EC:4.6.1.1 - FACTA Search

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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)

In goldfish, growth hormone (GH) release is stimulated by dopamine via D1 receptors and cAMP-dependent mechanisms and by gonadotropin-releasing hormone (GnRH) through a protein kinase C (PKC) pathway; in addition, both D1 and GnRH actions require extracellular Ca2+. In this study, the involvement of arachidonic acid (AA) and calmodulin (CaM) in mediating the GH responses to D1 and GnRH stimulation was examined using primary cultures of dispersed goldfish pituitary cells. In 2-hr static incubation experiments, the phospholipase A2 inhibitor bromophenacylbromide (BPB; 50 microM) decreased the GH responses to the D1 agonist SKF38393 (1 microM), the adenylate cyclase activator forskolin (10 microM), and the cAMP analog 8Br-cAMP (1 mM), but not the responses to salmon (s)GnRH (100 nM), chicken (c)GnRH-II (100 nM), and AA (50 microM). Similarly, the phospholipase A2 inhibitor quinacrine (50 microM) and an inhibitor of AA metabolism, nordihydroguaiaretic acid (NDGA; 50 microM), reduced the GH responses to SKF38393, forskolin, and 8Br-cAMP. The response to the dopamine agonist apomorphine (1 microM) was also decreased by NDGA. The GH responses to AA did not add to those of forskolin or SKF38393, but were additive to responses to sGnRH and the PKC activator tetradecanoyl phorbol acetate (TPA; 100 nM). In perifusion experiments, treatment with BPB reduced the acute GH response to 1 microM SKF38393, 10 microM forskolin, or 1 mM 8Br-cAMP. Taken together, these results suggest that mobilization and metabolism of AA mediate both acute and prolonged GH responses to D1, but not GnRH. The involvement of AA probably occurs distal to D1-induced cAMP generation. Two-hour static incubation with 10 nM to 10 microM KN62, a CaM-dependent kinase II inhibitor, decreased the GH response to 100 nM sGnRH or cGnRH-II. KN62 (1 microM) similarly decreased the GH response to 1 mu M SKF38393, 10 microM forskolin, 1 mM 8Br-cAMP, or 100 nM TPA. In perifusion studies, KN62 (1 microM) also reduced the acute GH response to 5 min pulses of 100 nM sGnRH, 100 nM cGnRH-II, or 1 microM SKF38393. These results indicate that CaM mediates the acute, as well as the prolonged, GH responses to GnRH and dopamine. The involvement of CaM likely occurs distal to cAMP and PKC.
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PMID:Role of arachidonic acid and calmodulin in mediating dopamine D1- and GnRH-stimulated growth hormone release in goldfish pituitary cells. 886 Mar 13

Guanine nucleotide-binding proteins (G-proteins) are known to act as important modulators of insulin release from the islets of Langerhans. We have recently found that the deoxynojirimycin-derivative emiglitate, a recognized inhibitor of intestinal alpha-glucosidehydrolase activity, is a powerful inhibitor of glucose-induced insulin release. With the use of isolated mouse islets the present investigation was performed in a primary attempt to elucidate whether this inhibitory mechanism in some way was linked to the beta-cell G-protein system. Treatment of freshly isolated islets with pertussis toxin (PTX), which is known to inactivate the G (i)-proteins, abolished the inhibitory effect of the alpha(2)-adrenoceptor agonist clonidine on insulin release stimulated by the phosphodiesterase inhibitor IBMX in the presence of the protein kinase C activator TPA and even changed it into an increase. Emiglitate did not display any inhibitory action on insulin release induced by these secretagogues. Similarly, clonidine-induced inhibition of glucose stimulated insulin release was reversed by PTX. However, PTX did not influence the suppressive action of emiglitate on glucose-induced insulin secretion. In contrast, the adenylate cyclase activator forskolin totally abolished the inhibitory effect of emiglitate, but not that of the glucose analogue mannoheptulose, on glucose-induced insulin release. Moreover, the stimulatory effect of forskolin and cholera toxin (CTX) (activator of G (s)-proteins) on the secretion of insulin was markedly enhanced in the presence of emiglitate. In conclusion, our results suggest that the inhibitory effect of emiglitate on glucose-induced insulin release is not directly related to the G(s)-proteins, but most likely exerted solely through the selective suppression of lysosomal aglucosidehydrolase activity, a step in between the proximal and the distal G(i)-proteins, in glucose induced stimulus-secretion mechanisms. Our data also suggests that the inhibitory action of emiglitate on glucose stimulated insulin release can be compensated for by an increased sensitivity of the cyclic AMP-protein kinase A pathway. Hence, emiglitate might indirectly elicit an increased activity of the G(s)-proteins to facilitate the secretory process.
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PMID:Modulation of islet G-proteins, alpha-glucosidehydrolase inhibition and insulin release stimulated by various secretagogues. 886 37

