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 molecular recognition theory suggests that binding sites of interacting proteins, for example, peptide hormone and its receptor binding site, were originally encoded by and evolved from complementary strands of genomic DNA. To test this theory, we screened a rat kidney complementary DNA library twice: first with the angiotensin II (AII) followed by the vasopressin (AVP) antisense oligonucleotide probe, expecting to isolate cDNA clones of the respective receptors. Surprisingly, the identical cDNA clone was isolated twice independently. Structural analysis revealed a single receptor polypeptide with seven predicted transmembrane regions, distinct AII and AVP putative binding domains, a Gs protein-activation motif, and an internalization recognition sequence. Functional analysis revealed specific binding to both AII and AVP as well as AII- and AVP-induced coupling to the adenylate cyclase second messenger system. Site-directed mutagenesis of the predicted AII binding domain obliterates AII binding but preserves AVP binding. This corroborates the dual nature of the receptor and provides direct molecular genetic evidence for the molecular recognition theory.
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PMID:Identification of a novel dual angiotensin II/vasopressin receptor on the basis of molecular recognition theory. 748 66

We have reported previously that loop diuretics, especially azosemide and ethacrynic acid, may act not only on the AVP receptor site, but also on the post-AVP receptor site in rat renal tubular basolateral membranes. The purpose of this study was to examine whether loop diuretics (furosemide, azosemide, ethacrynic acid) affect the post-AVP receptor components, using GTP-gamma S, forskolin and cholera toxin as tools acting distal to the receptor. Adenylate cyclase activity stimulated by 10(-9)M AVP was inhibited more potently by azosemide and ethacrynic acid than by furosemide at the concentration of 10(-3) M. Azosemide and ethacrynic acid at concentrations above 10(-4) M also significantly decreased the enzyme activity that was stimulated by 10(-7) M GTP-gamma S and 10(-5)M forskolin, while significant inhibition by furosemide was observed only at 10(-3)M. In addition, the inhibitory effect of these loop diuretics on cholera toxin-stimulated enzyme activity was almost similar to the results observed in AVP-, GTP-gamma S- or forskolin-stimulated the enzyme activity. From these results, we conclude that loop diuretics, especially azosemide and ethacrynic acid, directly affect adenylate cyclase in part as well as the AVP receptor site.
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PMID:Loop diuretics act directly on adenylate cyclase in rat renal tubular basolateral membranes. 756 51

Studies were performed to determine the primary signal transduction mechanism that mediates adenosine stimulation of electrogenic sodium transport in renal epithelial cells. Experiments were performed on cultured amphibian A6 cells with an adenosine analogue that preferentially binds to the A1 receptor, cyclohexyladenosine (CHA). Sodium transport was assessed by the equivalent short circuit current (Ieq). CHA was found to stimulate Ieq via activation of an A1 receptor because (1) the threshold concentration was 1 nM compared to that of 10 microM for the specific A2 agonist CGS21680, (2) CHA inhibited vasopressin (AVP)-stimulated cAMP production by a pertussis toxin-sensitive mechanism, and (3) the action of CHA was inhibited by the A1 antagonist 1,3-dipropyl-8-cyclopentylxanthine (DPCPX). CHA increased intracellular Ca2+ ([Ca2+]i) and stimulated phosphoinositide turnover at concentrations that increased Ieq and in a time course that paralleled the increase in Ieq. Ion transport was stimulated by a Ca(2+)-dependent mechanism because the CHA induced increase in Ieq was inhibited by chelating [Ca2+]i with 5,5'dimethyl BAPTA in a dose-dependent manner, with a Ki of approximately 10 microM. The increase in Ieq was also dose-dependently inhibited by the specific PKC inhibitors dihydroxychlorpromazine and chelerythrine, and by trifluoperazine which inhibits PKC and calmodulin. Further studies indicated that CHA-stimulated Ieq was independent of cAMP generation because CHA did not induce an increase in cAMP accumulation parallel to the increase in Ieq in a dose-response analysis, and the adenylate cyclase inhibitor 2',5' dideoxy-adenosine (DDA) did not affect the CHA-induced increase in Ieq.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adenosine stimulation of Na+ transport is mediated by an A1 receptor and a [Ca2+]i-dependent mechanism. 764 26

