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)

Vasopressin is known to activate two types of cell surface receptors; V2, coupled to adenylate cyclase, and V1, linked to a Ca(2+)-dependent transduction system. We investigated whether arginine vasopressin (AVP) stimulation of electrogenic sodium transport in A6 cells, derived from Xenopus laevis, is mediated by activation of either one or both types of AVP-specific receptors. AVP caused a rapid increase in electrogenic sodium transport, reflected by the transepithelial potential difference (VT) and equivalent short circuit current (Ieq) measurements. AVP also rapidly increased intracellular Ca2+ (Ca2+i) and total inositol trisphosphate. The increase in Ieq was dependent on the rise in (Ca2+i), because 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (BAPTA) dose-dependently inhibited the Ieq response. There was no evidence, however, that activation of adenylate cyclase mediated AVP-stimulated Ieq; transport was not inhibited after AVP-induced activation of adenylate cyclase was abolished by 2',5'-dideoxyadenosine or when cAMP-dependent protein kinase (PKA) activity was abolished by the specific PKA inhibitor IP20. Further studies showed that although both forskolin and 8-(4-chlorophenylthio)-cAMP stimulated Ieq, this occurred by mechanisms independent of PKA activation. These results indicate that AVP-stimulated Na+ transport is mediated by a V1 receptor and a Ca(2+)-dependent mechanism.
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PMID:Vasopressin-stimulated electrogenic sodium transport in A6 cells is linked to a Ca(2+)-mobilizing signal mechanism. 760 70

The effect of arginine vasopressin (AVP) on the low-conductance K+ channel in the apical membrane of rat cortical collecting duct (CCD) principal cells from animals on a control and high-K+ diet was studied using patch-clamp techniques. AVP stimulated apical low-conductance K+ channel activity in both control and high-K+ animals: application of 110-220 pM AVP induced a significant increase in the density of low-conductance K+ channels. In the presence of phosphodiesterase inhibitor (3-isobutyl-1-methylxanthine), administration of 22 pM AVP also increased channel activity. The action of AVP on low-conductance K+ channel activity was mimicked by simultaneous application of forskolin and 3-isobutyl-1-methylxanthine. Exogenously applied N6,2'-O-dibutyryladenosine 3',5'-cyclic monophosphate (dibutyryl-cAMP, 0.4-0.8 mM) also increased apical low-conductance K+ channel activity. Since channel open probability (Po) was almost saturated in the absence of AVP, the increase of channel activity induced by AVP, forskolin, and dibutyryl-cAMP resulted predominantly from stimulating previously silent K+ channels. We conclude that AVP induces an increase of low-conductance K+ channel activity of principal cells in rat CCD by the stimulation of cAMP-dependent protein kinase. The AVP-induced increase of low-conductance K+ channel activity can thus significantly contribute to the hormone-induced K+ secretion in the rat CCD.
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PMID:Vasopressin increases density of apical low-conductance K+ channels in rat CCD. 768 Dec 63

The effect of arginine vasopressin (AVP) on NaCl transport was investigated in the isolated microperfused hamster ascending thin limb of Henle's loop by measuring transepithelial voltage (Vt) and transmural 22Na+ and 36Cl- fluxes. In the presence of a transmural NaCl concentration gradient (100 mM higher in the lumen), Vt was 8.4 +/- 0.4 mV. Addition of 1 nM AVP to the basolateral solution increased Vt to 9.6 +/- 0.4 mV, which corresponds to an increase in the Cl- to Na+ permselectivity ratio (PCl/PNa) from 2.8 +/- 0.2 to 3.4 +/- 0.2. AVP at physiological concentrations increased Vt in a dose-dependent manner with an ED50 of 5 pM. AVP increased the Cl- efflux coefficient from 99.6 +/- 6.3 to 131.4 +/- 10.6 x 10(-7) cm2/s without affecting the Na+ efflux coefficient. 5-Nitro-2-(3-phenyl-propylamino)-benzoate (0.2 mM), a Cl- channel inhibitor, in the perfusate decreased the basal Cl- efflux coefficient and inhibited the AVP-induced increase in this parameter. The AVP-induced increase in Vt was not affected by [d(CH2)5(1),O-Me-Tyr2,Arg8] vasopressin, a V1 receptor antagonist, but was abolished by [d(CH2)5,D-Ile2,Ile4,Arg8] vasopressin, a V2 receptor antagonist. The selective V2 agonist dDAVP in 1 nM also increased Vt from 8.6 +/- 0.7 to 9.5 +/- 0.6 mV. Dibutyryl cAMP and forskolin both increased Vt, whereas H89, an inhibitor of cAMP-dependent protein kinase, abolished the AVP-induced increase in Vt. These results demonstrate that AVP stimulates Cl- transport in the ascending thin limb of Henle's loop by activating Cl- channels via a signal transduction cascade comprising V2 receptors, adenylate cyclase, and cAMP-dependent protein kinase. The ascending thin limb of Henle's loop thus participates in the formation of concentrated urine as one of the target renal tubular segments of AVP.
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PMID:Vasopressin stimulates Cl- transport in ascending thin limb of Henle's loop in hamster. 770 69