Stem cell factor (SCF) gene expression is regulated by FSH in testicular Sertoli cells. Many functions of FSH are mediated through the second messenger cAMP. We show that cAMP activates transcription of the human SCF promoter in a Sertoli cell line. The human SCF promoter was cloned in cosmid vector pWE15, and its DNA sequence was determined for the promoter region extending 2.3 kilobase pairs upstream from the translation start site at +184 bp. The in vivo messenger RNA (mRNA) start site, by primer-extension studies, was located in exon 1 at +109 bp in human testis mRNA, and at +99 bp in mouse SF7 Sertoli cell line or GC1 germ cell line mRNA. To test which regions of the SCF promoter are necessary for regulation by cAMP, a series of 5'-end deletions of this region were cloned onto the luciferase reporter gene in plasmid pXP1. The SCF promoter region was fused to luciferase downstream (at +120) from its +109 mRNA start site, extending upstream a variable distance to BstXI (-162), BamHI (-313), Bgl2 (-853), or XbaI (-2185). The shortest of these fragments extending only to -162 bp, contains possible SP1 and AP-2 elements. When mouse Sertoli SF7 or human JEG.3 cell lines were transfected with these plasmids, all of the mutants were regulated by 8Br-cAMP or forskolin, as expected for the SCF gene, whereas FSH and TPA had no effect. In the shortest promoter deletion -162, luciferase expression from SF7 cells in serum-free media was at a moderate basal level, but it was induced in six h about 2-fold by 8Br-cAMP, and over 7-fold by forskolin (an adenylate cyclase activator) to high levels, similar to the SV40 positive control promoter. In SCF-luc plasmids extending to -853 or -2185, luciferase expression was still inducible by 8Br-cAMP and forskolin to high levels, but basal promoter activity was repressed to levels over 15-fold lower, in both the absence or presence of testosterone in the media for SF7 cells. The distal portion of the human SCF promoter (between -313 and -853, and also -853 and -2185) inhibits the basal level of transcription, while the proximal region (5' of -162) can mediate activation by cAMP.
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PMID:Human stem cell factor promoter deoxyribonucleic acid sequence and regulation by cyclic 3',5'-adenosine monophosphate in a Sertoli cell line. 894 Mar 64

