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)

GH pituitary cells have been widely utilized for studies of hormone response mechanisms. Studies reported here were motivated by the desirability of isolating characterized GH clones defective in cyclic AMP synthesis or action. Spontaneously occurring GH1 cell variants resistant to the growth-inhibitory effects of cyclic AMP analogs were isolated. Characterization of four variants showed that these were deficient in adenosine kinase and had acquired resistance to the cytotoxic effects of purine nucleoside derivatives formed in the culture medium. A second-stage selection was undertaken with mutagenized adenosine kinase-deficient cells. One 8 Br cAMP-resistant variant was found to have normal cyclic AMP-dependent protein kinase activity but exhibited altered adenylate cyclase activity. Activation of cyclase activity by fluoride, guanyl nucleotides, cholera toxin, and hormone (VIP) was subnormal in the variant. Mn-dependent cyclase activity was also subnormal, suggesting that the 8 Br cAMP-resistant variant may have a deficiency in the catalytic moiety of adenylate cyclase. Surprisingly, adenosine 3':5'-monophosphate and 5'-monophosphate derivatives were found to be equally potent in growth-inhibiting adenosine kinase-deficient cells. Cross-resistance to 8 Br AMP was observed in the 8 Br cAMP-resistant variant. We conclude that cyclic AMP derivatives inhibit growth of GH cells by an unanticipated mechanism that is, nonetheless, related to endogenous cyclic AMP synthesis.
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PMID:Multiple mechanisms of growth inhibition by cyclic AMP derivatives in rat GH1 pituitary cells: isolation of an adenylate cyclase-deficient variant. 627 95

A low-conductance Cl- channel has been identified in the apical membrane of the human pancreatic duct cell Capan-1 using patch-clamp techniques. Cell-attached channels were activated by the vasoactive intestinal polypeptide (VIP, 0.1 mumol/l), dibutyryl-adenosine 3',5'-cyclic monophosphate (db-cAMP, 1 mmol/l), 8-bromo adenosine 3',5'-cyclic monophosphate (8-Br-cAMP, 1 mmol/l), 3-isobutyl-1-methyl-xanthine (IBMX, 100 mumol/l) and forskolin (10 mumol/l). No channel activity was observed in non-stimulated control cells. In both cell-attached and excised inside-out patches, the channel had a linear current/voltage relationship and a unitary conductance of 9 pS at 23 degrees C and 12 pS at 37 degrees C. Its opening probability was not voltage dependent although pronounced flickering was induced at negative potentials. Anionic substitution led to the selectivity sequence Cl- > I- >> > HCO3- > gluconate. In inside-out excised patches, the channel activity declined spontaneously within a few minutes. Reactivation of silent excised channels was achieved by adding protein kinase A (PKA, in the presence of ATP, cAMP and Mg2+). Conversely, active channels were silenced in the presence of alkaline phosphatase. The PKA-activated Cl- channel was 4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid (DIDS, 100 mumol/l) and 4-acetamido-4'-isothiocyanatostilbene-2,2'-disulphonic acid (SITS, 100 mumol/l) insensitive, but was blocked by diphenylamine-2-carboxylic acid (DPC, 100 mumol/l). These results demonstrate that the apical low-conductance Cl- channel in Capan-1 is regulated on-cell by VIP receptors via cAMP and off-cell by PKA and phosphatases.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phosphorylation-regulated low-conductance Cl- channels in a human pancreatic duct cell line. 750 13

