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

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Query: EC:2.7.11.12 (PKG)
2,515 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Signal transduction for the characteristic long-term desensitization of glutamate receptors in Purkinje cells was investigated with wedge recordings from rat cerebellar slices. Long-term desensitization was induced specifically in the AMPA-selective subtype of glutamate receptors following brief exposure to 100 microM quisqualate. It was abolished either by treatment of the rat with pertussis toxin or by perfusion of a slice with BAPTA-AM, L-NMMA, hemoglobin, or inhibitor of PKG. Brief application of AMPA alone did not cause desensitization, but in combination with t-ACPD, sodium nitroprusside, or 8-bromo-cGMP, AMPA produced desensitization similar to that induced by quisqualate. These results indicate that the desensitization arises from activation of AMPA receptors in association with activation of metabotropic glutamate receptors, the latter leading to Ca2+ elevation to nitric oxide (NO) production to cGMP synthesis, and eventually to activation of PKG.
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PMID:Messengers mediating long-term desensitization in cerebellar Purkinje cells. 196 3

A protein that exhibits greater substrate specificity for cGMP-dependent protein kinase than for cAMP-dependent protein kinase has been purified 8,000-fold from cytosol of rabbit cerebellum to apparent homogeneity as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The protein, termed G-substrate, is a monomer of 23,000 daltons. It is heterogeneous on isoelectric focusing, exhibiting three isoelectric forms over the pH range of 5.2-5.6 cGMP-dependent protein kinase catalyzes the incorporation of 2 mol of phosphate/mol of G-substrate, both into threonine residues. The protein has a high content of aspartate, glutamate, and proline. The hydrodynamic properties, heat stability, and acid solubility of this protein are consistent with an unfolded, nonglobular structure. G-substrate is localized primarily in the cytosol of cerebellum, although low concentrations of a phosphorylated protein with a similar molecular weight are detected in other brain regions.
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PMID:A specific substrate from rabbit cerebellum for guanosine 3':5'-monophosphate-dependent protein kinase. I. Purification and characterization. 625 70

The phosphorylation of threonine residues in the catalytic core of several protein kinases is important for the functional integrity of these enzymes. The corresponding residues of cGMP-dependent protein kinase I alpha (cGMP kinase) are Thr-514 and/or Thr-516. The in vivo phosphorylation and functional role of these residues was studied. cGMP kinase was overexpressed and purified as a catalytically active and inactive enzyme in Sf9 insect cells and in Escherichia coli, respectively. The enzymological and physicochemical properties of the Sf9 cGMP kinase were indistinguishable from that of the purified bovine lung enzyme. The cysteines of cGMP kinase including Cys-518 were labeled with vinylpyridine. Amino acid sequencing and mass spectroscopy of the labeled peptides showed that Thr-516 was phosphorylated in the enzyme purified from Sf9 cells but not in that from E. coli. The functional importance of phosphothreonine-516 was investigated by substitution of Thr-516 by alanine (T516A) or by glutamate (T516E). Expression in insect cells of the T516A mutant resulted in a protein lacking detectable kinase activity, whereas the T516E mutant retained basal phosphotransferase activity. In E. coli, the exchange of Thr-516 by glutamate did not lead to the synthesis of a catalytically active enzyme. These results demonstrate that phosphothreonine-516 of cGMP kinase is crucial for the formation of an enzymatically active protein kinase.
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PMID:Functional cGMP-dependent protein kinase is phosphorylated in its catalytic domain at threonine-516. 754 77

