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:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The possible involvement of extracellular Ca2+ ([Ca2+]o) in mediating the acute gonadotropin (GtH) response to salmon gonadotropin-releasing hormone (sGnRH) and chicken gonadotropin-releasing hormone-II (cGnRH-II) in goldfish was examined using dispersed pituitary cells in perifusion. Perifusion with Ca(2+)-deficient medium reduced the GtH responses to 5-min pulses of either GnRH, indicating the participation of [Ca2+]o in acute GnRH action. Using a 10-min GnRH pulse application protocol, the dependence of the acute GtH responses to the two GnRHs on [Ca2+]o entry through voltage-sensitive Ca2+ channels (VSCC) was examined using the dihydropyridine VSCC blocker nifedipine and the cation Co2+. Treatment with nifedipine consistently reduced the acute GtH response to either sGnRH or cGnRH-II. Similarly, perifusion with CoCl2 reduced the sGnRH-induced GtH release. In contrast to its effects on sGnRH, CoCl2 abolished the cGnRH-II-induced GtH release. These results indicate that [Ca2+]o entry through VSCC participates in the acute GtH response to both native GnRHs; however, the cGnRH-II-stimulated acute release is relatively more dependent on [Ca2+]o and VSCC functions than sGnRH-induced secretion. The involvement of calmodulin (CaM) in mediating GnRH action was also examined. Treatment with a CaM antagonist, calmidazolium, or with a Ca2+/CaM-dependent protein kinase II inhibitor, KN62, reduced GtH responses to sGnRH and cGnRH-II in 2-hr static incubation, but not in perifusion studies with dispersed goldfish pituitary cells using 5- or 10-min GnRH pulses. These results suggest that CaM-dependent mechanisms participate in mediating the long-term, but not the acute, GtH response to GnRH. Compared to sGnRH, cGnRH-II-induced GtH release was more sensitive to inhibition by KN62, indicating a higher degree of dependence of cGnRH-II action on CaM. These results extend our understanding of the differential involvement of [Ca2+]o and CaM in mediating the short-term and long-term actions of the two native GnRH peptides on GtH release in goldfish.
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PMID:Roles of calcium and calmodulin in the mediation of acute and sustained GnRH-stimulated gonadotropin secretion from dispersed goldfish pituitary cells. 871 48

An intestinal hormone glucagon-like-peptide-1 (GLP-1) is a prominent candidate for incretin. In vitro experiment showed (Fridolf and Ahren, Mol. Cell. Endocrinol., 96 (1993) 85-90) that GLP-1 increased both insulin secretion and the efflux of 45Ca2+ in a Na(+)-dependent manner. Further, GLP-1 depolarizes the pancreatic beta cells in the presence of high concentration of glucose. Here, we report the effect of GLP-1 on the membrane potential with a physiological concentration of glucose in perforated patch clamp of primary cultured rat beta cells. 10 nM GLP-1 depolarized the beta cell, which was completely reversed by replacing Na+ with the impermeant molecule N-methyl-D-glucamine (NMDG). The Ca2+ channel blocker, Co2+ suppressed the Ca2+ spikes without hyperpolarizing the cell. GLP-1-induced insulin secretion in perifused islets was also suppressed by a prior replacement of Na+ with NMDG. In addition, GLP-1 slightly augmented the long-lasting Ba2+ current, which was reverted to the control level by a selective inhibitor of protein kinase A, H-89. These results indicate: (i) GLP-1 depolarizes the beta cell by activating the membrane Na+ permeability; (ii) GLP-1 slightly modulates the L-type Ca2+ channel probably through protein kinase A; and (iii) at least in part, these mechanisms may be involved in the insulin secretion induced by GLP-1.
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PMID:GLP-1 depolarizes the rat pancreatic beta cell in a Na(+)-dependent manner. 873 78

Adenosine 3' 5'-monophosphate (cyclic AMP) - dependent protein kinase was purified about 42 fold from the M. smegmatis by ammonium sulphate fractionation followed by DEAE-cellulose and phosphocellulose column chromatography. SDS-PAGE revealed two prominent bands, with molecular masses of 55 KDa and 58 KDa. The enzyme preferentially utilized phosvitin and Histones as exogenous phosphate acceptor. Mg2+ ions were essential for enzyme activity, other metal ions like Ca2+, Zn2+, Co2+ and Mn2+, could not substitute for Mg2+. Inhibition of enzyme activity by thiol reagents, 5-5'-dithio bis (2-nitrobenzoic acid) and N-ethylmaleimide suggest that the cystein residues in the protein kinase might be located at or near the active site of the enzyme.
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PMID:Partial purification and characterization of cyclic adenosine monophosphate dependent protein kinase from mycobacterium smegmatis. 893 28