The regulation of intestinal mucin secretion by cytokines, soluble factors released by mucosal activated immune cells, is so far unknown. The aim of the present study was (1) to investigate the regulatory effects of interferon-gamma on baseline and stimulated mucin secretion elicited by an increase in intracellular cAMP, either a short-term increase (induced by vasoactive intestinal peptide or by forskolin) or a long-term increase (cholera toxin-induced), and (2) to attempt to delineate the site of action of interferon-gamma. The in vitro model used was the human colonic goblet cell line Cl.16E, which has already been shown to respond to physiological secretagogues in terms of mucin secretion. We examined the effects of interferon-gamma 1) on mucin exocytosis, measured as release of [3H]glucosamine-labeled macromolecules trapped at the stacking/running gel interface of polyacrylamide gels, and 2) on mucin biosynthesis, examined at the RNA level using a cDNA probe directed to the MUC2 mucin gene. We demonstrated that, while interferon-gamma did not alter baseline Cl.16E mucin secretion and MUC2 gene expression, it strongly inhibited the protein kinase A-dependent secretory response to VIP, forskolin, or cholera toxin. However, interferon-gamma had no effect on the protein kinase A-dependent MUC2 over-expression induced by cholera toxin. We thus concluded that the target for interferon-gamma inhibition of cAMP-stimulated Cl.16E mucin secretion is distal to protein kinase A and might be a component of the exocytotic machinery. Together, our results establish interferon-gamma as a pharmacologically powerful tool to specifically inhibit stimulated secretory processes without affecting baseline secretion.
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PMID:Interferon-gamma modulates cAMP-induced mucin exocytosis without affecting mucin gene expression in a human colonic goblet cell line. 751 24

Galanin has numerous effects on gastrointestinal motility in different species; however, its cellular basis of action in mediating these effects is unclear. Dispersed gastric smooth muscle cells have been shown to possess high-affinity galanin receptors that increase cAMP and cause relaxation. Recent studies show some smooth muscle relaxants such as VIP cause relaxation by both cAMP-dependent and -independent mechanisms. It is unknown if galanin's cellular basis of relaxation is similar or different from that of VIP. To investigate galanin's relaxant effect and compare it to VIP's effect, dispersed smooth muscle cells from guinea pig stomach were prepared by collagenase digestion. The mean length in resting cells was 110 +/- 2 microns and, with carbachol treatment, contracted to 89 +/- 2 microns. VIP and galanin alone had no effect on cell length, but each caused a dose-dependent inhibition of carbachol-induced contraction and both had an EC50 of 3-7 nM. Galanin (1 microM) and VIP (1 microM) increased cellular cAMP from 118 +/- 10 pmol/10(6) cells in control to 212 +/- 14 and 214 +/- 12 pmol/10(6) cells, respectively. The protein kinase A inhibitor, Rp-cAMPS, at 100 microM, completely inhibited the relaxant effect of an EC50 concentration of galanin (3 nM), but only inhibited that by VIP by 80% (p < 0.05). Adding the nitric oxide inhibitor, L-NNA (NG-nitro-L-arginine), at 100 microM did not alter the length of resting cells or inhibit carbachol-induced contraction. However, L-NNA (100 microM) decreased VIP-induced relaxation by 45%, whereas it had no effect on galanin-induced relaxation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Galanin-induced relaxation in gastric smooth muscle cells is mediated by cyclic AMP. 753 25

Conventional inhibitors of cyclic AMP-dependent protein kinase lack membrane-permeability or selectivity, or both. The Rp diastereomer of adenosine cyclic 3',5'-phosphorothioate, Rp-cAMPS, is a novel membrane-permeable antagonist of cyclic AMP. We have assessed the ability of this compound to distinguish between cyclic AMP-dependent and cyclic AMP-independent contractile responses elicited in ventricular cardiomyocytes isolated from the hearts of adult rats. Cardiomyocytes were stimulated to contract at 0.5 Hz in the presence of calcium ion (2 mM) and adenosine deaminase (5 units/ml). Contractile shortening was expressed as maximum shortening relative to prestimulus cell length (delta L%). In the presence of a maximally-effective concentration of isoprenaline (100 nM), which acts by a cyclic AMP-dependent mechanism, Rp-cAMPS inhibited the contractile response in a concentration-dependent and time-dependent manner. Following preincubation for 30 min with Rp-cAMPS (100 microM), the contractile response to isoprenaline (100 nM) was 14% of that elicited in the absence of this inhibitor. An incubation time of 30 min was chosen for all subsequent studies. Rp-cAMPS (< or = 200 microM) inhibited the contractile response to isoprenaline (100 nM) significantly and in a concentration-dependent manner, but failed to inhibit the contractile responses elicited by phenylephrine (2 microM) and calcium ion (7 mM) which act by cyclic AMP-independent mechanisms. In the presence of Rp-cAMPs (200 microM), the contractile response to isoprenaline (100 nM) was 24% of that in the absence of inhibitor. Rp-cAMPS was used subsequently to investigate the contractile-coupling mechanisms associated with some novel inotropic agents. Rp-cAMPS (< or = 200 microM) also inhibited the contractile responses to secretin (20 nM) and VIP (20 nM) significantly. In the presence of Rp-cAMPS (200 microM), the contractile response elicited by secretin (20 nM) was 19% of that in the absence of inhibitor, while that elicited by VIP (20 nM) was abolished completely. Rp-cAMPS (< or = 200 microM) failed to inhibit the contractile response elicited by CGRP (1 nM). In summary, Rp-cAMPS is a membrane-permeable, selective antagonist of cyclic AMP in ventricular cardiomyocytes and can be used, in conjunction with the bioassay of the intracellular accumulation of cyclic AMP, to distinguish between cyclic AMP-dependent and cyclic AMP-independent contractile coupling mechanisms in these cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Use of the cyclic AMP antagonist, Rp-cAMPS, to distinguish between cyclic AMP-dependent and cyclic AMP-independent contractile responses in rat ventricular cardiomyocytes. 789 68