The effects of parathyroid hormone (PTH) on 1,4,5-inositol triphosphate (1,4,5-IP3) and intracellular free calcium (Cai2+) in osteoblasts are variable, whereas adenylate cyclase activity is consistently stimulated. Cyclic AMP is considered a mediator in the contractile effects of PTH on osteoblasts, but the regulation and role of Cai2+ remains unclear. Recent studies indicate that protein kinase C (PKC) inhibits PTH-stimulated Cai2+ increases in osteoblastic cells. Therefore, the objectives of this study were to determine the effects of PKC modulators and PTH on UMR 106-H5 rat osteoblastic cell morphology, and the relationship between cell shape and PTH-induced Cai2+ changes. In suspended cells loaded with the calcium indicator dye fura-2, pretreatment with PKC inhibitors calphostin C (100 nM x 1 h) and H-7 (30 microM x 18 h) potentiated the effects of 1 microgram/ml bPTH (1-84) on Cai2+ (83% increase over basal) by 1.4- and 1.65-fold, respectively. In comparison, PTH (10 ng-1 micrograms/ml) was without significant effect on adherent cell Cai2+ as measured by single-cell image analysis, although another in vitro bone resorbing agent, thrombin (10 U/ml), produced an acute 3-fold increase in the ratio (R) of emission (approximately lambda 510 nm) detected and optimized at lambda 348/374 nm (i.e., Ca-bound dye/free dye) in control cells. Phase-contrast microscopy revealed PKC inhibitor-treated cells changed from a spread configuration to a stellate form with retracting processes or cell rounding and a collapse of actin stress fibers. Within 1 h of PTH addition, PKC inhibitor-treated cells continually became extended/respread up to 3 h with an associated increase in actin stress fibers that was preceded by an acute 1.6-fold Cai2+ increase. In contrast, control or PKC activator-treated cells (phorbol 12,13-dibutyrate or 12-O-tetradecanoylphorbol-13-acetate; TPA) contracted/retracted within 5 min in response to PTH. A role for Cai2+ in PTH-induced cell spreading was further indicated by a contractile response to PTH when PKC-inhibitor-treated cells were loaded with the intracellular calcium chelator dimethyl BAPTA (3 microM x 30 min). PTH-induced Cai2+ increases in adherent PKC inhibitor-treated cells were also associated with a 1.8-fold 1,4,5-IP3 increase as measured by mass assay. The data suggest PKC contributes to UMR 106-H5 cell morphology and selectively regulates signal pathways activated by PTH to promote either cell contraction (cAMP) or extension (1,4,5-IP3/Cai2+).
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PMID:Protein kinase C modulator effects on parathyroid hormone-induced intracellular calcium and morphologic changes in UMR 106-H5 osteoblastic cells. 913 85

Recent studies suggest that in some tissues GRP receptor activation can both stimulate phospholipase C and the adenylate cyclase pathway and that activation of the latter pathway may be important in mediating some of its well-described growth effects. However, other studies suggest GRP-R may not be coupled to adenylate cyclase. To investigate this possibility, in the present study we determined the coupling of the GRP receptors to each pathway in mouse, rat, and guinea pig pancreatic acini and compared it to that in mouse Swiss 3T3 cells and human SCLC cells, all of which possess well-characterized GRP receptors. Moreover, we tested the effect of PKC activation on the ability of GRP-related peptides to increase cAMP accumulation in these tissues. Changes in cAMP levels were determined with or without IBMX present, with or without forskolin, or both to amplify small increases in cAMP. In mouse, rat and guinea pig pancreatic acini, murine Swiss 3T3 cells and human SCLC cells, GRP-related peptides caused a 600%, 500%, 250%, 300% and 60% increase, respectively, in [3H]IP with 1-3 nM causing a half-maximal effect. In murine Swiss 3T3 cells, IBMX, forskolin, and IBMX plus forskolin caused a 300%, 3500% and 10500% increase in cAMP, respectively. GRP-related peptides and VIP caused an additional 70% increase in cAMP with GRP causing a half-maximal (EC50) increase in cAMP at 2.1 +/- 0.5 nM, which was not significantly different from the EC50 of 3.1 +/- 0.9 nM for increasing [3H]IP in these cells. GRP-related peptides did not stimulate increases in cAMP in mouse, rat or guinea pig pancreatic acini or in SCLC cells either alone, with IBMX or forskolin or both. However, in pancreatic acini IBMX, forskolin or both increased cAMP 3 to 8-, 10 to 500-, and 100 to 1000-fold increase and the addition of VIP caused an additional 20-, 2-, and 3-fold increase in cAMP in the different species. In mouse pancreatic acini with TPA alone or IBMX plus TPA, neither bombesin nor GRP increased cAMP. Furthermore, in mouse pancreatic acini, neither TPA nor TPA plus IBMX altered basal or VIP-stimulated increases in cAMP. In mouse Swiss 3T3 cells TPA significantly increased cAMP stimulated by Bn, GRP or VIP. These results demonstrated that GRP receptor activation in normal tissues from three different species and a human tumoral cell line do not result in adenylate cyclase activation, whereas in Swiss 3T3 cells it causes such activation. The results suggest that the difference in coupling to adenylate cyclase is likely at least partially due to a difference in coupling to an adenylate cyclase subtype whose activation is regulated by PKC. Therefore, the possible growth effects mediated by this receptor in different embryonic or tumoral cells through activation of adenylate cyclase are not likely to be an important intracellular pathway for these effects in normal tissues.
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PMID:The gastrin-releasing peptide receptor is differentially coupled to adenylate cyclase and phospholipase C in different tissues. 919 77

