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

Pituitary adenylate-cyclase-activating peptide (PA-CAP) and PACAP-27 are novel hypothalamic peptides that can stimulate adenylate cyclase in cultured anterior pituitary cells. Because these peptides are present in the gut and are homologous with vasoactive intestinal peptide (VIP), itself known to stimulate intestinal ion transport, we examined the effects of these peptides on the T84 colonocyte cell line. Using cells grown on semipermeable supports and mounted in Ussing chambers, we showed that PACAP and PACAP-27 potently activate intestinal secretion. The half-maximal secretory response was produced with 0.5 nmol/L PA-CAP and 0.1 nmol/L PACAP-27. PACAP resembled VIP in that it stimulated a secretory response potentiated by carbachol, inhibited by bumetanide and barium chloride, and not further stimulated by the subsequent addition of VIP. Like VIP, PACAP also stimulated 5' cyclic adenosine monophosphate (cAMP) production and the phosphorylation of cellular proteins known to be substrates for cAMP-dependent protein kinase. In addition, PACAP inhibited 125I-VIP binding to T84 cells, and the secretion it stimulated was reduced by the VIP receptor antagonist, L-8-K. Thus PACAP and PACAP-27 potently stimulate colonocyte ion transport via mechanisms mediated by the VIP receptor and cAMP-dependent signaling.
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PMID:Pituitary adenylate cyclase-activating polypeptide stimulates secretion in T84 cells. 132 72

We have reported that pretreatment of human SaOS-2 osteoblast-like cells with forskolin (Fsk; 10(-5) M) for 4 h strikingly inhibited subsequent cAMP responsiveness to a second challenge with Fsk (Fsk-induced homologous desensitization) without altering the responses to PTH or vasoactive intestinal peptide (VIP). Pretreatment with PTH acutely augmented Fsk responsiveness, despite desensitizing the cells to rechallenge with PTH. The present studies were performed to investigate the mechanism of this differential desensitization. Fsk-induced desensitization was not mimicked by 1,9-dideoxyforskolin, a Fsk analog that does not activate adenylate cyclase (AC) but does reproduce certain cAMP-independent effects of Fsk. Fsk-induced homologous desensitization was also completely blocked in a cAMP-resistant mutant SaOS-2 cell line (Ca 4A), in which protein kinase-A (PKA) is not activated by endogenous cAMP. However, pretreatment with PTH (or VIP), which induced a large increase in cAMP, did not attenuate, but, rather, increased, the subsequent cAMP response to Fsk. Potentiation by PTH was also observed in Ca 4A cells. Pretreatment of SaOS-2 cells with pertussis toxin (100 ng/ml) for 12 h strikingly inhibited the initial cAMP response to Fsk, although Fsk-induced homologous desensitization was still clearly observed. Pretreatment with cholera toxin (1 microgram/ml) completely prevented Fsk-induced homologous desensitization. Combinations of maximal concentrations of Fsk plus hormones such as human PTH, human PTH-related peptide, or VIP elicited cAMP responses that were much more than additive, an effect not observed with combinations of hormones alone. We conclude that 1) Fsk-induced homologous desensitization of the AC response of SaOS-2 cells to a second challenge with Fsk is dependent upon activation of PKA; 2) one or more pertussis toxin-sensitive G-proteins contribute to full AC activation by Fsk, but are not involved in homologous desensitization; 3) augmentation by PTH (or VIP) pretreatment of Fsk-dependent AC activation involves an effector(s) other than PKA. These results provide further evidence that the regulation of AC responsiveness in SaOS-2 cells by PTH or VIP is complex and cannot be explained by activation of PKA alone.
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PMID:Forskolin-induced homologous desensitization via an adenosine 3',5'-monophosphate-dependent mechanism(s) in human osteoblast-like SaOS-2 cells. 132 19