By using a beta-casein-derived specific peptide substrate for mammary gland Golgi-enriched-fraction casein kinase, phosphorylating activity has been detected in the Golgi apparatus of rat liver, spleen and to a lesser extent, kidney and brain, while the other post-nuclear cytoplasmic fractions are totally devoid of such a casein kinase activity. In contrast ubiquitous protein kinases CK1 and CK2 (casein kinases 1 and 2), tested with their specific peptide substrates, display different subcellular distribution and are almost undetectable in the Golgi fraction. The absence of CK2 in the Golgi fraction has been also confirmed using specific antibodies. The relatedness between the liver Golgi apparatus casein kinase (G-CK) and the bona fide mammary gland Golgi-enriched-fraction casein kinase (GEF-CK) is supported by a variety of observations, notably: (a) identical peptide substrate specificity, consistent with an S-X-E-X consensus sequence; (b) preference for Mn2+, and, to a lesser extent, Co2+, over Mg2+, as activating cation; (c) superimposable elution profiles from DEAE-Sepharose, heparin-Sepharose, and Superdex 200, this latter consistent with a molecular mass around 500 kDa; (d) insensitivity to staurosporine and heparin (a potent inhibitor of CK2) and inability to use GTP as phosphate donor (by contrast to CK2). These data provide the evidence for the existence of a third class of ubiquitous casein kinases here termed G-CK, distinct from CK1 and CK2, specifically located to the Golgi apparatus and related to the bona fide casein kinase(s) responsible for the phosphorylation of casein secreted from lactating mammary gland. The possible involvement of G-CK in the phosphorylation of secretory pathways proteins at S-X-E motifs is discussed.
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PMID:Rat liver Golgi apparatus contains a protein kinase similar to the casein kinase of lactating mammary gland. 905 37

In response to oxygen deprivation, CA1 pyramidal neurons show a hyperpolarization (hypoxic hyperpolarization), which is associated with a reduction in neuronal input resistance. The role of extra- and intracellular Ca2+ ions in hypoxic hyperpolarization was investigated. The hypoxic hyperpolarization was significantly depressed by tolbutamide (100 microM); moreover, the response was reversed in its polarity in medium containing tolbutamide (100 microM), low Ca2+ (0.25 mM), and Co2+ (2 mM), suggesting that the hypoxic hyperpolarization is mediated by activation of both ATP-sensitive K+ (KATP) channels and Ca(2+)-dependent K+ channels. The hypoxic depolarization in medium containing tolbutamide, low Ca2+, and Co2+ is probably due to inhibition of the electrogenic Na(+)-K+ pump and concomitant accumulation of interstitial K+. Hypoxic hyperpolarizations were depressed in either low Ca2+ (0.25 or 1.25 mM) or high Ca2+ (5 or 7.5 mM) medium (control: 2.5 mM), indicating that there is an optimal extracellular Ca2+ concentration required to produce the hypoxic hyperpolarization. Bis-(o-aminophenoxy)-N,N,N',N'-tetraacetic acid (BAPTA)-AM (50-100 microM), procaine (300 microM), or ryanodine (10 microM) significantly depressed the hypoxic hyperpolarization, suggesting that Ca2+ released from intracellular Ca+ stores may have an important role in the generation of hypoxic hyperpolarization. The high-affinity calmodulin inhibitor N-(6-amino-hexyl)-5-chloro-1-naphthalenesulfonomide hydrochloride (W-7) (5 microM) completely blocked, whereas the low-affinity calmodulin inhibitor N-(6-aminohexyl)-1-naphthalenesulfonomide hydrochloride (W-5) (50 microM) did not affect, the hypoxic hyperpolarization. The calmodulin inhibitor trifluoperazine (50 microM) also suppressed the hypoxic hyperpolarization. In addition, calcium/ calmodulin kinase II inhibitor 1-[N,O-bis (1,5-isoquinol-inesulfonyl)-N-methyl-L-tyrosyl]-4-phenyl-pip erazine (KN-62) (10 microM) markedly depressed the amplitude and net outward current of the hypoxic hyperpolarization without affecting the reversal potential. In contrast, neither the myosin light chain kinase inhibitor 1-(5-iodonaphthalene-1-sulfonyl)-1H-hexa-hydro-1,4-diazepin hydrochloride (ML-7) (10 microM) nor the protein kinase A inhibitor N-[2-(p-bromocinnamyl-amino) ethyl]-5-isoquinolinesulfonamide (H-89) (1 microM) significantly altered the hypoxic hyperpolarization. These results suggest that calmodulin kinase II, which is activated by calmodulin, may contribute to the generation of the hypoxic hyperpolarization. In conclusion, the present study indicates that, in the majority of hippocampal CA1 neurons, the hypoxic hyperpolarization is due to activation of both KATP channels and Ca(2+)-dependent K+ channels.
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PMID:Mediation by intracellular calcium-dependent signals of hypoxic hyperpolarization in rat hippocampal CA1 neurons in vitro. 912 May 79