The aim of the present study was to examine the signaling pathways for a low dose of angiotensin II (ANG II) on Na+ uptake of primary cultured rabbit renal proximal tubule cells (PTCs) in hormonally defined serum-free medium. The results were as follows; ANG II (10(-11) M) stimulated the proliferation of PTCs. 10(-11) M ANG II stimulated Na+ uptake by 20%, whereas 10(-9) M ANG II inhibited it by 20% (p < 0.05). The stimulatory effect of 10(-11) M ANG II on Na+ uptake was inhibited by amiloride (10(-3) M) and by losartan (ANG II receptor subtype 1 antagonist, 10(-8) M) but not by PD123319 (ANG II receptor subtype 2 antagonist, 10(-8) M). Pertussis toxin (PTX, 50 ng/ml) prevented the ANG II-induced stimulation of Na+ uptake (p < 0.01). 8-Bromoadenosine 3', 5'-cyclic monophosphate (8-Br-cAMP, 10(-6) M) did not affect Na+ uptake. SQ 22536 (adenylate cyclase inhibitor, 10(-6) M) also did not change the ANG II-induced stimulation of Na+ uptake. ANG II did not stimulate cAMP production. In contrast, 12-O-tetradecanoylphorbol-13-acetate (TPA, 0.01 ng/ml) produced significant increase in Na+ uptake. When ANG II and TPA were added together to the PTCs, there was no additive effect on Na+ uptake. Staurosporine (calcium-dependant protein kinase C inhibitor, 10(-6) M) led to a complete inhibition of ANG II-induced stimulation of Na+ uptake. ANG II-treatment resulted in a 26% increase in total protein kinase C (PKC) activity. However, 10(-11) M ANG II did not change [Ca2+]i mobilization and [3H]-AA release while 10(-9) M ANG II increased both of them. In conclusion, the PTX-sensitive PKC pathway may be the main signaling cascade in the stimulatory effects of low dose of ANG II (10(-11) M) on Na+ uptake in the primary cultured rabbit renal proximal tubule cells in hormonally defined serum-free medium.
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PMID:A signaling pathway for stimulation of Na+ uptake induced by angiotensin II in primary cultured rabbit renal proximal tubule cells. 1008 51