Cerebellar long-term depression (LTD) is a model system of information storage in which a persistent attenuation of the parallel fiber-Purkinje neuron (PN) synapse is induced by conjunctive stimulation of parallel fiber and climbing fiber inputs at low frequency. As some studies have suggested that release of the gaseous second messenger, nitric oxide (NO), in the molecular layer and the consequent activation of soluble guanylate cyclase and cGMP-dependent protein kinase (PKG) in the PN, is necessary for LTD induction, we have further examined this hypothesis using a cell culture protocol. In cerebellar cultures made from transgenic mice in which the gene for neuronal nitric oxide synthase (nNOS) has been rendered null, LTD induced by glutamate/depolarization conjunctive stimulation was indistinguishable from that in cultures from wild-type mice in terms of amplitude, rate of onset, and duration. Bath application of cGMP analogs produced a large (80%), transient attenuation of glutamate-gated inward currents. However, application of an activator of soluble guanylate cyclase or an inhibitor of type V cGMP-phosphodiesterase did not mimic the effect of cGMP analogs, and inclusion of cGMP analogs in the patch pipette did not give rise to a slowly developing attenuation, suggesting that these compounds exert their effects at the cell surface. Free Ca was measured in the distal dendritic arbor of single PNs by fura-2 microfluorimetry.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:An evaluation of the nitric oxide/cGMP/cGMP-dependent protein kinase cascade in the induction of cerebellar long-term depression in culture. 762 38

The Alzheimer's disease (AD) beta-amyloid precursor proteins (beta APPs) are large membrane-spanning proteins that give rise to the beta A4 peptide deposited in AD amyloid plaques. beta APPs can also yield soluble forms (APPss) that are potently neuroprotective against glucose deprivation and glutamate toxicity, perhaps through their ability to lower the intraneuronal calcium concentration ([Ca2+]i). We have investigated the mechanism through which APPss exert these effects on cultured hippocampal neurons. The ability of APPss to lower rapidly [Ca2+]i was mimicked by membrane-permeable analogues of cyclic AMP (cAMP) and cyclic GMP (cGMP), as well as agents that elevate endogenous levels of these cyclic nucleotides. However, only cGMP content was increased by APPs treatment, and specific inhibition of cGMP-dependent protein kinase (but not cAMP-dependent kinase) blocked the activity of APPss. A membrane-permeable analogue of cGMP (8-bromo-cGMP) also mimicked the ability of APPss to attenuate the elevation of [Ca2+]i by glutamate, apparently through inhibition of NMDA receptor activity. In addition, 8-bromo-cGMP afforded protection against glucose deprivation and glutamate toxicity, and the protection by APPss against glucose deprivation was blocked by an inhibitor of cGMP-dependent kinase. Together, these data suggest that APPss mediate their [Ca2+]i-lowering and excitoprotective effects on target neurons through increases in cGMP levels.
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PMID:Role of cyclic GMP in the regulation of neuronal calcium and survival by secreted forms of beta-amyloid precursor. 772 92

We have previously demonstrated that the metabotropic glutamate receptor (mGluR) agonist (1S,3R)-1 aminocyclopentane-1,3-dicarboxylate (ACPD) presynaptically inhibits evoked glutamatergic EPSCs and GABAergic IPSCs in patch clamped rat nucleus tractus solitarius (NTS) neurons recorded in this slices. The present study investigated the pharmacology of the presynaptic mGluRs, the the voltage dependent Ca2+ channel (VDCC) subtypes supporting neurotransmitter release, and possible interactions between the two. Monosynaptic EPSCs or IPSCs were evoked by electrical stimulation in the region of the tractus solitarius (TS). The effects of the mGluR agonists ACPD, (2S,3S,4S)-alpha-(carboxycyclopropyl)glycine (L-CCG-I) and L-2-amino-4-phosphonobutyrate (AP4) were examined upon EPSCs. The effects of the above compounds and quisqualate (QUIS) were examined upon IPSCs. L-CCG-I proved the most potent inhibitor of EPSCs and IPSCs. The VDCC blockers omega-AGA-IVA (AGA), omega-conotoxin GVIA (GVIA), omega-conotoxin MVIIC (MVIIC) and nimodipine (NIM) were assessed for their ability to inhibit monosynaptic EPSCs and IPSCs. EPSCs were inhibited by GVIA >> AGA > or = MVIIC. IPSCs were inhibited by AGA > or = MVIIC >> GVIA. NIM was without effect on the EPSC or IPSC. The potency of mGluR inhibition of evoked synaptic transmission was assessed in the absence and following treatment with VDCC blockers. mGluR agonists blocked a greater percentage of the EPSC or IPSC following treatment with GVIA, but not the other VDCC antagonists, than under control conditions. We have previously demonstrated that the postsynaptic inhibitory effects of mGluR activation upon GABAA mediated currents can be mimicked by cyclic guanosine monophosphate (cGMP) analogs. The cGMP-dependent protein kinase (PKG) inhibitors H8 and Rp-8-4-chlorophenylthio-guanosine-3',5'-cyclic monophosphorothioate (Rp-cG) blocked mGluR inhibition of GABAA mediated currents without blocking the ability of mGluR agonists to inhibit the IPSC. The effect of L-CCGI was enhanced following treatment with GVIA in the presence of Rp-cG, confirming a presynaptic locus of mGluR mediated inhibition of the IPSC. In contrast, cGMP analogues potentiate postsynaptic responses to glutamate agonists but depress the EPSC. As with the mGluR agonists, the inhibition of the EPSC by cGMP was potentiated following treatment with GVIA. These results suggest that presynaptic mGluR reduce both glutamate release from afferent fibers and GABA release from inhibitory interneurons following electrical stimulation in the region of the TS. Although different VDCCs support the majority of glutamate and GABA release and mGluR effects on release appear to utilize differing intracellular pathways, presynaptic GVIA-insensitive VDCCs are favorably targeted for inhibition by mGluR agonists.
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PMID:Presynaptic metabotropic glutamate receptors modulate omega-conotoxin-GVIA-insensitive calcium channels in the rat medulla. 853 76

