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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)
Somatostatin (
SRIF
) has previously been shown to inhibit both basal and hormone-stimulated PRL secretion from GH4C1 cells, a clonal strain of rat pituitary tumor cells. In this study we examined the ability of
SRIF
to modulate cAMP accumulation in GH4C1 cells to determine whether such alterations mediate its biological effects.
SRIF
did not cause statistically significant changes in basal cAMP accumulation. Of six PRL secretagogues examined, only vasoactive intestinal peptide (VIP) increased cAMP accumulation significantly: TRH, bombesin, epidermal growth factor, insulin, and the tumor promoter, phorbol-12,13-dibutyrate were without effect. When
SRIF
was added simultaneously with VIP, it inhibited maximal VIP-stimulated cAMP accumulation (55 +/- 3%, mean +/- SE) without changing the ED50 for VIP (3.0 +/- 0.2 nM). Inhibition by
SRIF
was not due to altered kinetics of VIP stimulation, since the half-time for VIP-stimulated cAMP accumulation was 2 min both in the absence and presence of 100 nM
SRIF
.
SRIF
did not inhibit isobutylmethylxanthine-stimulated cAMP accumulation, and the presence of 0-10 mM isobutylmethylxanthine did not alter the inhibitory effect of
SRIF
on VIP-stimulated cAMP accumulation. Therefore,
SRIF
must act primarily to modulate VIP activation of
adenylate cyclase
activity. Inhibition of VIP-stimulated cAMP accumulation occurred at concentrations of
SRIF
(ID50 = 1.2 +/- 0.1 nM) close to the equilibrium dissociation constant for receptor binding (Kd = 0.6 +/- 0.2 nM). Furthermore, the potencies of a series of
SRIF
analogs to inhibit VIP-stimulated cAMP accumulation correlated with the apparent Kd of each peptide for binding to the
SRIF
receptor. In addition,
SRIF
did not reduce VIP-stimulated cAMP accumulation in GH(1)2C1 cells, which lack
SRIF
receptors. We conclude that
SRIF
inhibits VIP-stimulated cAMP accumulation by a receptor-mediated process that may be causally related to the ability of
SRIF
to inhibit VIP-dependent PRL secretion.
...
PMID:Somatostatin inhibits vasoactive intestinal peptide-stimulated cyclic adenosine monophosphate accumulation in GH pituitary cells. 619 74
It may now be possible to identify certain intracellular events that impact specifically on secretion-granule fusion to the plasma membrane or on granule lysis. Secretion vesicles in isolated rat islets appear to translocate somatostatin (
SRIF
) receptors from the Golgi apparatus to the plasma membrane. We have proposed that secretion granule fusion to the plasma membrane can be determined by measuring recruitment of
SRIF
receptors to the surface membrane. Granule lysis can be assessed by measuring insulin release. To activate cyclic AMP (cAMP)-dependent pathways, we employed isobutylmethylxanthine (IBMX, 400 microM), glucagon (10 microM), and forskolin (20 microM), a diterpene activator of
adenylate cyclase
. These agents evoked rapid release of insulin (from 0.41 +/- 0.02 to 1.88 +/- 0.02; 0.41 +/- 0.02 to 1.93 +/- 0.08; and 0.41 +/- 0.02 to 1.66 +/- 0.03 microU/islet/min, respectively, P less than 0.001). There was no concomitant recruitment of
SRIF
receptors. Somatostatin (10 micrograms/ml), which inhibits cAMP-stimulated protein phosphorylation, suppresses insulin release evoked by IBMX, glucagon, or forskolin (inhibition: 80, 75, or 82%, respectively). In contrast, trifluoperazine (10 microM), an inhibitor of calmodulin, did not suppress insulin release induced through cAMP-dependent pathways. Trifluoperazine suppresses glucose-induced insulin release and the recruitment of
SRIF
receptors to the surface membrane, suggesting the possible role of calmodulin in promoting secretion-granule fusion with the plasma membrane.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Calmodulin and cyclic AMP. Possible different sites of action of these two regulatory agents in exocytotic hormone release. 620 Mar 77