Crude myocardial sarcolemmal membrane fractions were prepared from rat hearts subjected to total global ischemia with and without normoxic reperfusion, or global anoxic (N2) perfusion with and without normoxic reperfusion. The direct effects on beta-adrenoceptor number, G-protein levels and stimulation of the adenylate cyclase (AC) complex were assessed. In terms of AC activation, ischemia led to a marked increase (4-fold) in sensitivity to terbutaline (beta2-agonist) and phorbol ester (tetradecanoyl phorbol acetate = TPA) stimulation, whereas the dobutamine (beta1) responsiveness and Gpp(NH)p activation through G(s)alpha/G(i2)alpha remained unaltered. However, forskolin-elicited holoenzyme activity fell markedly during normoxic reperfusion. Ischemia did not change the beta1-adrenoceptor number, while beta2-receptor population increased by approximately 45%. Western blots of myocardial G(s)A and G(i2)alpha contents revealed that ischemia selectively diminished G(i2)alpha levels only by some 50-70%. Contrastingly, anoxia selectively increased the AC sensitivity (2-fold) to beta1-adrenergic stimulation. As subsequent to ischemia, anoxia also increased the sensitivity to TPA stimulation, however, only 2-fold. Gpp(NH)p activation was unchanged, while forskolin-enhanced activity gradually declined, also during ensuing normoxic reperfusion. Anoxia brought about a 75% enhancement in beta1-receptor number, while beta2-receptors remained unaffected. However, altered receptor number normalized on termination of normoxic reperfusion. Finally, anoxia led to a 50-60% decimation of myocardial G(i2)alpha levels, while G(s)alpha was only marginally reduced. Despite the fact that the ischemia and anoxia effectuated a similar deterioration of physiological heart parameters, myocardial contents of energy rich phosphate moieties and loss of G(i2)alpha, ischemia rendered the most profound increase in responsiveness of the sarcolemmal AC system.
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PMID:Enhanced responsiveness of the myocardial beta-adrenoceptor-adenylate cyclase system in the perfused rat heart (I). 1019 81

The effect of estradiol-17beta-BSA (E(2)-BSA) on Ca(2+) uptake and its related signal pathways were examined in the primary cultured rabbit kidney proximal tubule cells. E(2)-BSA (10(-9) M) significantly stimulated Ca(2+) uptake from 2 h by 13% and at 8 h by 35% as compared to control, respectively. This stimulatory effect of E(2)-BSA was not inhibited by tamoxifen (10(-8) M, an intracellular estrogen receptor antagonist), actinomycin D (10(-7) M, a transcription inhibitor), and cycloheximide (4 x 10(-5) M, a protein synthesis inhibitor). However, E(2)-BSA-induced stimulation of Ca(2+) uptake was blocked by methoxyverapamil (10(-6) M, an L-type calcium channel blocker) and 5-(N-ethyl-N-isopropyl)-amiloride (10(-5) M, a Na(+)/H(+) antiporter blocker). These results suggest that E(2)-BSA stimulates Ca(2+) uptake through nongenomic pathways. Thus, we investigated which signal pathways were related to E(2)-BSA-induced stimulation of Ca(2+) uptake. 8-Br-cAMP (10(-6) M) alone increased Ca(2+) uptake by 22% compared to control. When E(2)-BSA combined with 8-Br-cAMP, Ca(2+) uptake was not significantly stimulated compared to E(2)-BSA. SQ 22536 (10(-6) M, an adenylate cyclase inhibitor) and myristoylated protein kinase A inhibitor amide 14-22 (10(-6) M, a protein kinase A inhibitor) blocked E(2)-BSA-induced stimulation of Ca(2+) uptake and E(2)-BSA also increased cAMP generation by 26% of that of control. In addition, TPA (0.02 ng/ml, an artificial PKC promoter) stimulated the Ca(2+) uptake by 14%, and the cotreatment of TPA and E(2)-BSA did not significantly stimulate Ca(2+) uptake compared to E(2)-BSA. E(2)-BSA-induced stimulation of Ca(2+) uptake was blocked by U 73122 (10(-6) M, a phospholipase C inhibitor) or bisindolylmaleimide I (10(-6) M, a protein kinase C inhibitor). Indeed, E(2)-BSA stimulated PKC activity by 26%. In conclusion, E(2)-BSA (10(-9) M) stimulated Ca(2+) uptake by nongenomic action, which is mediated by cAMP and PKC pathways.
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PMID:Estradiol-17beta-BSA stimulates Ca(2+) uptake through nongenomic pathways in primary rabbit kidney proximal tubule cells: involvement of cAMP and PKC. 1069 64