The effects of arginine vasopressin (AVP) on L-type Ca2+ channels were studied by recording single-channel activity from cell-attached patches on isolated guinea pig ventricular myocytes, with 100 mmol/L Ba2+ used as the charge carrier. Bath application of AVP (100 nmol/L) reversibly increased channel open probability by a factor of 2.92 +/- 1.43 (n = 15) because of the increased number of channel openings and increased open times. AVP did not change the amplitudes of single-channel currents (1.17 +/- 0.10 pA in the control condition and 1.12 +/- 0.11 pA after AVP, at +20 mV; n = 6). In our experimental conditions, in which myocytes were bathed in Ca(2+)-free high-potassium solutions, AVP-induced potentiation was observed without changes in [Ca2+]i measured by fura 2 fluorescence signals (estimated [Ca2+]i, approximately 80 nmol/L). The AVP-induced increase in channel open probability was abolished by OPC-21268 (8 mumol/L), a specific blocker of V1 receptor, but not by a V2 blocker, OPC-31260 (5 mumol/L). AVP-induced potentiation was also suppressed by a broad-spectrum protein kinase inhibitor, H7 (100 mumol/L, bath application), but not by H89 (1 mumol/L), a blocker with high specificity to protein kinase A. AVP application after the treatment by phorbol ester (phorbol 12-myristate 13-acetate, 100 nmol/L for 1 hour) failed to potentiate the channel activity. These results raised the possibility that protein kinase C might be involved during signal transduction. Our results provide direct evidence that AVP potentiates cardiac L-type Ca2+ currents via V1 receptor stimulation.
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PMID:Arginine vasopressin-induced potentiation of unitary L-type Ca2+ channel current in guinea pig ventricular myocytes. 789 34

In renal collecting ducts, endothelin-1 (ET-1) inhibits Na+ reabsorption and antagonizes the effects of arginine vasopressin (AVP). Whether AVP may affect ET-1 action in the collecting ducts that mainly express the ETB receptor subtype, however, remains unknown. Since ETB, but not ETA, possesses a consensus amino acid sequence for possible phosphorylation by protein kinase A (PKA), we hypothesized that AVP may influence ET-1 binding to the ETB receptor via PKA. In microdissected rat cortical collecting ducts, the specific ET-1 binding decreased by 35% (15.6 +/- 4.4 vs. 24.0 +/- 3.6 amol/mm in control) following 20-min preincubation with 10(-7) M AVP. This decrease in ET-1 binding was mimicked by 10(-5) M forskolin and by 10(-4) M dibutyryl (DB) adenosine 3',5'-cyclic monophosphate (cAMP), indicating that this heterologous desensitization may be caused by a cAMP-dependent mechanism. Moreover, N-(2([3-(4-bromophenyl)-2-propenyl]-amino]-ethyl)-5- isoquinolinesulfonamide (H-89) and the Rp diastereoisomer of cAMP, Rp-cAMPS, which are both PKA-specific inhibitors, eliminated AVP-induced ETB receptor desensitization. The reduction in ET-1 binding was characterized by a decrease in binding affinity [dissociation constant (Kd) = 4 vs. 2 nM in control] with no change in maximal binding capacity. In contrast, forskolin and DBcAMP had no effect on ET-1 binding in endothelium-denuded aortic strips, which mainly express ETA subtype. These results showed that AVP rapidly downregulates the ETB receptor by reducing Kd through a PKA-dependent pathway. Thus ET-1 and AVP may act in a mutually antagonizing manner in the renal collecting ducts.
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PMID:Desensitization of endothelin-1 binding by vasopressin via a cAMP-mediated pathway in rat CCD. 790 Aug 37