The growth hormone (GH)-releasing action of GH-releasing factor (GRF) is known to be cAMP-dependent. However, definitive proof for the involvement of the cAMP-dependent enzyme protein kinase A (PKA) is still lacking. In this study, we characterized the PKA system in purified rat somatotrophs and examined its role in mediating GRF-stimulated GH release under static incubation conditions. PKA enzyme activity was detected only in the cytosolic, but not the particulate fraction of rat somatotrophs. This cytosolic PKA activity exhibited the characteristic cAMP dependence (with ED50 of 0.1 microM), ability to phosphorylate kemptide (a synthetic peptide with a PKA phosphorylation site), and susceptibility to inhibition by the bovine heat-stable PKA inhibitor. GRF treatment (1 pM-1 nM) stimulated the cytosolic PKA activity and GH release from rat somatotrophs in a dose-dependent manner. Time-course studies also demonstrated that activation of cAMP synthesis and PKA activity preceded the GH response to GRF. Stimulation of cytosolic PKA activity in rat somatotrophs by the
adenylate cyclase
activator forskolin (10 nM-1 microM) and membrane permeant cAMP analog db.cAMP (5 microM-0.5 mM) mimicked the GH-releasing effect of GRF. In contrast, Rp.cAMP, a cAMP antagonist for PKA regulatory subunits, blocked both the cytosolic PKA activity as well as GRF-induced GH release. Similar inhibitions were also observed when an inhibitor for PKA catalytic subunits, H89, was used. Somatostatin (
SRIF
) (1 nM), the physiological GH-release inhibitor, suppressed the GH response to GRF without affecting the basal or GRF-stimulated PKA activity.
SRIF
at a higher dose (10 nM) abolished the GH-releasing effect of GRF. In this case,
SRIF
also induced a small but significant inhibition of GRF-stimulated PKA activity. Taken together, the present study provides direct evidence that PKA enzyme activity is localized only in the cytosol of rat somatotrophs and constitutes an essential component of the signal transduction mechanism for GRF-stimulated GH release. This cytosolic PKA system, however, does not appear to be a major target for the GH-release inhibiting action of
SRIF
.
...
PMID:Cytosolic protein kinase A mediates the growth hormone (GH)-releasing action of GH-releasing factor in purified rat somatotrophs. 761 38
Somatostatin (
SRIF
) SS-2 binding sites were originally defined in rat brain cerebral cortex membranes using [125I]Tyr11-
SRIF
-14 in the presence of 120 mM NaCl. These sites were characterized by their high affinity for
SRIF
-14 and
SRIF
-28, but very low affinity for cyclic peptides such as octreotide (SMS 201-995) and seglitide (MK 678). The characteristics of SS-2 sites are reminiscent of 125I]CGP 23996-labelled sites in rat brain which have been termed SRIF-2 sites. In the present study, the pharmacological profile of SS-2 sites was determined in radioligand binding studies performed in rat cortex membranes using [125I]
SRIF
-14 in the presence of 120 mM NaCl and compared to that of human SSTR-1 receptors expressed in human embryonic kidney (HEK 293) cells, using [125I]
SRIF
-14. The rank orders of affinity of a variety of
SRIF
analogues and synthetic peptides for SS-2 binding sites and recombinant human SSTR-1 receptors were very similar and correlated highly significantly (r = 0.99). However, SS-2 binding correlated also with binding to recombinant SSTR-4 receptors (r = 0.91). Autoradiographic studies were performed using the radioligand [125I]CGP 23996 which has been claimed to label selectively SRIF-2 binding sites and compared with the distribution of SSTR-1 receptor mRNA determined using in situ hybridization in rat brain. Although some overlap was observed between the distribution of SSTR-1 mRNA and [125I]CGP 23996 binding sites, the latter were clearly more widespread, suggesting this ligand to label SSTR-1 and other sites. In addition, inhibition of forskolin-stimulated
adenylate cyclase
was investigated in HEK 293 cells transfected with human SSTR-1 receptors; a variety of
SRIF
analogues and short synthetic peptides behaved as agonists at
adenylate cyclase
and displayed a rank order of potency highly similar to that observed for these compounds at SS-2 binding sites. Seglitide acted as an antagonist at SSTR-1 receptor mediated inhibition of
adenylate cyclase
activity with a pKB of 4.42. It is concluded that the pharmacological profile of SS-2 binding sites resembles most closely that of SSTR-1 receptors (although similarities with SSTR-4 receptors were observed), that [125I]CGP 23996 labels presumably several
SRIF
receptors in rat brain, and that SSTR-1 receptors are negatively and efficiently coupled to
adenylate cyclase
activity.
