Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human cytomegalovirus (HCMV) is a major pathogen in immunosuppressed individuals, including patients with acquired immune deficiency syndrome. The nucleoside analogue ganciclovir (9-(1,3-dihydroxy-2-propoxymethyl)-guanine) is one of the few drugs available to treat HCMV infections, but resistant virus is a growing problem in the clinic and there is a critical need for new drugs. The study of ganciclovir-resistant mutants has indicated that the selective action of ganciclovir depends largely on virus-controlled phosphorylation in HCMV-infected cells. The enzyme(s) responsible have not been identified. Here we report that the HCMV gene UL97, whose predicted product shares regions of homology with protein kinases, guanylyl cyclase and bacterial phosphotransferases, controls phosphorylation of ganciclovir in HCMV-infected cells. A four-amino-acid deletion of UL97 in a conserved region, which in cyclic AMP-dependent protein kinase participates in substrate recognition, causes impaired ganciclovir phosphorylation. The implications of these results for antiviral drug development and drug resistance are discussed.
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PMID:A protein kinase homologue controls phosphorylation of ganciclovir in human cytomegalovirus-infected cells. 132 83

Atrial natriuretic peptide (ANP) binds to a transmembrane receptor having intrinsic guanylyl cyclase activity; this receptor has been designated GC-A. Binding of ANP to GC-A stimulates its catalytic activity, resulting in increased production of the second messenger, cyclic GMP. Here we show that GC-A can be expressed in insect cells using a recombinant baculovirus and that the expressed protein retained its abilities to bind ANP and to function as an ANP-activated guanylyl cyclase. In addition, GC-A produced in insect cells was absolutely dependent on the presence of adenine nucleotides for activation by ANP. Millimolar concentrations of ATP were required for optimal activation. The relative potencies of various nucleotides for activation was adenosine 5'-O-(thiotriphosphate) greater than ATP greater than ADP, adenosine 5'-(beta, gamma-imino)triphosphate greater than ADP beta S. AMP had no effect. These studies suggest that binding of an adenine nucleotide, most likely to the protein kinase-like domain of GC-A, is absolutely required for ANP activation. Regulation of guanylyl cyclase activation by adenine nucleotides represents a novel mechanism for the modulation of signal transduction, possibly analogous in some respects to the role of guanine nucleotides and G proteins in the regulation of adenylyl cyclase activity.
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PMID:Adenine nucleotides are required for activation of rat atrial natriuretic peptide receptor/guanylyl cyclase expressed in a baculovirus system. 167 58

The plasma membrane forms of guanylyl cyclase constitute a diverse family of cell surface receptors. An mRNA for the enzyme/receptor was first cloned from sea urchin testis after cross-linking studies suggested that guanylyl cyclase was a sperm receptor for egg peptides. The enzyme/receptor was shown to contain a single putative transmembrane domain, a large extracellular region that presumably binds peptide ligands, and an intracellular region that contains a protein kinase-like and a cyclase catalytic domain. The sea urchin cDNA was then used to isolate positive-hybridizing clones from mammalian tissues. At least two forms recognize natriuretic peptides and one form recognizes the heat-stable enterotoxins. In the case of the enterotoxin receptor, it remains to be shown whether or not an endogenous ligand exists that regulates enzyme activity. The discovery of this cell surface receptor family presents a new paradigm for second messenger signalling in that a low-molecular weight second messenger (cyclic GMP) is produced by the same protein that binds the extracellular ligand.
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PMID:Identification of a cell surface receptor common to germ and somatic cells. 167 13

Plasma membrane forms of guanylyl cyclase have been shown to function as natriuretic peptide receptors. We describe a new clone (GC-C) encoding a guanylyl cyclase receptor for heat-stable enterotoxin. GC-C encodes a protein containing an extracellular amino acid sequence divergent from that of previously cloned guanylyl cyclases; however, the protein retains the intracellular protein kinase-like and cyclase catalytic domains. Expression of GC-C in COS-7 cells results in high guanylyl cyclase activity. In addition, heat-stable enterotoxin from E. coli, but not natriuretic peptides, causes marked elevations of cyclic GMP and is specifically bound by cells transfected with GC-C. The enterotoxin fails to elevate cyclic GMP in nontransfected cells or in cells transfected with the natriuretic peptide/guanylyl cyclase receptors. These results show that a heat-stable enterotoxin receptor responsible for acute diarrhea is a plasma membrane form of guanylyl cyclase.
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PMID:Guanylyl cyclase is a heat-stable enterotoxin receptor. 170 94

