin in Jurkat human lymphoma cells. 1914 4

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