...
PMID:Pharmacological identity between somatostatin SS-2 binding sites and SSTR-1 receptors. 778 6
Somatostatin (
SRIF
) SS-1 binding sites were initially defined in radioligand binding studies performed in rat brain cerebral cortex membranes using [125I]204-090 (a radiolabelled Tyr3 analogue of SMS 201-995, octreotide). SRIF-1 recognition sites were defined in binding studies performed with [125I]MK 678 (seglitide). Both SS-1 and SRIF-1 sites were characterized by their high affinity for
SRIF
-14,
SRIF
-28 and for cyclic peptides such as octreotide and seglitide, in marked contrast to SS-2 and SRIF-2 sites which have very low affinity for these synthetic
SRIF
analogues. In the present study, SS-1 and SRIF-1 radioligand binding studies were performed in rat cortex membranes and compared to results obtained in cloned Chinese hamster ovary cells expressing human SSTR-2 receptors using [125I]204-090 and/or [125I]MK-678. The rank orders of affinity of a variety of
SRIF
analogues and synthetic peptides for SS-1/SRIF-1 binding sites and recombinant SSTR-2 receptors were very similar and correlated highly significantly (r = 0.94-0.99); by contrast, correlation between SS-1 and SSTR-5 (r = 0.44) or SSTR-3 binding (r = 0.07) was not significant. Autoradiographic studies were performed in rat brain using both radioligands [125I]204-090 and [125I]MK-678 and compared with the distribution of SSTR-2 receptor mRNA determined using in situ hybridization. A clear overlap was observed between the distribution of SSTR-2 mRNA and binding sites labelled with both radioligands. SSTR-2 receptor-mediated inhibition of forskolin-stimulated
adenylate cyclase
in Chinese hamster ovary cells by a variety of
SRIF
analogues and short synthetic peptides displayed a rank order of potency highly similar to their rank order of affinity at SS-1/SRIF-1 binding sites. It is concluded that SS-1 and SRIF-1 binding sites respectively labelled with [125I]204-090 and [125I]MK 678, both display the pharmacological profile of SSTR-2 receptors, that the distribution of [125I]204-090 and [125I]MK-678 binding sites in rat brain is superimposable and largely comparable to that of SSTR-2 mRNA expression. It is also shown that neither [125I]204-090 nor [125I]MK-678 label SSTR-3 or SSTR-5 receptors in rat brain. Finally, it is demonstrated that SSTR-2 receptors can very efficiently couple to
adenylate cyclase
activity in an inhibitory manner.
...