Heat-stable enterotoxins activate guanylate cyclase, whereas heat-labile enterotoxins stimulate adenylate cyclase. Both classes of toxins cause secretory diarrhea at least in part by stimulating Cl- secretion in the intestine. The mechanism for regulation of Cl- secretion by guanosine 3',5'-cyclic monophosphate (cGMP) was investigated using cultured T84 intestinal cells as a model for intestinal crypt cells. Escherichia coli heat-stable enterotoxin (ST) markedly stimulated cGMP production in T84 cells. Cl- secretion across T84 cell monolayers cultured on permeable filters was stimulated by E. coli ST, cholera toxin, or 8-BrcAMP, but 8-BrcGMP was ineffective. cGMP analogues that are known to be potent and specific activators of cGMP-dependent protein kinase (cG-kinase) also had little effect on 36Cl- uptake by T84 cells cultured in plastic dishes. E. coli ST, forskolin, cholera toxin, or membrane-permeant cAMP analogues markedly increased 36Cl- uptake into T84 cells. The general protein kinase inhibitor, staurosporine, inhibited the stimulation of Cl- permeability elicited by E. coli ST, vasoactive intestinal peptide (VIP), or 8-BrcAMP. DEAE-Sephacel chromatography revealed a predominant type II isoform of cAMP-dependent protein kinase (cA-kinase) in T84 cells, whereas little or no cytosolic cG-kinase activity was found. Treatment of T84 cells with E. coli ST or VIP resulted in an increase in the cA-kinase activity ratio (-cAMP/+cAMP) if the cytosolic enzyme was assayed at reduced temperature (on ice).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of intestinal Cl- transport by heat-stable enterotoxin: activation of cAMP-dependent protein kinase by cGMP. 132 20

Exposure of mouse colliculi neurons to selective 5-hydroxytryptamine (5-HT)4 agonists was accompanied by a rapid desensitization of the receptor-stimulated adenylyl cyclase response. Half-maximal desensitization occurred after 2 min. Only exposure of neurons to selective 5-HT4 agonists led to a potent desensitization of the 5-HT4-mediated response. Neurons exposed to other agents, like isoproterenol, vasoactive intestinal peptide, or forskolin, that increase cAMP levels did not undergo any desensitization of 5-HT4 receptors. Activation of protein kinase A with either 8-bromo-cAMP or dibutyryl-cAMP or application of inhibitors of protein kinase A-dependent phosphorylation did not change the rate of 5-HT4-induced desensitization. No shift to lower potency of 5-HT4 agonists in the concentration-response curve was observed. These results suggest that 5-HT4 receptor agonists induced homologous but not cAMP-mediated heterologous desensitization. A good correlation was found between the affinities of nine 5-HT4 agonists and their abilities to desensitize the adenylyl cyclase response. This may indicate that homologous desensitization is a function of the mean occupancy time of the receptors by agonists. When permeabilized neurons were loaded with heparin, an inhibitor of the beta-adrenergic receptor kinase (beta ARK), 5-HT4 receptor desensitization was reduced by 30-40%. Interestingly, Zn2+, an other inhibitor of beta ARK, totally prevented 5-HT4-induced desensitization. Pretreatment of neurons with concanavalin A, reported to inhibit sequestration of beta-adrenergic receptors from the cell surface, reduced the desensitization process by 70%. These data suggest that both sequestration and phosphorylation by beta ARK, or another specific agonist-dependent receptor kinase, are involved in homologous desensitization of 5-HT4 receptors coupled to adenylyl cyclase.
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PMID:Characterization of homologous 5-hydroxytryptamine4 receptor desensitization in colliculi neurons. 133 63

We determined the relationship between the activation state and phosphorylation state of the Na-K-Cl cotransport protein in tubules isolated from the shark rectal gland, a prototypic chloride-secreting epithelium. In response to cAMP-dependent secretagogues (e.g. vasoactive intestinal peptide, adenosine, and forskolin) or osmotically induced changes in cell volume, the activation state of the cotransport protein (assessed from measurements of loop diuretic binding) increased 5-10 fold. The response was temporally associated with a comparable increase (3-9 fold) in cotransport protein phosphorylation. Graded changes in cotransporter activation evoked proportional changes in cotransporter phosphorylation. Under the conditions of our experiments, the 195-kDa cotransporter was the only membrane protein whose phosphorylation state increased conspicuously in response to both cAMP and cell shrinkage. Both stimuli promoted phosphorylation of the cotransport protein at serine and threonine residues. One of the cAMP-sensitive phosphoacceptors was found within a segment of the cotransport protein comprised of a sequence (Phe-Gly-His-Asn-Thr*-Ile-Asp-Ala-Val-Pro) that corresponds to a segment of the Na-K-Cl cotransport protein predicted by cDNA analysis, where the phosphoacceptor (Thr*) is threonine 189. Incubation of rectal gland tubules with K-252a or H-8, structurally different protein kinase inhibitors, rendered the cotransporter insensitive to both cAMP and cell shrinkage. We conclude that the rectal gland Na-K-Cl cotransport protein is regulated by direct reversible phosphorylation at serine and threonine sites.
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PMID:The Na-K-Cl cotransport protein of shark rectal gland. II. Regulation by direct phosphorylation. 133 94