Adenylate cyclase sensitivity to neurohypophyseal hormones was investigated in isolated glomeruli and in nephron segments microdissected from collagenase-treated kidneys of Rana ridibunda. Vasotocin treatment increased adenylate cyclase activity in glomeruli and in collecting ducts and did not modify it in proximal convoluted tubules and in early and late distal tubules. In glomeruli, the hormonal stimulation resulted mainly in a decrease in the Km value for adenylate cyclase, which means a higher affinity for substrate (ATP) to the enzyme, whereas the response to forskolin was accounted for by increases both in affinity for substrate and in maximal adenylate cyclase velocity. The homologous neurohypophyseal hormones stimulated frog glomerular adenylate cyclase with the following rank order of affinities: hydrin 1 > or = AVT = AVP > or = hydrin 2 > OT > or = mesotocin > isotocin; structural analogs dDAVP, VDAVP, dVDAVP, and [Phe2,Orn8]VT had weak agonistic properties, [Thr4,Gly7]OT was inactive, and the antagonists OVTA, d(CH2)5Tyr(Et)2VAVP, and des-Gly9-d(CH2)5Tyr(Et)2VAVP inhibited hormone-induced enzyme activation with similar apparent inhibition constants. The vasotocin receptors triggering adenylate cyclase stimulation in frog glomeruli differ pharmacologically from V2 vasopressin receptors of mammalian kidneys and may also differ from V2-like vasotocin receptors of amphibian skin and urinary bladder.
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PMID:Vasotocin-sensitive adenylate cyclase in frog glomeruli. 778 59

The lateral mobility of membrane integral receptors has been implicated as playing a significant role in signal transduction. The adenylate cyclase-coupled vasopressin V2 receptor has been shown to be highly laterally mobile in membranes of LLC-PK1 renal epithelial cells at physiological temperature using a fluorescent vasopressin agonist, with lateral mobility of the V2 receptor proposed to play a role in both adenylate cyclase activation and ligand induced receptor internalization and down-regulation. This study reports the synthesis and characterization of two new fluorescent antagonists [(beta-mercapto-beta,beta-cyclopentamethylene propionic acid)1,D-Tyr2,Ile4,Lys9(N6-fluoresceinylaminothiocarbonyl )]AVP (FL-AVP-anta) and [(beta-mercapto-beta,beta-cyclopentamethylene propionic acid)1,D-Tyr2,Ile4,Lys9(N6-tetramethylrhodamylaminothioca rbonyl)]AVP (TR-AVP-anta) for the V2 receptor. The latter was used to determine the parameters of lateral mobility of the V2 receptor in the non-activated antagonist-occupied form. Using fluorescence photobleaching techniques, results were largely comparable to those for agonist-occupied receptor, indicating high mobility at 37 degrees C. Antagonistic properties of the V2 receptor ligands are apparently not related to decreased receptor lateral mobility. Photobleaching measurements, however, did show that in contrast to V2 agonist, V2 antagonist did not induce receptor immobilization due to aggregation with time at 37 degrees C, indicating that this could be of mechanistic importance in the internalization process.
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PMID:Lateral mobility of the antagonist-occupied V2 vasopressin receptor in membranes of renal epithelial cells. 808 94

