Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of cholera toxin on mucosal cyclic nucleotide concentrations and on net fluid secretion in the porcine small intestine are reported. Cholera toxin causes net secretion of fluid into the small intestine of weanling pigs, and secretory rates are dependent on the dose of the toxin placed in intestinal loops. Intestinal secretion due to cholera toxin exposure was not consistently accompanied by elevated concentrations of mucosal cyclic AMP or cyclic GMP. Net fluid fluxes in individual loops did not correlate with mucosal cyclic AMP concentration in the same loop. Jejunal adenylate cyclase was activated to a lesser extent in pigs, compared with rabbits, after in vivo treatment with cholera toxin. In vitro activation in cell-free homogenates was similar for both species. Papaverine was similar to cholera toxin in causing fluid secretion without cyclic AMP accumulations, but 3-isobutyl-1-methyl xanthine significantly increased cyclic AMP concentration and induced fluid secretion in pigs. Weanling pigs appeared to differ from rabbits in having a secretory response to cholera toxin which was independent of elevations in total mucosal cyclic AMP concentration.
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PMID:Cholera toxin effects on fluid secretion, adenylate cyclase, and cyclic AMP in porcine small intestine. 8 Mar 78

The relationship of the mucosal enzyme systems Na+-K+-activated adenosine triphophatase (Na-K-ATPase) and adenylate cyclase and their associated intestinal transport processes was studied in the rat ileum. Two ileal loops were constructed in each anesthetized rat; one loop was inoculated with saline, the other loop with choleragen. Net transport of water and electrolytes was measured in vivo after which enzyme activity was measured in the mucosa of the perfused loops. All doses of choleragen between 5 and 150 mug decreased water movement as early as 3 1/2 h after inoculation. A linear relationship between the dose of choleragen and the level of net water and electrolyte secretion was observed when choleragen doses between 5 and 150 mug were incubated in ileal loops for 4 h. Adenylate cyclase activity was always increased in secreting intestinal loops, whereas Na-K-ATPase was unaffected by choleragen. In animals pretreated with methylprednisolone acetate, 3 mg/100 g per day for 3 days before loop inoculation, saline loops had enhanced mucosal Na-K-ATPase activity had increased net water and electrolyte absorption; choleragen-exposed loops had increased adenylate cyclase and Na-K-ATPase activities, and net absorption of water and electrolytes 4 h after inoculation. These effects of methylprednisolone acetate were still present 19 1/2 h after inoculation. When a single injection of methylprednisolone acetate was given 3 1/2 h after choleragen inoculation, both adenylate cyclase and Na-K-ATPase were activated, and net intestinal absorption of water and electrolytes was observed 19 1/2 h after inoculation. These results suggest that methylprednisolone can prevent and reverse the secretory effects of choleragen by selectively stimulating a coexisting absorptive process.
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PMID:Prevention and reversal of cholera enterotoxin-induced intestinal secretion by methylprednisolone induction of Na+-K+-ATPase. 13 58

Transepithelial fluid secretion is an important process in the progressive enlargement of certain types of renal cysts. Arginine vasopressin (AVP) increases the rate of cyst formation and expansion in an in vitro model of renal cysts that uses Madin-Darby canine kidney (MDCK) cells grown in a gelled matrix of Type 1 collagen. In this study, it was determined if AVP promoted net fluid secretion by MDCK cells. The rate of volumetric fluid secretion was determined from the net movement of water across epithelial layers of MDCK cells grown on permeable, collagen-coated membranes. AVP in the basolateral medium (but not in apical medium) at concentrations exceeding 10(-9) M caused sustained basolateral to apical transepithelial fluid secretion (approximately 0.6 microL/cm2/h). 1-Desamino-8-D-AVP, a V2 receptor agonist, had a similar effect. The secreted fluid was hyperosmotic compared with the bath (5.7 to 9.7 mosM). Chloride was consistently secreted, but the absolute level in the secreted fluid was variable. Intracellular cAMP content was increased 187% by a 2-h exposure to AVP and 10(-4) M methylisobutylxanthine. Net fluid secretion was augmented by methylisobutylxanthine and theophylline and was inhibited by ouabain, bumetanide, and a sodium-dependent Cl-/HCO3- exchange inhibitor (L-645,695) but was not altered by clonidine, guanabenz, or indomethacin. AVP-induced fluid secretion was not accompanied by a change in transepithelial hydraulic conductivity. It is suggested that AVP stimulates fluid secretion of MDCK epithelial monolayers by activating V2 receptor-mediated adenylate cyclase. The regulation of net fluid secretion by AVP would appear to depend on modulation of solute transport, rather than on water permeability.
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PMID:Arginine vasopressin stimulates net fluid secretion in a polarized subculture of cyst-forming MDCK cells. 165 62