PMID:Characterization and distribution of somatostatin SS-1 and SRIF-1 binding sites in rat brain: identity with SSTR-2 receptors. 778 7
We characterized somatostatin receptors expressed in hamster glucagonoma INR1G9 cells and the effects of somatostatin on glucagon secretion, proglucagon gene expression, and the adenosine 3',5'-cyclic monophosphate (cAMP)-dependent signal-transduction cascade. 125I-labeled somatostatin was displaced by
somatostatin-14
and
somatostatin-28
with a dissociation constant of 2 nmol/l. Stable GTP analogues decreased binding of 125I-somatostatin to its receptors, suggesting an interaction of somatostatin receptors with G proteins. Chemical cross-linking of 125I-somatostatin to its receptor revealed a molecular mass of the ligand-receptor complex of 47 kDa. Somatostatin inhibited forskolin-stimulated activation of
adenylate cyclase
[2.5 microM forskolin (161%) + 1 microM somatostatin (128%); P < 0.05] and protein kinase A [10 microM forskolin (143%) + 1 microM somatostatin (114%); P < 0.05] but did not influence basal activities of these enzymes. Forskolin-induced stimulation of cAMP generation was reduced by somatostatin [2.5 microM forskolin (306%) + 1 microM somatostatin (145%); P < 0.05]. Somatostatin inhibited forskolin, theophylline, and arginine stimulation of glucagon secretion. Basal as well as forskolin-, theophylline-, and isobutyl methylxanthine-induced proglucagon gene expression was significantly reduced by somatostatin. Our data show that, in INR1G9 cells, somatostatin receptors are at least in part coupled to the
adenylate cyclase
system. Somatostatin is a potent negative regulator of both basal and forskolin-stimulated proglucagon gene expression. The interaction with forskolin occurs at the level of
adenylate cyclase
. The effect of somatostatin on basal proglucagon gene transcription is most probably mediated by an unrelated second messenger system. Somatostatin may influence several functions of the pancreatic A cell.
...
PMID:Functional characterization of somatostatin receptors expressed on hamster glucagonoma cells. 784 Jan 80
The role of
somatostatin-14
in duodenal mucosal HCO3- secretion was investigated in anesthetized, indomethacin-treated guinea pigs. Net HCO3- output from the isolated, perfused (24 mM NaHCO3 + 130 mM NaCl) proximal duodenum was measured during intravenous infusion (alone or in combination) of
somatostatin-14
, carbachol, vasoactive intestinal peptide (VIP), and prostaglandin E2 (PGE2). In homogenates of duodenal enterocytes, the effect of these agents on
adenylate cyclase
activity was studied. Basal duodenal HCO3- secretion (3.5 +/- 0.2 mumol/cm/10 min) was reduced dose dependently by
somatostatin-14
(10(-11) mol/kg, 10(-9) mol/kg, and 10(-7) mol/kg). Carbachol, VIP, and PGE2 (all 10(-8) mol/kg) increased basal duodenal HCO3- secretion two- to threefold. Somatostatin-14 (10(-7) mol/kg) abolished the stimulatory effect of carbachol and VIP, but not that of PGE2. Basal
adenylate cyclase
activity in isolated duodenal enterocytes (9.4 +/- 1.0 pmol cAMP/mg protein/min) was unaltered by somatostatin (10(-6) mol/liter) or carbachol (10(-3) mol/liter). VIP (10(-8) mol/liter) and PGE2 (10(-7) mol/liter) increased
adenylate cyclase
activity two- to threefold, and these effects were unchanged by
somatostatin-14
(10(-6) mol/liter). In conclusion,
somatostatin-14
inhibits basal and carbachol- and VIP-stimulated duodenal HCO3- secretion, and its mechanism of action is not via inhibition of
adenylate cyclase
activity in duodenal enterocytes.
...
PMID:Effect of somatostatin-14 on duodenal mucosal bicarbonate secretion in guinea pigs. 789 65
COS-7 cells were transfected with human somatostatin (
SRIF
) receptor type 1 and 2 (human SSTR1 and SSTR2, respectively) cDNAs. In human SSTR2-expressing cells,
SRIF
not only inhibited forskolin-induced cAMP accumulation but also stimulated phospholipase C and Ca2+ mobilization. While the inhibition of cAMP accumulation was completely reversed by pertussis toxin (PTX) treatment of the cells,
SRIF
-induced activation of phospholipase C and Ca2+ mobilization was partially but not completely inhibited by the toxin treatment. In human SSTR1-expressing cells, however,
SRIF
induced only slight inhibition of cAMP accumulation and stimulation of phospholipase C-Ca2+ system. We conclude that the transfected SSTR2 can couple to phospholipase C as well as
adenylate cyclase
in a stimulatory and inhibitory manner, respectively. Both PTX-sensitive and -insensitive GTP-binding proteins may be involved in the SSTR2 signal transduction mechanisms.