We examined the effects of epinephrine in perfused cortical collecting ducts (CCD) isolated from inbred Dahl-Rapp salt-sensitive (SS) and salt-resistant (SR) rats and from Sprague-Dawley (SD) rats. Rats were treated with 2.5 mg deoxycorticosterone pivalate (DOC; depot injection 4-9 days before study), and the CCD were treated with 220 pM vasopressin (AVP) to maximize Na+ transport. In CCD from all three strains 10 microM epinephrine in the bathing solution completely inhibited net Na+ transport, osmotic water permeability (Pf), and transepithelial voltage. In the SS CCD, epinephrine increased the fractional resistance of the luminal membrane to the same extent as 10 microM amiloride, indicating that it blocked the amiloride-sensitive conductance of the luminal membrane. Even at 100 nM epinephrine inhibited 80-100% of Na+ and water transport, and 1 microM yohimbine reversed or prevented these effects. In SS CCD, 0.1 mM 8-bromoadenosine 3',5'-cyclic monophosphate (8-BrcAMP) plus 0.1 mM 3-isobutyl-1-methylxanthine in place of AVP increased lumen-to-bath Na+ flux (J1-->b) from 56 +/- 5 to 143 +/- 3 pmol.min-1 x mm-1 and Pf from 6 +/- 12 to 1067 +/- 152 microns/s, but 100 mM epinephrine still significantly inhibited cAMP-stimulated J1-->b and Pf by 40 +/- 5% and 31 +/- 9%, respectively. Similar results were observed in the SR and SD rat CCD; however, the ability of yohimbine to reverse the epinephrine effect on cAMP-dependent transport was variable among the rat strains. We conclude that epinephrine acts via an alpha 2-receptor to inhibit adenylate cyclase but that at least one additional intracellular second messenger system may be involved.
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PMID:Inhibition by epinephrine of AVP- and cAMP-stimulated Na+ and water transport in Dahl rat CCD. 810 98

The influence of spent medium from immature mouse Sertoli cells (SCM) on testosterone production by purified Leydig cells was investigated and compared to that of AVP, a potent local modulator of Leydig cell steroidogenesis. SCM inhibited in a dose-dependent manner the hCG-stimulated testosterone production, but was ineffective in basal conditions. As is known for AVP, (i) a lag period of 72 h was prerequisite for SCM to inhibit Leydig cell function; (ii) the main effect of SCM was located at a step beyond the receptor-adenylate cyclase system, since the hCG- and 8-bromo-cAMP-stimulated testosterone productions were similarly affected. The possibility that the effect of SCM may be related to AVP-like molecule(s) is also supported by the observations that at maximal concentrations the inhibitory effects of AVP and SCM were not additive and that the inhibition of testosterone production was largely (65%) reversed by the presence of [(beta-mercapto-beta, beta-cyclopentamethylenepropionyl, O-Me-Tyr2,Arg8)-vasopressin], a selective vasopressor antagonist. These data indicate that Sertoli cells produce in vitro potent inhibitory factors of Leydig cell steroidogenesis. They provide additional evidence that one of these bioactive factors has an effect on Leydig cell function similar to that of AVP.
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PMID:Presence in mouse Sertoli cell-conditioned medium of a factor that expresses AVP-like inhibition of steroidogenesis by mouse Leydig cells in long-term culture. 818 58