[3H]Vinblastine transport across MDCK (renal epithelial) cell layers has been characterised. The basal-to-apical [3H]vinblastine flux (JA-B) (at 10 nM) exceeded apical-to-basal flux by 19.6 fold. Net vinblastine secretion (JB-A - JA-B) was inhibited by verapamil (0.1 mM) primarily by a reduction in JB-A, consistent with net vinblastine secretion resulting from an inhibition of P-glycoprotein. 1,9-Dideoxy-forskolin and forskolin (0.1 mM) both resulted in significant inhibition of JB-A and net vinblastine secretion of 64.3 +/- 3.1% and 29.1 +/- 4.8% respectively. 7 beta-deactyl-7 beta-(gamma-N-methylpiperazino)-butyryl-forskolin was ineffective. Half-maximal inhibition of vinblastine secretion by 1,9-dideoxy-forskolin was observed at 65 microM. 1,9-dideoxy-forskolin is unable to stimulate adenylate cyclase, suggesting that this forskolin derivative is a potentially important lead antagonist of P-glycoprotein for circumvention of pleiotropic drug resistance.
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PMID:Transepithelial vinblastine secretion mediated by P-glycoprotein is inhibited by forskolin derivatives. 168 94

Postreceptor protein stimulation significantly alters the transport state of the ex vivo small intestine. This study investigated the effects of neural blockade on basal and stimulated ionic transport. Rabbit ileal segments (n = 46) were arterially perfused with an oxygenated sanguinous buffered electrolyte solution. The lumen was perfused with an isotonic solution containing [14C]polyethylene glycol as a nonabsorbable marker. Net fluxes of H2O, Na+, and Cl- were calculated. Tetrodotoxin (TTX) was used to block enteric neural transmission. Forskolin (FOR) was used to activate adenylate cyclase, and phorbol 12,13-dibutyrate (PDB) served to activate protein kinase C. Two groups were studied. Group A preparations had no TTX pretreatment, while group B preparations were pretreated with TTX. In the Group A preparations, TTX at 10(-6) M and PDB at 10(-5) M caused significant proabsorptive effects with a delta FH2O of +20 +/- 7 and +15 +/- 2 microliters/min, respectively (P less than 0.05), while FOR stimulated significant secretion with a delta FH2O of -14 +/- 3 microliter/min (P less than 0.05). In the Group B TTX-pretreated preparations, FOR did not cause secretion and PDB maintained an absorptive state. These results indicate that neural blockade with TTX reverses basal secretion in the ex vivo intestine, suggesting that an intact enteric nervous system maintains the secretory status of the intestine. FOR-induced adenylate cyclase-activated secretion does not occur in the presence of TTX, implying that intact neural transmission is required for the FOR effect. PDB-induced protein kinase C-activated absorption occurs despite neural blockade, suggesting that the PDB-induced proabsorptive effect is mediated without neural intermediaries.
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PMID:Neural blockade in basal and postreceptor-stimulated intestinal transport. 216 69

Neurohumoral agents modulate intestinal transport by interactions with cell membrane receptors. Intracellular second messenger systems implicated in mediation of membrane receptor regulation of cellular events include the phosphoinositide and adenylate cyclase systems. In this study we have investigated the effects of direct postreceptor activation of key components of these systems on intestinal water and electrolyte transport. Rabbit ileal segments (n = 35) were arterially perfused ex vivo with an oxygenated sanguineous solution. The lumen was perfused with an isotonic solution containing 14C-polyethylene glycol as a nonabsorbable marker. Net fluxes of H2O, Na+, and Cl- in six experimental groups were calculated for three 20-minute periods: basal, drug infusion, and recovery. The control group had no drug infusion. Two phorbol esters--phorbol 12, 13-diacetate (PDA; 10(-5) mol), and phorbol 12, 13-dibutyrate (PDB; 10(-5) mol)--were used to activate protein kinase C, an important component of the phosphoinositide system. The inactive 4 alpha-phorbol 12, 13-didecanoate (PDD; 10(-5) mol) served as a drug-infused control. Forskolin at two doses (FOR; 10(-5) mol and 10(-6) mol) was used to activate adenylate cyclase. The control and PDD groups had no changes in the flux of water and electrolytes. Both PDA and PDB had proabsorptive effects, with the more lipophilic and potent phorbol ester (PDB) having a more pronounced, significant effect (p less than 0.05). FOR caused significant secretion of H2O, Na+, and Cl- in a dose-dependent fashion (p less than 0.05). These results indicate that direct protein kinase C activation causes a proabsorptive effect and that direct activation of adenylate cyclase causes a secretory effect in the isolated small bowel. The activation status of these second messenger systems has a major influence on the transport state of the intestine.
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PMID:Postreceptor mechanisms of small-bowel water and electrolyte transport. 254 96