The role of protein kinase-C (PKC) in the potentiation of insulin release by arginine vasopressin (AVP) and acetylcholine (ACh) was investigated with normal mouse islets. The islets were submitted to a short term (30-min) or long term (22-h) treatment with phorbol 12-myristate 13-acetate (PMA) to stimulate acutely or down-regulate PKC before being stimulated by AVP or ACh. Control islets were treated with the inactive 4 alpha-phorbol 12,13-didecanoate. In the presence of 15 mM glucose and 2.5 mM Ca2+, AVP and ACh stimulated inositol phosphate (IP) formation, increased cytoplasmic Ca2+ (Cai2+), and potentiated insulin release. These effects were greater with ACh than with AVP, in particular on Cai2+, which was scarcely affected by AVP. In the absence of extracellular Ca2+, only ACh induced a short-lived increase in Cai2+ and insulin. Acute treatment with PMA in the presence of extracellular Ca2+ strongly increased insulin release in spite of a marked lowering of Cai2+. Under these conditions, the effects of AVP and ACh on IP production and Cai2+ were practically abolished, and only ACh transiently increased insulin release. In the absence of Ca2+, the small mobilization of Cai2+ by ACh triggered a peak of insulin, whereas a similar mobilization of Cai2+ by AVP was ineffective on insulin. After long term treatment of the islets with PMA, AVP normally increased IP formation, but did not affect insulin release. The effect of ACh on IP was still inhibited. However, ACh produced a marked transient increase in Cai2+, with a small transient release of insulin. The releasing effect of ACh was also inhibited in the absence of Ca2+. In conclusion, PKC plays a dual role in the B-cell responses to ACh and AVP. Its activation is necessary for the sustained potentiation of insulin release that both agents produce. This effect probably results from a sensitization of the secretory machinery to Cai2+, the triggering signal. PKC also exerts a negative feedback control on the signal transduction mechanisms involving phospholipase-C, but the ACh and AVP responses are not equally affected by this feedback.
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PMID:The role of protein kinase-C in signal transduction through vasopressin and acetylcholine receptors in pancreatic B-cells from normal mouse. 801 53

The present study was designed to examine whether heparin inhibits basal or stimulated endothelin-1 production by arginine vasopressin (AVP) and platelet-derived growth factor (PDGF) in cultured rat mesangial cells. In addition, the reversibility of the heparin effect on mesangial cell endothelin-1 production was examined. AVP and PDGF stimulated endothelin-1 secretion in a concentration-dependent manner in these cells. Heparin (10 to 100 U/ml) exhibited concentration-related inhibition of AVP- and PDGF-stimulated endothelin-1 secretion. Heparin also had weak but significant inhibitory effects on basal endothelin-1 secretion in these cells. The protein kinase (PKC)-activating phorbor ester, phorbor myristate acetate (PMA), stimulated endothelin-1 secretion and heparin inhibited PMA-stimulated endothelin-1 secretion. In addition, the inhibitory effect of heparin was completely abolished in PKC-depleted mesangial cells. Mesangial cells which were exposed to a high concentration (100 U/ml) of heparin for 24 hours were capable of producing endothelin-1 after a short lag period of removal of heparin from the culture medium. These mesangial cells also showed recovery of responses to AVP and PDGF by secreting a significantly greater amount of endothelin-1 than the non-stimulated level. These results indicate that heparin potently inhibits mesangial cell endothelin-1 production, especially when stimulated by AVP or PDGF. This inhibitory effect of heparin is probably PKC dependent, and reversible.
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PMID:Heparin inhibits endothelin-1 production in cultured rat mesangial cells. 812 2

In rat inner medullary collecting tubule (RIMCT) cells increasing cytosolic Ca2+ with a calcium ionophore inhibits arginine vasopressin (AVP)-stimulated adenylyl cyclase (AC). Inhibition by Ca2+ is not observed in pertussis toxin (PT)-treated cells, indicating a role for the inhibitory G protein, Gi. The mechanism of activation of Gi remains to be determined. We examined the hypothesis that inhibition of AVP-stimulated AC by increased cytosolic Ca2+ is due to activation of protein kinase C (PKC). Preincubation of RIMCT cells with ionophore results in inhibition of AVP-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) formation. To assess whether stimulation of phospholipase C (PLC) and therefore activation of PKC occurs with ionophore and AVP, inositol trisphosphate (IP3) production was measured. Incubation of RIMCT cells with either 10(-7) M AVP or ionophore results in IP3 production that is no different from basal. However, simultaneous exposure to 100 nM AVP with ionophore results in marked enhancement of IP3 production clearly reflecting stimulation of PLC in this setting. Stimulation of PLC is not observed in PT-treated cells. Likewise, 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7), an inhibitor of PKC, mimics the effect of PT to prevent inhibition of AVP-stimulated AC by ionophore, but N-(2-[methylamino]ethyl)-5-isoquinolinesulfonamide (H-8), an inhibitor of protein kinase A (PKA), does not. As is the case when PKC is stimulated directly with a phorbol ester, exposure to ionomycin inhibits the response to AVP but does not alter the response to isoproterenol. These studies demonstrate that increased cytosolic Ca2+ does not, as previously postulated, inhibit AC by a direct effect on Gi. Rather, when cytosolic Ca2+ is increased, AVP stimulates PLC; the ensuring activation of PKC inhibits cAMP formation.
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PMID:Increased cytosolic Ca2+ inhibits AVP-stimulated adenylyl cyclase activity in rat IMCT cells by activation of PKC. 816 Jul 98