Cl- secretion in T84 cells evoked by a stimulus that activates protein kinase C, carbachol, was associated with elevated levels of 32P-labeled phosphatidic acid (PA). PA's role in the regulation of Cl- secretion was explored by examining the effect of exogenous PA (10(-4) M) on Cl- secretion and intracellular Ca2+ levels ([Ca2+]i) in monolayers. PA potentiated the effect of carbachol on [Ca2+]i and Cl- secretion, although it did not stimulate Cl- secretion by itself. PA had divergent effects on cyclic nucleotide-dependent Cl- secretion. It delayed Cl- secretion induced by vasoactive intestinal polypeptide [VIP, adenosine 3',5'-cyclic monophosphate (cAMP) dependent] but potentiated that induced by the heat-stable enterotoxin of Escherichia coli (STa; guanosine 3',5'-cyclic monophosphate dependent). PA did not alter AMP or GMP levels, suggesting that PA acts at a site distal to the generation of these second messengers. PA caused a slight increase in phosphorylation of protein kinase C substrates but not of cAMP-dependent protein kinase substrates. However, PA is probably not acting through a classical protein kinase C pathway, because we have previously shown that phorbol esters inhibit carbachol's actions, and the protein kinase C inhibitor staurosporine failed to block the effect of PA on VIP- or STa-stimulated Cl- secretion. Thus PA differentially regulates stimulated Cl- secretion in T84 cells, depending on the nature of the agonist.
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PMID:Phosphatidic acid modulates Cl- secretion in T84 cells: varying effects depending on mode of stimulation. 838 32

Pituitary Adenylate Cyclase Activating Peptide (PACAP) strongly induces proliferation of the rat pancreatic carcinoma cell line AR4-2J via interaction with the G-protein coupled type 1 PACAP/VIP (PVI) receptor. RT-PCR analysis revealed that this mitogenic effect of PACAP is preceded by a rapid and transient increase of transcription of the protooncogene c-fos and to a lesser extent of c-jun. Transcriptional activation is abolished by a specific PACAP antagonist and by inhibitors of PKC and PKA. In parallel to c-fos/c-jun induction, PACAP rapidly activates the heterodimeric transcription factor AP-1, as shown by electrophoretic mobility shift assay. These findings demonstrate that signal transduction of a growth-stimulating G-protein-coupled receptor involves the c-fos/c-jun/AP-1 cascade, a pathway mainly linked to classical growth factor receptor tyrosine kinases.
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PMID:PACAP stimulates transcription of c-Fos and c-Jun and activates the AP-1 transcription factor in rat pancreatic carcinoma cells. 866 Mar 19