We studied the effects of cyclic AMP (cAMP) on HCO-3 transport by rabbit cortical collecting tubules perfused in vitro. Net HCO-3 secretion was observed in tubules from NaHCO3- loaded rabbits. 8-Bromo-cAMP-stimulated net HCO-3 secretion, whereas secretion fell with time in control tubules. Both isoproterenol and vasopressin (ADH) are known to stimulate adenylate cyclase in this epithelium; however, only isoproterenol stimulated net HCO-3 secretion. The mechanism of cAMP-stimulated HCO-3 secretion was examined. If both HCO-3 and H+ secretion were to occur simultaneously in tubules exhibiting net HCO-3 secretion, cAMP might increase the net HCO-3 secretory rate by inhibiting H+ secretion, by stimulating HCO-3 secretion, or both. These possibilities were examined using basolateral addition of the disulfonic stilbene (4,4'-diisothiocyanostilbene-2,2'-disulfonate (DIDS). In acidifying tubules from NH4Cl-loaded rabbits, DIDS eliminated HCO-3 reabsorption, a result consistent with known effects of DIDS as an inhibitor of H+ secretion. In contrast, cAMP left acidification (H+ secretion) intact. DIDS applied to HCO-3 secretory tubules failed to increase the HCO-3 secretory rate, indicating minimal H+ secretion in HCO-3 secreting tubules. Thus, inhibition of H+ secretion by cAMP could not account for the cAMP-induced stimulation of net HCO-3 secretion. cAMP-stimulated HCO-3 secretion was reversibly eliminated by 0 Cl perfusate, whereas luminal DIDS had no effect. Bath amiloride (1 mM) failed to eliminate cAMP-stimulated HCO-3 secretion when bath [Na+] was 145 mM or 5 mM. cAMP depolarized the transepithelial voltage. The collected fluid [HCO-3] after cAMP could be accounted for by electrical driving forces, suggesting that cAMP stimulates passive HCO-3 secretion. However, cAMP did not alter HCO-3 permeability measured under conditions expected to inhibit transcellular HCO-3 movement (0 Cl- solutions and bath DIDS). This measured HCO-3 permeability was not high enough to account, by passive diffusion, for the HCO-3 fluxes observed in Cl-containing solutions. We conclude the following: cAMP increased net HCO3- secretion by stimulating HCO3- secretion and not by inhibiting H+ secretion; this HCO3- secretion may have occurred by Cl-HCO3- exchange; Na+-H+ exchange appeared not to play a role in basolateral H+ extrusion under these conditions; and the stimulation of HCO3- secretion by isoproterenol, but not ADH, suggests the existence of separate cell cAMP pools or cellular heterogeneity in this cAMP response.
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PMID:Cyclic adenosine monophosphate-stimulated bicarbonate secretion in rabbit cortical collecting tubules. 298 40