Dopamine gates a fast excitatory response in Helix C2 neurones. Whole cell, and multiple unitary dopamine-gated currents showed variable decay rates and desensitization properties, suggesting the presence of more than one channel type. Manipulation of internal free [Ca2+] by various procedures (external zero Ca2+ or 1 mM Co2+, prolonged depolarization, A23187, or flufenamic acid), affected both the amplitude and decay time for the response, and also suggested the presence of separate fast and slowly decaying components. Responses were prolonged by intracellular fluoride a non specific phosphatase inhibitor, and attenuated and shortened by the protein kinase inhibitors H7 and staurosporine, and the calmodulin inhibitor W7. Phorbol ester potentiated and prolonged the response and this effect was reversibly antagonized by the specific protein kinase C inhibitor chelerythrine. Different dopamine-activated unitary currents were distinguished in outside-out patches by conductance (5, 8, 12 and 15pS), rate of recovery from desensitization, and pattern of openings. Discrimination of slow and fast components of the response was possible with apomorphine, ADTN, and caffeine. Paradoxically the dopamine antagonists chlorpromazine and spiperone, but not dopamine itself, stimulated sustained activity of 5pS unitary currents which did not desensitize in outside-out patches. Modulation of different channels underlying the fast dopamine response by protein kinase C, and possibly other mechanisms, provides a potent means of controlling excitatory dopaminergic synaptic transmission.
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PMID:Modulation of ligand-gated dopamine channels in Helix neurones. 917 32

Saccharomyces cerevisiae YGR262c gene, whose disruption causes severely defective growth, encodes a putative protein kinase shorter than any other protein kinase biochemically characterized to date and lacking some of the conserved features of these enzymes. Here we show that the product of the YGR262c gene, piD261, expressed in E. coli with a C-terminal (His)6 tag, is a bona fide Ser/Thr protein kinase as judged from its capability to autophosphorylate and to phosphorylate casein and osteopontin in the presence of [gamma-32P]ATP. In contrast, no phosphorylation of histones, myelin basic protein, phosvitin, bovine serum albumin and poly(Glu/Tyr)4:1 could be detected. Mn2+ or, less effectively, Co2+ are required for piD261 catalytic activity, which is conversely undetectable in the presence of Mg2+, a behaviour unique among Ser/Thr protein kinases.
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PMID:Biochemical evidence that Saccharomyces cerevisiae YGR262c gene, required for normal growth, encodes a novel Ser/Thr-specific protein kinase. 930 53

We have previously shown that nucleotide species (adenosine triphosphate [ATP] or guanosine triphosphate [GTP]), [Cl-], and anion species determine the steady-state phosphorylation of apical membrane proteins within human airway epithelium in vitro. We found that a Cl(-)-regulated 37-kD protein (p37) principally phosphorylated with GTP but not ATP as substrate. Here we show that apical membranes from sheep tracheal epithelium also contain a Cl(-)-regulated 37-kD phosphoprotein (p37s) and characterize one of the kinases involved in the regulation of p37s. Analysis of phosphorylation of apical membrane proteins with gamma[32P]GTP in the presence of MgCl2 showed that two proteins circa 19 and 21 kD (p19s and p21s) were transiently phosphorylated before p37s. Renaturation of apical membrane proteins within polyacrylamide gels showed that p19s and p21s autophosphorylated with either gamma[32P]GTP or gamma[32P]ATP as substrates, suggesting that the two proteins were kinases. Immunoblotting and immunoprecipitation with a specific polyclonal antibody showed that p21s was a membrane-bound isoform of nucleoside diphosphate kinase (NDPK, EC 2.7.4.6), a protein kinase which catalyzes transfer of terminal phosphate from ATP to diphosphate nucleotides and is, among other functions, essential for cell secretion. Incubation of apical membrane proteins in the presence of gamma[32P]ATP and guanosine diphosphate (GDP) (but not GDPbetaS) resulted in enhancement of phosphorylation of p37s. Dephosphorylation of NDPK was stimulated by the addition of Mg2+, Mn2+, and Co2+ (but not Zn2+ or Ca2+). Our data show that ovine trachea is a good model for further characterization of the chloride-dependent cascade in airway epithelium.
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PMID:Nucleoside diphosphate kinase and Cl(-)-sensitive protein phosphorylation in apical membranes from ovine airway epithelium. 947 15