Pituitary adenylate cyclase activating polypeptide (PACAP) increases glycoprotein hormone alpha-subunit mRNA levels suggesting a role for PACAP in maintaining the high levels of alpha-subunit protein characteristic of the pituitary. The present study used primary pituitary cell cultures and the alpha T3-1 pituitary cell line to investigate how PACAP affects alpha-subunit mRNA transcripts. Stimulation of cultured pituitary cells with 10 nM PACAP38, 10 nM GnRH, or the combination, for 24 h increased alpha-subunit mRNA levels 1.5-fold, whereas GnRH more effectively (P<0.01) stimulated alpha-subunit protein release than did PACAP38 (3.2- vs. 2.0-fold). alpha-Subunit mRNA levels in alphaT3-1 cells were also increased by PACAP38 and by GnRH to maximum values at 12 h (P<0.05), and alpha-subunit protein secretion rose proportionately and in parallel with alpha-subunit mRNA levels. PACAP38 was a 100-fold more potent stimulator of alpha-subunit mRNA than was VIP, and a VIP-antagonist failed to block the stimulatory effect of PACAP38, suggesting an effect via type PACAP 1 receptors. Type I receptor mRNA transcripts were identified by Northern analysis in alphaT3-1 cells. Depletion of PCK activity by PMA failed to block the stimulatory effect of PACAP38, but prevented GnRH from increasing alpha-subunit mRNA levels and alpha-subunit secretion. PACAP38, like 8Br-cAMP and forskolin, stimulated (P<0.05) luciferase (LUC) activity in alphaT3-1 cells transfected with a plasmid containing the first 846 of 180 base pairs of the 5'-flanking region of the human alpha-subunit gene linked upstream to a LUC reporter gene. Finally, experiments using the transcription inhibitor DRB reveal that PACAP does not appreciably change alpha-subunit mRNA half-life. These findings are consistent with the proposal that PACAP contributes to the high levels of alpha-subunit protein characteristic of the pituitary by activating Type I receptors and stimulating alpha-subunit gene transcription in part by the cAMP/PKA pathway.
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PMID:Regulation of alpha-subunit mRNA transcripts by pituitary adenylate cyclase-activating polypeptide (PACAP) in pituitary cell cultures and alpha T3-1 cells. 867 19

1. The aim of this study was a pharmacological characterization of the multiple NANC inhibitory transmission systems producing relaxation of the circular muscle of guinea-pig proximal colon. In the presence of atropine (1 microM), guanethidine (3 microM) and of the tachykinin NK1 and NK2 receptor antagonists, SR 140333 (0.3 microM) and MEN 10627 (1 microM), respectively, electrical field stimulation (EFS) produced a frequency-dependent (0.1-3 Hz) relaxation. During a cumulative frequency-response curve, the maximal relaxant effect was produced at 3 Hz and approached the maximal relaxation to 1 microM isoprenaline. In the presence of both apamin (0.3 microM) and L-nitroarginine (L-NOARG, 100 microM), EFS failed to evoke relaxation up to 1 Hz; at 1-10 Hz, a slowly developing relaxation ensured which approached 50% of the Emax to isoprenaline. The EFS-evoked NANC relaxation, either in the presence or absence of apamin and L-NOARG, was unaffected by in vitro capsaicin pretreatment (10 microM for 15 min). 2. Three protocols of EFS were developed for further pharmacological analysis: (a) EFS at 1 Hz for 5 s in the presence of L-NOARG, producing a transient fast apamin-sensitive relaxation; (b) EFS at 1 Hz for 5 s in the presence of apamin, producing a transient fast L-NOARG-sensitive relaxation; and (c) EFS at 10 Hz for 5 s in the presence of both apamin and L-NOARG, producing a transient but slowly developing and more sustained relaxation. 3. The neutral endopeptidase inhibitor, thiorphan (1-10 microM), enhanced and prolonged the apamin- and L-NOARG-resistant NANC relaxation produced by EFS at 10 Hz, without affecting that evoked at 1 Hz in the presence of apamin or L-NOARG. The angiotensin converting enzyme inhibitor, captopril (1-10 microM) was without effect. 4. The cAMP analogue inhibitor of protein kinase A, Rp-cAMPs (100-300 microM) significantly reduced and shortened the NANC relaxation produced by 10 Hz EFS in the presence of L-NOARG without affecting that produced by 1 Hz EFS in the presence of apamin or L-NOARG. 5. The inhibitor of sarcoplasmic reticulum Ca-ATPase, cyclopiazonic acid (CPA, 3-10 microM for 60 min) abolished the 1 Hz EFS-induced relaxation in the presence of L-NOARG, and greatly inhibited that produced by 10 Hz EFS in the presence of both apamin and L-NOARG. The relaxation produced by 1 Hz EFS in the presence of apamin was inhibited by about 32% at 10 microM only. 6. Nifedipine (1 microM) did not affect the EFS-induced NANC relaxations. In the presence of nifedipine, tetraethylammonium (TEA, 1 mM) enhanced the 1 Hz EFS-induced relaxation in the presence of L-NOARG (158% of control) and that produced by 10 Hz EFS in the presence of apamin and L-NOARG (215% of control) while that evoked by 1 Hz EFS in the presence of apamin was slightly affected (109% of control). 7. In the presence of atropine, guanethidine, SR 140333 and MEN 10627, bath application of human vasoactive intestinal polypeptide (VIP, 0.1 nM-10 nM) produced a concentration-dependent, slowly developing relaxation of colonic strips. The relaxation to VIP was unaffected by apamin (0.3 microM), L-NOARG (100 microM), nifedipine (1 microM) or nifedipine plus TEA (1 mM); it was inhibited by CPA (10 microM) and Rp-cAMPs (100 microM) and was potentiated by thiorphan (10 microM). 8. The putative VIP receptor antagonist, VIP(10-28) (10 microM) did not affect the VIP-induced relaxation nor the NANC relaxation to 10 Hz EFS in the presence of apamin and L-NOARG. 9. The present findings provide evidence that three distinct NANC inhibitory mechanisms mediate relaxation of the circular muscle of the guinea-pig proximal colon. The first system provides a fast relaxation in response to low frequency of stimulation and may involve the action of a transmitter(s) (possibly ATP) which mobilizes intracellular Ca2+ from sarcoplasmic reticulum leading to the activation of apamin-sensitive K+ channels. The second system likewise provides a fast relaxation of the colon in
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PMID:Characterization of the apamin- and L-nitroarginine-resistant NANC inhibitory transmission to the circular muscle of guinea-pig colon. 888 60