Cytosolic free calcium concentration ([Ca2+]i) was measured in single microdissected rat medullary collecting tubules [outer (OMCD) and inner (IMCD)] to identify receptors involved in vasopressin (AVP)-induced [Ca2+]i increases. In both segments, [Phe2,Orn8]vasotocin ([Phe2,Orn8]VT), a specific V1 agonist, as well as the V2 agonist 1-desamino-8-D-AVP (dDAVP) triggered [Ca2+]i variations. In OMCD, the mean response to 10 nM AVP roughly corresponded to the sum of V1 and V2 agonists effects. In IMCD, dDAVP (10 nM) alone reproduced the calcium response to AVP (delta[Ca2+]i = 243 +/- 34 nM, n = 6, and 248 +/- 27 nM, n = 8, with dDAVP and AVP, respectively). Furthermore, in the same experiments V1 and V2 maximal effects were not additive ([Phe2,Orn8]VT = 154 +/- 21 nM, n = 6; dDAVP + [Phe2,Orn8]VT = 233 +/- 23 nM, n = 9). As AVP, dDAVP released intracellular calcium (delta[Ca2+]i in calcium-free medium = 182 +/- 24 nM, n = 8, vs. 182 +/- 14 nM, n = 6 with 10 nM dDAVP and AVP, respectively). Neither 8-(4-chlorophenyl-thio)-adenosine 3',5'-cyclic monophosphate nor forskolin modified [Ca2+]i. A cross-reaction of dDAVP with an oxytocin (OT) receptor can be excluded since 1) the specific OT agonist [Thr4,Gly7]OT (10 nM) increased only slightly [Ca2+]i (delta-[Ca2+]i = 20 +/- 5 nM, n = 11); 2) the dDAVP response was not altered by the specific OT antagonist [1-(beta-mercapto-beta,beta-cyclopentamethylene propionic acid),2-(O-methyl)tyrosine,4-threonine, 8-ornithine,9-tyrosylamide]vasotocin [d(CH2)5(1),O-Me-Tyr2,Thr4,Tyr-NH2(9)]OVT; 3) it was insensitive to V1 antagonists but was totally blocked by the V1/V2 antagonist [d(CH2)5(1),O-Et-Tyr2,Val4]AVP ([delta[Ca2+]i = 18 +/- 4 nM, n = 6). These results indicate that in IMCD AVP increases [Ca2+]i via both V1 and V2 receptors. [Ca2+]i variations due to V2 receptors involve a mechanism independent of adenylate cyclase and coupled to the same intracellular calcium pool as V1 and V2 receptors.
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PMID:V2-like vasopressin receptor mobilizes intracellular Ca2+ in rat medullary collecting tubules. 834 13

Because previous studies indicated that, in the rat collecting tubule, vasopressin (AVP)-sensitive adenylate cyclase (AC) is controlled by mineralocorticoids in the long term, the present study was designed to investigate whether such a control also exists in the short term. Therefore, we investigated the in vivo and in vitro effects of aldosterone on AC activity in cortical and outer medullary collecting tubules (CCD and OMCD, respectively) from adrenalectomized rats. Injection of aldosterone (10 micrograms/kg body wt) to adrenalectomized rats restored within 3 h AVP-sensitive AC activity in the CCD and OMCD up to the levels observed in the corresponding segments of adrenal intact rats. Similarly, incubating CCD or OMCD from adrenalectomized rats for 2.5 h in the presence of 10(-8) M aldosterone enhanced AVP-sensitive AC activity up to values similar to those found in normal rats. In vitro stimulation of AVP-sensitive AC activity was dose dependent with regard to aldosterone [apparent affinity constant (K0.5) approximately 10(-9) M], appeared after a 30-min lag period, and reached its maximum after 2-2.5 h. In addition, it was totally abolished by the antimineralocorticoid spironolactone, whereas the specific glucocorticoid antagonist RU 38486 had no effect. Finally, actinomycin D and cycloheximide totally abolished the in vitro action of aldosterone, demonstrating the involvement of protein synthesis in that process.
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PMID:Short-term effect of aldosterone on vasopressin-sensitive adenylate cyclase in rat collecting tubule. 849 34

Among kidney tubular epithelial cell types, proximal tubule cells are one of the major renal targets for xenobiotics. Several in vitro culture models have been proposed for use of proximal tubule cells for in vitro pharmacotoxicology studies. This paper reports a comparative study of the response to cephaloridine exposure of two established cell lines from pig (LLC-PK1) and rabbit (LLC-RK1) kidneys and primary cultures of rat and rabbit proximal tubule cells. These cultured cells were first compared for their levels of activity of alpha-methylglucopyranoside transport, alkaline phosphatase, succinate dehydrogenase, and NADPH cytochrome c reductase, their glutathione-dependent activity levels, and their adenylate cyclase response pattern to stimulation by PTH and AVP. The results presented show major phenotypic differences between these four cellular models. The differences observed in glutathione-dependent mechanism activities and regulation may in part be responsible for the variability of the responses of these four cellular models when exposed to cephaloridine.
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PMID:Comparative impact of cephaloridine on glutathione and related enzymes in LLC-PK1, LLC-RK1, and primary cultures of rat and rabbit proximal tubule cells. 903 21


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