The cyclic AMP (cAMP) response elements (CREs) of the somatostatin and vasoactive intestinal peptide (VIP) promoters contain binding sites for CRE-binding protein (CREB) that are essential for cAMP-regulated transcription. Using F9 embryonal carcinoma cells, we show that the somatostatin and VIP promoters exhibit a differentiation-dependent cAMP response, demonstrating that these promoters are regulated by transcription factors that become active during differentiation. Lack of cAMP responsiveness of the somatostatin promoter in undifferentiated cells is not due to the absence of known positive-acting factors (the catalytic subunit of protein kinase A [cPKA] and CREB) or a general inhibition of protein kinase A activity. Since overexpression of exogenous cPKA and CREB is sufficient to activate the somatostatin promoter in undifferentiated cells, these findings suggest that a negative factor(s) represses endogenous cPKA and CREB. In contrast to their effects on somatostatin, exogenous CREB and cPKA do not activate the VIP promoter. Thus, despite coregulation during differentiation and the ability to bind CREB, the somatostatin and VIP promoters are not coordinately activated by CREB in undifferentiated F9 cells.
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PMID:Cyclic AMP response element-binding protein and the catalytic subunit of protein kinase A are present in F9 embryonal carcinoma cells but are unable to activate the somatostatin promoter. 134 42

This study examines the effects of endotoxin on intestinal water and electrolyte transport in adult male rats. Endotoxin (1.55 mg/kg, intravenously) reduced in vivo colonic saline absorption 61% in 1 hour. In vitro unidirectional and net 22Na and 36Cl fluxes showed that endotoxin significantly decreased net colonic 22Na absorption compared with control colons (0.3 +/- 1.7 vs. 4.8 +/- 1.1 microEq/h x cm2). Although endotoxin had no significant effect on basal short circuit current (Isc) and conductance, 3H-inulin flux studies suggested an increase in colonic permeability. Isc responses to the 5'-cyclic adenosine monophosphate (cAMP)-dependent secretagogues prostaglandin E2 (1 mumol/L) and vasoactive intestinal peptide (0.1 mumol/L) were diminished by 80% and 50%, respectively. However, cytosolic cAMP-dependent protein kinase activity under basal and stimulated (6 mumol/L 8-bromo-cAMP) conditions was not altered by endotoxin treatment. The Isc responses to 10 mumol/L bethanechol, a Ca(2+)-dependent agonist, were not effected by endotoxin treatment. It was concluded that endotoxin significantly affects colonic transport function and may contribute to the development of diarrhea in inflammatory bowel diseases.
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PMID:Endotoxin-induced alterations in rat colonic water and electrolyte transport. 838 20

Microsomal fractions were prepared from canine and bovine airway smooth muscle (ASM) by differential and gradient centrifugations. Surface membrane vesicles were characterized by binding assays and incorporated into planar lipid bilayers. Single-channel activities were recorded in symmetric or asymmetric K+ buffer systems and studied under voltage and Ca2+ clamp conditions. A large-conductance K(+)-selective channel (greater than 220 pS in 150 mM K+) displaying a high Ca2+, low Ba2+, and charybdotoxin (CTX) sensitivity was identified. Time analysis of single-channel recordings revealed a complex kinetic behavior compatible with the previous schemes proposed for Ca(2+)-activated K+ channels in a variety of biological surface membranes. We now report that the open probability of the channel at low Ca2+ concentration is enhanced on in vitro phosphorylation, which is mediated via an adenosine 3',5'-cyclic monophosphate-dependent protein kinase. In addition to this characterization at the molecular level, a second series of pharmacological experiments were designed to assess the putative role of this channel in ASM strips. Our results show that 50 nM CTX, a specific inhibitor of the large conducting Ca(2+)-dependent K+ channel, prevents norepinephrine transient relaxation on carbamylcholine-precontracted ASM strips. It was also shown that CTX reversed the steady-state relaxation induced by vasoactive intestinal peptide and partially antagonized further relaxation induced by cumulative doses of this potent bronchodilatator. Thus it is proposed that the Ca(2+)-activated K+ channels have a physiological role because they are indirectly activated on stimulation of various membrane receptors via intracellular mechanisms.
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PMID:Large conducting potassium channel reconstituted from airway smooth muscle. 137 87