The effect of the antidiarrheal drug loperamide, a mu-opiate agonist, on ACTH secretion and biosynthesis, cAMP generation and phosphoinositide turnover was studied in rat anterior pituitary cell cultures. The cAMP-dependent protein kinase A pathway was stimulated with both corticotropin-releasing hormone (CRH; 2-5 nM) and the membrane-permeable Bu(2)cAMP (0.5-2.5 mM). The protein kinase C pathway was stimulated with 1 microM arginine vasopressin (AVP) and 1-10 nM phorbol 12-myristate 13-acetate (PMA). After 3.5 h, loperamide (10 microM) had no effect on basal ACTH levels but significantly suppressed CRH-induced ACTH release, in a dose-dependent manner, to 60 +/- 4% of control (100%) (p < 0.0001). After 24 h, basal proopiomelanocortin mRNA was significantly decreased to 50% of control by loperamide (p < 0.05). The suppressive effect of loperamide on CRH-induced ACTH secretion was not reversible by naloxone (0.1-1,000 microM). Morphine (0.01-10 microM) had no effect on basal and CRH-induced ACTH secretion. Loperamide did not influence basal and CRH-induced adenylate cyclase activity in anterior pituitary cell membrane preparations, but it significantly blunted Bu(2)cAMP-induced ACTH secretion in cell culture from 100 +/- 4 to 77 +/- 4% (p < 0.05). In Ca(2+)-depleted medium (Ca2+ < 0.1 mM), loperamide had no suppressive effect on CRH-induced ACTH secretion. AVP-induced ACTH secretion was significantly suppressed by loperamide from 100 +/- 5 to 74 +/- 3% (p < 0.0001), while basal and AVP-induced inositol 1-phosphate generation and PMA-induced ACTH secretion were not affected by loperamide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Loperamide inhibits corticotrophic cell function by a naloxone-insensitive mechanism in the rat in vitro. 823 60

In various cells, parathyroid hormone (PTH) has been shown to initiate both polyphosphoinositide (PI) breakdown and activation of adenylate cyclase (AC). In vascular smooth muscle cells (VSMC), PI hydrolysis is known to induce contraction, whereas a rise in adenosine 3',5'-cyclic monophosphate (cAMP) causes relaxation. In the present study, the effect of PTH on arginine vasopressin (AVP)-induced VSMC contraction and signal transduction was studied. PTH (10(-7) M) attenuated the percentage of VSMC contracting in response to AVP (10(-7) M; 40 to 26.5%, P < 0.05). This loss of VSMC contractility was not the result of PTH-induced changes in AVP receptor binding. PTH did, however, stimulate VSMC cAMP production in a dose-dependent manner. The effect of PTH on AVP-induced contraction could be mimicked by treating VSMC with the cell-permeant cAMP analogue, 8-(4-chlorophenylthio)-cAMP (ClPheScAMP). The effect of PTH on AVP-induced VSMC contraction was blocked by H-8, an inhibitor of protein kinase A and thus cAMP production. In parallel to the inhibitory effects of ClPheScAMP on VSMC contraction, AVP-stimulated inositol trisphosphate production was also reduced by this permeant cAMP (4,415 to 2,592 cpm/mg protein, P < 0.01). PTH-induced production of cAMP was not blocked by an inhibition of prostaglandin synthesis [PTH 203 vs. PTH + ibuprofen 161 fmol/micrograms protein, not significant (NS)]. In contrast, AVP also stimulated cAMP, but this increase was blocked by ibuprofen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Parathyroid hormone inhibition of vasopressin-induced vascular smooth muscle contraction. 838 13


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