Studies of various forms of synaptic plasticity in the central nervous system have provided insights into the cellular and molecular mechanisms for certain types of learning and memory. Activity-induced decreases and increases in synaptic efficacy can be elicited in mammalian neurons. Long-term depression (LTD) and long-term potentiation (LTP) are two major forms of activity-dependent synaptic plasticity in the brain. LTD of excitatory synaptic transmission in the cerebellum in the most well studied form of synaptic depression. The induction of cerebellar LTD requires conjunctive activation of alpha-amino-3-hydroxy-5-methyl-4-isoxalepropionate (AMPA) receptors, metabotropic glutamate receptors (mGluRs) and L-type voltage-dependent Ca2+ channels. Several intracellular second messengers and protein kinases are critical for cerebellar LTD, including cGMP, cGMP-dependent protein kinase and protein kinase C (PKC). A novel intercellular messenger, nitric oxide (NO), is found in the cerebellum, is released durinng synaptic stimulation, and may contribute to cerebellar LTD. The expression of cerebellar LTD is mediated by postsynaptic desensitization of AMPA receptors. Recently, a form of homosynaptic LTD has been described in the CA1 region of the hippocampus. The induction of hippocampal LTD is postsynaptic. N-Methyl-D-aspartate receptors and mGluRs are important for induction of hippocampal LTD. Other intracellular and intercellular messengers, such as NO, cGMP and cAMP, might act downstream from glutamate receptors during hippocampal LTD. The expression of hippocampal LTD is likely to be in part presynaptic. While cerebellar LTD may be important for motor learning, the behavioral role of hippocampal LTD remains to be explored.
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PMID:Long-term depression: a learning-related type of synaptic plasticity in the mammalian central nervous system. 871 37