In mammals, growth hormone (GH) is under a dual hypothalamic control exerted by growth hormone-releasing hormone (GHRH) and somatostatin (SRIH). We investigated GH release in a pleuronectiform teleost, the turbot (Psetta maxima), using a serum-free primary culture of dispersed pituitary cells. Cells released GH for up to 12 days in culture, indicating that turbot somatotropes do not require releasing hormone for their regulation. SRIH dose-dependently inhibited GH release up to a maximal inhibitory effect of 95%. None of the potential stimulators tested induced any change in basal GH release. Also, neither forskolin, an activator of adenylate cyclase, nor phorbol ester (TPA), an activator of protein kinase C, were able to modify GH release, suggesting that spontaneous basal release already represents the maximal secretory capacity of turbot somatotropes. In contrast, forskolin and TPA were able to increase GH release in the presence of SRIH. In this condition (coincubation with SRIH), pituitary adenylate cyclase-activating polypeptide (PACAP) stimulated GH release, whereas none of the other neuropeptides tested (GHRHs; sea bream or salmon or chicken II GnRHs; TRH; CRH) had any significant effect. These data indicate that inhibitory control by SRIH may be the basic control of GH production in teleosts and lower vertebrates, while PACAP may represent the ancestral growth hormone-releasing factor in teleosts, a role taken over in higher vertebrates by GHRH.
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PMID:Pituitary growth hormone secretion in the turbot, a phylogenetically recent teleost, is regulated by a species-specific pattern of neuropeptides. 1175 94

Using a new brain-derived neurotrophic factor (BDNF) specific enzyme-immunoassay, we determined the basal cellular content of BDNF protein in neonatal rat astrocytes in primary culture, thus confirming the ability of astrocytes to synthesize BDNF in addition to nerve growth factor (NGF). We subsequently monitored the influence of different pharmacological agents: neurotransmitter receptor agonists, cytokines, and second messenger up-regulators, on the synthesis of BDNF and NGF. Marked differences in the regulation of their synthesis by the above pharmacological agents were observed in our study. The basal cellular levels of BDNF protein in cultured neonatal rat cortical and cerebellar astrocytes were 15.9 +/- 0.3 and 18.7 +/- 0.4 pg BDNF/mg cell protein, respectively, and differ significantly between astrocytes from different brain regions, whereas NGF levels were the same (16.1 +/- 0.3 and 16.2 +/- 0.7 pg NGF/mg cell protein, respectively). Screening different neurotransmitter systems for their influence on BDNF and NGF synthesis in cortical astrocytes revealed that dopamine (0.15 mM) is a potent up-regulator of BDNF protein synthesis in astrocytes, while kainic acid (50 microM) and histamine (1 microM) did not raise the cellular level of BDNF protein. Dopamine had no influence on NGF synthesis, while kainic acid caused minor, and histamine marked, elevation of NGF cellular content. Tumor necrosis factor-alpha (30 ng/ml) and interleukin-1beta (10 U/ml) treatments did not influence BDNF synthesis, whereas they markedly increased NGF protein cellular level. We also confirmed (using forskolin (20 microM) and phorbol 12-myristate 13-acetate (TPA) (100 nM)) that adenylate cyclase and protein kinase C participate in the downstream signaling responsible for the stimulation of BDNF synthesis, whereas in the regulation of NGF synthesis only the participation of protein kinase C was confirmed. Our results indicate that astrocyte-derived neurotrophins could play a role in distinct brain functions under physiological conditions and in the pathogenesis as well as possible treatment of different neurodegenerative disorders.
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PMID:Differences in the regulation of BDNF and NGF synthesis in cultured neonatal rat astrocytes. 1514 Apr 65

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