Secretion of beta-endorphin from mouse pituitary AtT20 cells is stimulated by a variety of compounds that raise intracellular cAMP and Ca2+. To investigate the role of cAMP-dependent protein kinases in secretion, AtT20 cells were transfected with an expression vector coding for a regulatory (R) subunit of cAMP-dependent protein kinase containing mutations in both cAMP-binding sites. Expression of the mutant regulatory subunit in stable transformants (RAB cells) results in a dominant inhibition of cAMP-dependent protein kinase activity. Isoproterenol (1 microM) or analogs of cAMP stimulated beta-endorphin secretion from AtT20 cells, but failed to stimulate secretion in RAB cells expressing the mutant R subunit. Secretion in response to CRF (100 nM) was inhibited by 80% in these mutant clones, whereas the secretory response to vasoactive intestinal peptide (VIP; 100 nM) or phorbol ester (100 nM phorbol myristate acetate) was not inhibited by the R subunit mutation. Intracellular cAMP was elevated in response to CRF (11- to 15-fold), isoproterenol (5- to 10-fold), and VIP (4- to 8-fold) in RAB cells. Similar concentrations of VIP were required to evoke beta-endorphin secretion in either RAB cells or AtT20 cells. As with most secretagogues, VIP-induced secretion was inhibited in the presence of either EGTA or a voltage-sensitive Ca2+ channel antagonist, PN200-110. The secretory response to VIP was unaffected by down-regulation of protein kinase-C. These results suggest that CRF and isoproterenol work via cAMP-dependent protein kinase to activate beta-endorphin secretion, whereas VIP can act by a different mechanism that does not involve cAMP-dependent protein kinase or protein kinase-C.
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PMID:Role of cyclic adenosine 3',5'-monophosphate-dependent protein kinase in hormone-stimulated beta-endorphin secretion in AtT20 cells. 164 51

Flavonols are dietary compounds widely distributed in plants and characterized by a 2-phenyl-benzo(alpha)pyrane nucleus possessing hydroxyl and ketone groups at positions 3 and 4, respectively. Kaempferol, quercetin, and myricetin are flavonols that are further mono-, di-, or trihydroxylated on the phenyl ring, respectively. To test whether these ingested flavonols might exert a direct secretory effect on intestinal epithelial cells, monolayers of the T84 colonocyte cell line were mounted in Ussing chambers and examined for ion transport response. Twenty minutes after addition of 100 microM quercetin to either the serosal or mucosal side, the short-circuit current change was maximal at 16.6 microA/cm2. Kaempferol was less potent than quercetin, while myricetin and glycosylated quercetin (rutin) did not induce secretion. The secretion induced by quercetin did not seem to be mediated by the reactive oxygen species generated by quercetin through auto-oxidation and/or redox cycling (superoxide, hydrogen peroxide, and the hydroxyl radical) because it was neither enhanced by iron, nor inhibited by desferroxamine B or catalase (alone or in combination with superoxide dismutase). Like vasoactive intestinal peptide, quercetin induced a secretory response that was inhibited by barium chloride and bumetanide, and which exhibited synergism with carbachol. Quercetin also stimulated a modest increase in intracellular cAMP levels and the phosphorylation of endogenous protein substrates for cAMP-dependent protein kinase. Thus, quercetin is a potent stimulus of colonocyte secretion that resembles secretagogues which act via a cAMP-mediated signaling pathway.
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PMID:Stimulation of secretion by the T84 colonic epithelial cell line with dietary flavonols. 164 52


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