Glutamate, the neurotransmitter released by photoreceptors, excites horizontal cells and OFF-type bipolar cells by activating ionotropic receptors. This study investigated an additional action of glutamate in which it modulates a voltage-gated ion channel in horizontal cells. We find that glutamate and APB (2-amino-4-phosphonobutyrate) produce a delayed and moderately prolonged suppression of an inward rectifier current (IRK+). This effect is proposed to occur via an APB-sensitive metabotropic glutamate receptor (mGluR) because common agonists for the ionotropic or APB-insensitive mGluRs are ineffective and the APB-insensitive receptor antagonist alpha-methyl-4-carboxyphenylglycine (MCPG) does not block the actions of glutamate or APB. 8-Br-cGMP, 1-methyl-3-isobutylxanthine (IBMX), and atrial natriuretic peptide (ANP) but not 8-Br-cAMP mimic the suppression of IRK+. The effects of glutamate and APB are blocked by protein kinase inhibitors including Rp-8-pCPT-cGMPS, H-8, and H-7 as well as by ATPgammaS. We hypothesize that the APB receptor suppresses IRK+ via upregulation of cGMP and subsequent activation of a cGMP-dependent protein kinase. This pathway is likely regulated by an ATP-dependent phosphorylation. This is a novel signaling pathway for mGluRs and indicates that at least two distinct APB-activated pathways exist in the retina. Functionally, this APB receptor-mediated action found in horizontal cells would provide a means by which spatially restricted changes of glutamate, produced by local illumination of photoreceptors, could regulate IRK+ and consequently the response properties of these neurons. This would serve to adapt selectively retinal regions stimulated by small regions of the visual world.
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PMID:Metabotropic glutamate receptor-mediated suppression of an inward rectifier current is linked via a cGMP cascade. 936 42

Second messengers have been shown to play a role in the release of neurotransmitters presynaptically in several brain regions and cell types. This study was designed to test the hypothesis that the increased release of aspartate and glutamate that occurs after injection of capsaicin is dependent on activation of the cAMP and the cGMP transduction cascades. A microdialysis fiber was implanted into the dorsal horn of the spinal cord for collection of extracellular fluid and for administration of drugs to the spinal cord. Dialysate samples were collected before and after injection of capsaicin and after infusion of inhibitors of protein kinase G (PKG; KT5823) or protein kinase A (PKA; H89). KT5823, H89, or artificial cerebrospinal fluid (ACSF; control) were administered after injection of capsaicin to reduce the increased release of aspartate and glutamate. At the time of injection of capsaicin, there is an increase in release of aspartate (191+/-21%) and glutamate (194+/-14%). This increased release is maintained through 2.5 h for both glutamate and aspartate at approximately 125% to 150%. The increase in aspartate and glutamate concentrations that occurs after capsaicin injection was reduced back to baseline after spinal infusion of the PKG inhibitor, KT5823. Blockade of PKA had no effect on the increased release of aspartate and glutamate. Thus, the current data support a role for the cGMP-PKG pathway in the control of neurotransmitter release in vivo.
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PMID:Increased spinal release of excitatory amino acids following intradermal injection of capsaicin is reduced by a protein kinase G inhibitor. 966 48

Perfusion of hippocampal slices with an inhibitor nitric oxide (NO) synthase blocked induction of long-term potentiation (LTP) produced by a one-train tetanus and significantly reduced LTP by a two-train tetanus, but only slightly reduced LTP by a four-train tetanus. Inhibitors of heme oxygenase, the synthetic enzyme for carbon monoxide (CO), significantly reduced LTP by either a two-train or four-train tetanus. These results suggest that NO and CO are both involved in LTP but may play somewhat different roles. One possibility is that NO serves a phasic, signaling role, whereas CO provides tonic, background stimulation. Another possibility is that NO and CO are phasically activated under somewhat different circumstances, perhaps involving different receptors and second messengers. Because NO is known to be activated by stimulation of NMDA receptors during tetanus, we investigated the possibility that CO might be activated by stimulation of metabotropic glutamate receptors (mGluRs). Consistent with this idea, long-lasting potentiation by the mGluR agonist tACPD was blocked by inhibitors of heme oxygenase but not NO synthase. Potentiation by tACPD was also blocked by inhibitors of soluble guanylyl cyclase (a target of both NO and CO) or cGMP-dependent protein kinase, and guanylyl cyclase was activated by tACPD in hippocampal slices. However, biochemical assays indicate that whereas heme oxygenase is constitutively active in hippocampus, it does not appear to be stimulated by either tetanus or tACPD. These results are most consistent with the possibility that constitutive (tonic) rather than stimulated (phasic) heme oxygenase activity is necessary for potentiation by tetanus or tACPD, and suggest that mGluR activation stimulates guanylyl cyclase phasically through some other pathway.
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PMID:On the respective roles of nitric oxide and carbon monoxide in long-term potentiation in the hippocampus. 1048 62


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