PACAP and GLP-1 depolarize pancreatic beta cells and stimulate insulin secretion in the presence of glucose. Depolarization occurs through at least two distinct mechanisms: (1) closure of ATP-sensitive K+ channels, and (2) activation of nonselective cation channels (NSCCs). Under physiological conditions the NSCCs carry a predominantly Na(+)-dependent current. The current may also have a Ca2+ component, but this remains to be determined. Acting together, these two signaling systems reinforce each other and serve to promote membrane depolarization, a rise of [Ca2+]i, and exocytosis of insulin-containing secretory granules. The NSCCs in beta cells are dually regulated by intracellular cAMP and [Ca2+]i. In view of this dual regulation, it appears likely that NSCC channel activation results from signaling events occurring not only at the plasma membrane (gating of channels by cAMP; protein kinase A-mediated phosphorylation of channels) but also at intracellular sites (mobilization of calcium stores by an as yet to be determined process). It is noteworthy that activation of NSCCs has also been reported following stimulation of beta-cells with maitotoxin, or after depletion of intracellular Ca2+ stores. Therefore, the possibility arises that PACAP, GLP-1, and maitotoxin all act on the same types of ion channels in these cells, and that these channels are sensitive to alterations in the content of intracellular calcium. FIGURE 6 summarizes our current knowledge concerning the properties of the PACAP and GLP-1 signaling systems as they pertain to the regulation of NSCCs and intracellular calcium homeostasis in the beta cell. Given that PACAP and GLP-1 are proven to be exceptionally potent insulin secretagogues, it is of considerable interest to determine their usefulness as blood glucose-lowering agents. Initial evaluations of the therapeutic effectiveness of GLP-1 indicate a role for this peptide in the treatment of NIDDM, and also possibly insulin-dependent diabetes mellitus (IDDM). A very attractive feature of such a strategy is the demonstrated lack of hypoglycemic side effects attendant to administration of GLP-1 to diabetic subjects. These observations reinforce the notion that peptides of the PACAP/glucagon/VIP family represent important pharmacological tools for use in experimental therapeutics.
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PMID:Signal transduction of PACAP and GLP-1 in pancreatic beta cells. 899 95


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