A survey of the available literature leads to the conclusion that the most probable mechanism by which nitrovasodilators act, is by nitric oxide (NO) formation. This by itself or by formation of a nitrosothiol (e.g. nitroscocysteine) activates guanylyl cyclase which increases the production of cyclic guanosine monophosphate (cGMP). Endothelium-derived relaxing factor (EDRF), which later turned out to be or to form NO, relaxes smooth muscle by stimulating cGMP formation. The effect of cGMP is mediated by a cGMP-dependent protein kinase and causes a reduction in the intracellular concentration of free Ca2+ ions in the smooth muscle cell. The precise mechanism of this effect is not completely clear but sequestration into sarcoplasmatic reticulum seems to play a major role. In order to identify the nature of the endogenous stimulator of guanylyl cyclase, i.e. to decide whether it is a nitrosothiol or the free radical NO, we compared the effects of NO, nitrosocysteine and nitrosoglutathione on vascular relaxation and increases in cGMP levels in isolated bovine circular strips and on guanylyl cyclase activity in vitro. Induction of tolerance and of cross-tolerance between various NO donors was also investigated. Nitrosodium and nitrosoglutathione augmented cGMP and relaxed vascular smooth muscle slightly more powerfully than NO. The three agents induced slight tolerance after repeated administration without affecting cGMP rises or desensitizing guanylyl cyclase. Pretreatment of coronary strips with nitrosoglutathione caused largely similar cross-tolerance as did NO against nitroglycerin, SIN-1 and sodium nitroprusside. The similarities to NO characterize nitrosocysteine as its most likely precursor, e.g. as EDRF.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cellular mechanisms of action of therapeutic nitric oxide donors. 179 Jul 79

Cyclic GMP (cGMP) signals through protein kinases, ion channels, and possibly other effector systems as a second messenger. Its synthesis is regulated by guanylyl cyclase, whose activity is found in various cellular compartments including the plasma membrane and cytosol. A soluble form of guanylyl cyclase, which occurs as a heterodimer, appears to serve as a receptor for nitric oxide or nitrosothiols, or both. Recent research suggests the presence of multiple subtypes of the soluble form of guanylyl cyclase and tissue-specific expression of the different forms. At least two different forms of the plasma membrane guanylyl cyclase are known to occur in various mammalian tissues. One form, GC-A, is a receptor for atrial natriuretic peptide, and the binding of ligand causes marked increases in cGMP production. The other form, GC-B, is stimulated more effectively by a brain natriuretic peptide than by atrial natriuretic peptide, but its natural ligand remains in question. Both plasma membrane forms of the enzyme contain a single, putative transmembrane domain. The intracellular region of both forms contains a protein kinase-like domain just within the transmembrane domain. The protein kinase-like domain is followed by a cyclase catalytic region near the carboxyl terminus that is homologous to two internally homologous domains found in a bovine brain adenylyl cyclase. The possibility that other guanylyl cyclase receptor subtypes exist is now being explored. If they do, we may subsequently find that a diversity of specific ligands signals through cGMP.
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PMID:The guanylyl cyclase receptor family. 198 20

We assessed the role of cyclic nucleotides in modulating lipopolysaccharide (LPS)-induced tumor necrosis factor-alpha (TNF-alpha) generation in human peripheral blood monocytes. Exposure of monocytes to LPS (3 ng/ml) evoked a delayed, time-dependent generation of TNF-alpha that reached a maximum level 5-6 hr after LPS challenge and remained constant for up to 24 hr. This effect was concentration dependent and resulted in a 20-40-fold increase in the release of TNF-alpha that was sensitive to actinomycin D and cycloheximide. Treatment of monocytes with agents reputed to activate the cAMP/cAMP-dependent protein kinase (PKA) cascade in general inhibited LPS-induced TNF-alpha generation. Thus, the beta 2-adrenoceptor agonists albuterol and procaterol partially (approximately 40%) suppressed TNF-alpha generation in a propranolol-sensitive manner. Furthermore, 8-bromo-cAMP, cholera toxin, prostaglandin E2, and a number of drugs (i.e., rolipram (ZK 62711), denbufylline (BRL 30892), Ro 20-1724, benafentrine (AH 21-132), that inhibit the phosphodiesterase (PDE) 4 isoenzyme family abolished cytokine generation. In contrast, forskolin, inhibitors of PDE3 and PDE5, and activators of soluble and particulate guanylyl cyclase were essentially inactive. Interestingly, rolipram failed to potentiate the inhibitory effect of albuterol on LPS-induced TNF-alpha biosynthesis but, paradoxically, synergized with albuterol in the generation of cAMP and in the activation of PKA. When PGE2 was used to activate adenylyl cyclase, however, rolipram potentiated cAMP accumulation, PKA activation, and inhibition of TNF-alpha generation. In contrast, forskolin did not increase the cAMP content of monocytes in the absence or presence of rolipram. Collectively, these data suggest that LPS-induced TNF-alpha generation by human peripheral blood monocytes is due to increased transcription and subsequent translation of the TNF-alpha gene and that these effects are suppressed by a range of agents that activate the cAMP/PKA cascade. However, the failure of rolipram to potentiate the inhibitory effect of albuterol and procaterol on TNF-alpha generation suggests that beta 2-adrenoceptor agonists may affect gene expression and/or post-transcriptional regulatory processes by, at least in part, a cAMP-independent mechanism(s).
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PMID:Suppression of lipopolysaccharide-induced tumor necrosis factor-alpha generation from human peripheral blood monocytes by inhibitors of phosphodiesterase 4: interaction with stimulants of adenylyl cyclase. 747 3