Net water flow JW was measured across the urinary bladder of toads Bufo marinus and averaged over periods of 1 min by means of a volumetric, automatic technique. The diterpene forskolin, an activator of adenylate cyclase bypassing the hormonal receptor subunit, induced a rapid, reversible, dose-dependent increase in osmotic water permeability, Pf, very similar to that induced by vasopressin. At 1.1 microM, forskolin induced a half-maximal response. At 5 microM forskolin caused a near maximal response and Pf increased from 1.66 +/- 0.15 to 66.6 +/- 2.99 microns s-1. In bladders pre-exposed to 5 microM-forskolin, further significant increases in Pf were obtained by their subsequent exposure to vasopressin, cyclic AMP, theophylline or serosal hypertonicity. The similarity of the forskolin and vasopressin actions was further demonstrated by the finding that substances causing enhancement (quercetin) or inhibition (trifluoperazine, vanadate, silver, cobalt, manganese and Ca2+-free Ringer solution) of the vasopressin response, induced parallel changes in the forskolin response. Three agents, however, induced dissimilar effects on vasopressin and forskolin: high K+ potentiated vasopressin but inhibited forskolin; methohexital and diamide inhibited vasopressin but had no effect on forskolin. The forskolin-induced hydrosmotic response can be viewed as a new criterion for ascertaining the messenger role of cycle AMP in the the hydrosmotic effect of vasopressin.
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PMID:Forskolin mimics the hydrosmotic action of vasopressin in the urinary bladder of toads Bufo marinus. 299 97

Epithelial and stromal cells were isolated from endometrium of Day 1 pseudopregnant rabbits by enzymatic digestion with trypsin or trypsin:collagenase:deoxyribonuclease. Dispersed cells were grown in RPMI 1640 supplemented with 10% whole or steroid-depleted fetal bovine serum (FBS). Epithelial and stromal cells reached confluency after 6 to 7 days in culture and showed specific characteristics. Cells could be differentiated according to morphology, growth patterns, electrophoretic patterns, and response to estrogen or progesterone. Hormonal stimulation of adenylate cyclase activity was measured in broken cell preparations by catalytic transformation of alpha-32P-adenosine triphosphate into 32P-adenosine 3'-5' cyclic monophosphate (cAMP). Adenylate cyclase activity was present in fresh endometrial tissue and in dispersed cells after 7 days in culture. The enzyme activity was significantly higher in stromal than in epithelial cells at all stimulation levels: basal (9.2 +/- 1.0 vs. 2.3 +/- 0.6, p less than 0.001) and guanosine triphosphate (GTP, 300 microM) (25.4 +/- 2.9 vs. 7.0 +/- 1.6, p less than 0.001). Net response to prostaglandin E2 (PGE2, 10 microM) was three times higher (p less than 0.001) in stromal (17 +/- 2) than in epithelial (5.0 +/- 1) cells. These results suggest that PGE2 can stimulate adenylate cyclase in rabbit endometrium and that the enzyme is preferentially localized in the stroma. Our results are in agreement with the hypothesis that cAMP formed in endometrium in response to PGE2 might be involved in the decidual reaction.
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PMID:Cell-specific localization of prostaglandin E2-sensitive adenylate cyclase in rabbit endometrium. 347 35

We have characterized a Na+-K+-Cl- cotransporter in vascular endothelial cells (EC) cultured from different blood vessels and species that is inhibited by the diuretics furosemide and bumetanide (50% inhibitory concentration for 86Rb influx approximately 20 microM and 0.5 microM, respectively). Inward 86Rb influx mediated via this pathway is greater than 86Rb influx transported by the Na+-K+ pump in cultured EC from bovine and pig aorta, bovine vena cava, and baboon cephalic vein but not in human umbilical or saphenous vein EC. External Na+ or Cl- -stimulated, ouabain-insensitive 86Rb influx is equal to furosemide or bumetanide-sensitive 86Rb influx. Ouabain-insensitive 22Na influx is also partially inhibited by these drugs and stimulated by increasing external K+ or Cl-. Net Na+ extrusion occurs via the Na+-K+-Cl- cotransporter in the absence of external K+, whereas net Na+ influx occurs at higher external K+ (greater than 1 mM). Maximal concentrations (100 nM) of bradykinin and vasopressin increase the initial rate of bumetanide-sensitive 86Rb influx by approximately 60 and 70% (50% effective concentration approximately 1 and 0.6 nM, respectively). Addition of either ethyleneglycol-bis(beta-aminotethylether)-N,N'-tetraacetic acid or LaCl3 (to block calcium influx) prevents bradykinin-stimulated 86Rb influx. When intracellular calcium is elevated using ionomycin (100 nM), a Ca2+ ionophore, bumetanide-sensitive 86Rb influx increases approximately twofold. In contrast, isoproterenol (100 microM) and forskolin (50 microM), adenylate cyclase stimulators, decrease furosemide-sensitive 86Rb influx.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Bradykinin and vasopressin stimulate Na+-K+-Cl- cotransport in cultured endothelial cells. 371 30


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