...
PMID:Transfected human somatostatin receptor type 2, SSTR2, not only inhibits adenylate cyclase but also stimulates phospholipase C and Ca2+ mobilization. 791 18
The interactions of glucagon-like peptide-I(7-37)/(7-36)amide (GLP-I) and
somatostatin-14
were characterized on the cyclic adenosine monophosphate (cAMP)-dependent signal transduction pathway and on proinsulin gene expression using mouse insulinoma beta TC-1 cells. GLP-I stimulated the activity of
adenylate cyclase
maximally at 1 mumol/L (151%). This effect was inhibited by 1 mumol/L somatostatin (119%). Forskolin also stimulated
adenylate cyclase
activity (10 mumol/L forskolin, 265%), and this action was inhibited by somatostatin (220%). Somatostatin alone left the basal
adenylate cyclase
activity unaltered. Somatostatin reduced the GLP-I-stimulated increase of intracellular cAMP levels (100 nmol/L GLP-I, 141%; 100 nmol/L GLP-I + 1 mumol/L somatostatin, 110%). GLP-I stimulated concentration-dependently the activity of protein kinase A (PKA), with a maximum at 10 nmol/L (181%). This action was inhibited by 100 nmol/L somatostatin (118%), but somatostatin did not influence the basal PKA activity. Furthermore, somatostatin reduced the GLP-I-induced stimulation of proinsulin gene expression (10 nmol/L GLP-I, 176%; 10 nmol/L GLP-I + 1 mumol/L somatostatin, 77%). Somatostatin itself inhibited concentration-dependently proinsulin gene expression (1 mumol/L somatostatin, 53%). These data demonstrate that GLP-I increases the activities of both
adenylate cyclase
and cAMP-dependent PKA, whereas somatostatin counteracts the stimulatory effect of GLP-I on
adenylate cyclase
activity, cAMP generation, PKA activity, and proinsulin gene expression. The interaction of both hormones occurs at the level of
adenylate cyclase
. Therefore, the interaction of both peptide hormones regulates downstream events, including gene expression.
...
PMID:Interaction of glucagon-like peptide-I (7-37) and somatostatin-14 on signal transduction and proinsulin gene expression in beta TC-1 cells. 791 Dec 22
We transfected the COS-7 cells with cDNAs encoding different human somatostatin receptor (hSSTR) subtypes, and found that hSSTR subtypes mediate not only the inhibition of forskolin-induced cAMP accumulation but also the stimulation of phospholipase C (PLC) and Ca2+ mobilization. Activation of PLC by 1 microM somatostatin (
SRIF
) was in the order of: hSSTR5 > hSSTR2 > hSSTR3 > hSSTR4 >> hSSTR1. Pertussis toxin (PTX) treatment completely or partially reversed the PLC activation. 1 nM
SRIF
was equally effective for
adenylate cyclase
(AC) inhibition in a PTX-sensitive manner, in all the cells expressing different hSSTRs, except for hSSTR1. Nevertheless,
SRIF
stimulated AC even in the presence of forskolin at higher doses of
SRIF
in PTX-treated hSSTR5-expressing cells. We conclude that the cloned hSSTRs differentially couple to PTX-sensitive and -insensitive G-proteins to modulate PLC, Ca2+ mobilization and AC.
...
PMID:Phospholipase C activation and Ca2+ mobilization by cloned human somatostatin receptor subtypes 1-5, in transfected COS-7 cells. 803 40
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