Heat-stable enterotoxins (STa) produced by pathogenic bacteria induce profound salt and water secretion in the gut, leading to diarrhea. Recently, guanylin, an endogenous peptide with properties similar to STa, was identified. While STa and guanylin bind to the same receptor guanylyl cyclase and raise cell cGMP, the signaling mechanism distal to cGMP remains controversial. Here we show that STa, guanylin and cGMP each activate intestinal Cl- secretion, and that this is abolished by inhibitors of cAMP-dependent protein kinase (PKA), suggesting that PKA is a major mediator of this effect. These agents induce Cl- secretion only in cells expressing the wild-type CFTR, indicating that this molecule is the final common effector of the signaling pathway. The involvement of CFTR suggests a possible cystic fibrosis heterozygote advantage against STa-induced diarrhea.
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PMID:Activation of intestinal CFTR Cl- channel by heat-stable enterotoxin and guanylin via cAMP-dependent protein kinase. 751 Jun 34

Long-term potentiation (LTP) in hippocampus is a type of synaptic plasticity that is thought to be involved in learning and memory. Several lines of evidence suggest that LTP involves 3',5'-cyclic GMP (cGMP), perhaps as an activity-dependent presynaptic effector of one or more retrograde messengers (refs 2-12, but see ref. 13). However, previous results are also consistent with postsynaptic effects of cGMP. This is difficult to test in hippocampal slices, but more rigorous tests are possible in dissociated cell culture. We have therefore developed a reliable method for producing N-methyl-D-aspartate (NMDA) receptor-dependent LTP at synapses between individual hippocampal pyramidal neurons in culture. We report that inhibitors of guanylyl cyclase or of cGMP-dependent protein kinase block potentiation by either tetanic stimulation or low-frequency stimulation paired with postsynaptic depolarization. Conversely, application of 8-Br-cGMP to the bath or injection of cGMP into the presynaptic neuron produces activity-dependent long-lasting potentiation. The potentiation by cGMP involves an increase in transmitter release that is in part independent of changes in the presynaptic action potential. These results support a presynaptic role for cGMP in LTP.
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PMID:Activity-dependent long-term enhancement of transmitter release by presynaptic 3',5'-cyclic GMP in cultured hippocampal neurons. 759 38

Natriuretic peptides inhibit the release and action of many hormones through cyclic guanosine monophosphate (cGMP), but the mechanism of cGMP action is unclear. In frog ventricular muscle and guinea-pig hippocampal neurons, cGMP inhibits voltage-activated Ca2+ currents by stimulating phosphodiesterase activity and reducing intracellular cyclic AMP; however, this mechanism is not involved in the action of cGMP on other channels or on Ca2+ channels in other cells. Natriuretic peptide receptors in the rat pituitary also stimulate guanylyl cyclase activity but inhibit secretion by increasing membrane conductance to potassium. In an electrophysiological study on rat pituitary tumour cells, we identified the large-conductance, calcium- and voltage-activated potassium channels (BK) as the primary target of another inhibitory neuropeptide, somatostatin. Here we report that atrial natriuretic peptide also stimulates BK channel activity in GH4C1 cells through protein dephosphorylation. Unlike somatostatin, however, the effect of atrial natriuretic peptide on BK channel activity is preceded by a rapid and potent stimulation of cGMP production and requires cGMP-dependent protein kinase activity. Protein phosphatase activation by cGMP-dependent kinase could explain the inhibitory effects of natriuretic peptides on electrical excitability and the antagonism of cGMP and cAMP in many systems.
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PMID:Potassium channel stimulation by natriuretic peptides through cGMP-dependent dephosphorylation. 767 99


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