There is a difference between the sheep and rat somatotrophs in the response to growth hormone-releasing peptide-2 (GHRP-2), which raises the question of what the response may be in human somatotrophs. In the present study, cells were obtained from seven human acromegalic tumours and the effects of GHRP-2 were studied. Cells were dissociated and kept in primary culture for 1-3 weeks before experimentation. Application of GHRP-2 for 30 min induced a significant increase in GH secretion from the cultured cells from all seven tumours whereas human GH-releasing hormone (hGHRH) at a dose of 10 nM induced a significant GH release in only four of seven tumours. The intracellular levels of cAMP in all seven tumours were significantly increased by both 10 nM GHRP-2 and GHRH, but the response to GHRH was significantly higher than the response to GHRP-2. The adenylyl cyclase inhibitor, MDL 12330A, blocked the effect of GHRH and GHRP-2 on intracellular cAMP levels, whereas the Ca2+ channel blocker Co2+ (0.5 mM) did not attenuate the cAMP response. For the tumours in which GH secretion was increased by GHRH and GHRP-2, the cAMP antagonist Rp-cAMP blocked the GH response to GHRH but not to GHRP-2. When a protein kinase A (PKA) inhibitor (H89) was applied, GHRH stimulated GH release was blocked, but cAMP accumulation was not affected. The response to GHRP-2 was not altered by H89. Calphostin C [a protein kinase C (PKC) inhibitor] reduced the effect of GHRP-2 on the secretion of GH but did not affect the response to GHRH. Both GHRH and GHRP-2 increased the intracellular Ca2+ concentration in a concentration-dependent manner. We conclude that (1) GHRH increases GH secretion from human GH tumours via the cAMP pathway whereas GHRP-2 increases GH secretion mainly via the PKC pathway; (2) GHRH increases cAMP (without GH release) in a subset of tumours whereas GHRP-2 increases cAMP levels (slightly) and GH secretion in all tumours; and (3) GHRP-2 and GHRH do not act on the same receptor on human somatotrophs derived from acromegalic tumours.
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PMID:Effect of growth hormone-releasing peptide-2 (GHRP-2) and GH-releasing hormone (GHRH) on the the cAMP levels and GH release from cultured acromegalic tumours. 968 50

Type 1 protein phosphatase encoded by the GLC7 gene was purified from Saccharomyces cerevisiae as a 1:1 complex with mammalian inhibitor 2 fused to glutathione S-transferase. The complex was inactive and required treatment with Co2+ and trypsin for maximal activity. The specific activity toward phosphorylase a was about 1.8 units/mg of Glc7p, and IC50's for inhibitor 2, okadaic acid, and microcystin-LR were 7.3, 81, and 0.30 nM, respectively. The complex could be activated by glycogen synthase kinase-3 in the presence of Mg2+ and ATP to 20% of the activity seen with Co2+ and trypsin. Thus, the catalytic properties of the yeast type 1 phosphatase are similar to those of the mammalian protein phosphatase 1. The R73C mutant phosphatase from the glycogen-deficient strain, glc7-1, purified as a 1:1 complex with the inhibitor 2 fusion, had a specific activity toward phosphorylase a of 0.9 unit/mg of Glc7p, and IC50's for inhibitor 2, okadaic acid, and microcystin-LR were 13. 1, 113, and 0.37 nM, respectively. The R73C mutation slightly decreases the specific activity and sensitivity to inhibitors, suggesting that changes in biochemical properties may affect glycogen levels. However, the modest changes are consistent with our previous proposal (E. M. Reimann et al., 1993, Adv. Protein Phosphatases 7,173-182) and with the results of Stuart et al. (1994, Mol. Cell. Biol. 14, 896-905) that the mutation may selectively alter the interaction of Glc7p with regulatory proteins.
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PMID:Purification and characterization of type 1 protein phosphatase from Saccharomyces cerevisiae: effect of the R73C mutation. 972 Nov 83


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