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1.
Glucagon and secretin and some of their hybrid analogs potentiate glucose-induced release of insulin from isolated mouse pancreatic islets. It was recently shown that the synthetic glucagon analog, desHis1[Glu9]glucagon amide, does not stimulate the formation of cyclic adenosine monophosphate in the rat hepatocyte membrane, but binds well to the glucagon receptor and is a good competitive antagonist of glucagon. In the present study the effect of this analog on isolated islets was examined. desHis1-[Glu9]glucagon amide at 3 x 10(-7) M, in the presence of 0.01 M D-glucose, increased the release of insulin by 30% and maintained that level for the full 30-min test period. The rate of insulin release returned to the glucose-induced base line after removal of the peptide. The same insulin level was produced by 3 x 10(-9) M glucagon, and at 3 x 10(-7) M glucagon insulin release was enhanced 290% above the glucose base line.  相似文献   

2.
The effects of synthetic peptides, representing different parts of the secretin molecule in isolated mouse pancreatic islets have been investigated in perifusion studies. In the presence of 10 mM D-glucose the C-terminal nonapeptide Leu-Gln-Arg-Leu-Leu-Gln-Gly-Leu-Val-NH2 (S19-27) showed a 2-fold higher activity than that earlier shown for S22-27 and had the same effect on the dynamic pattern of insulin release as secretin, while the elongating sequence Leu-Gln-Arg (S19-21) had no effect on the insulin release. The nonapeptide Leu-Ser-Arg-Leu-Arg-Asp-Ser-Ala-Arg (S10-18) had no influence on the insulin release. Glucagon release seen after intact secretin could not be shown for any of the smaller fragments. Accumulation of cAMP in the islets as seen with secretin, could at 10 mmol/L D-glucose only be demonstrated with S22-27 or S19-27 but not with S10-18 or S1-6. Our results indicate that full size secretin has to be present to stimulate glucagon release while insulin-releasing activity can be confined to the C-terminal part of the hormone.  相似文献   

3.
The ability to assess the importance of secretin in various physiological processes is limited by the lack of specific potent antagonists. Recently, reduced peptide bond (psi) analogues of bombesin or substance P in which the -CONH- bond is replaced by -CH2NH- are reported to be receptor antagonists. To attempt to develop a new class of secretin receptor antagonists, we have adopted a similar strategy with secretin and sequentially altered the eight NH2-terminal peptide bonds, the biological active portion of secretin. In guinea pig pancreatic acini, secretin caused a 75-fold increase in cyclic AMP (cAMP). Secretin inhibited 125I-secretin binding with a half-maximal effect at 7 nM. Each of the psi analogues inhibited 125I-secretin binding. [psi 4,5]Secretin was the most potent, causing the half-maximal inhibition at 4 microM, and was 2-fold more potent than the [psi 1,2]secretin; 7-fold more than [psi 3,4]secretin, [psi 5,6]secretin, and [psi 8,9]secretin; 9-fold more than [psi 7,8]secretin; 13-fold more potent [psi 6,7]secretin, and 17-fold more than [psi 2,3]secretin. Secretin caused a half-maximal increase in cAMP at 1 nM. At concentrations up to 10 microM, [psi 2,3]secretin, [psi 4,5]secretin, and [psi 8,9]secretin did not alter cAMP whereas [psi 1,2]secretin and [psi 6,7]secretin caused a detectable increase in cAMP at 10 nM, [psi 7,8]secretin at 300 nM, [psi 5,6]secretin at 1 microM, and [psi 3,4]secretin at 10 microM. The [psi 4,5], [psi 2,3], and [psi 8,9] analogues of secretin each inhibited 1 nM secretin-stimulated cAMP as well as [psi 3,4]secretin, which functioned as a partial agonist. [psi 4,5]Secretin was the most potent, causing half-maximal inhibition at 3 microM whereas [psi 8,9]secretin was 6-fold less potent, and [psi 2,3]secretin and [psi 3,4]secretin were 17-fold less potent. [psi 4,5]Secretin inhibited secretin-stimulated cAMP and binding of 125I-secretin in a competitive manner. [psi 4,5]Secretin did not interact with cholecystokinin, bombesin, calcitonin gene-related peptide, or cholinergic receptors but did interact with receptors for vasoactive intestinal peptide, causing half-maximal inhibition at 72 microM and thus had a 18-fold higher affinity for secretin than vasoactive intestinal peptide receptors. These results indicate that reduced peptide bond analogues of the NH2 terminus of secretin represent a new class of secretin receptor antagonists. It is likely that in the future even more potent members of this class can be developed which may be useful to investigate the role of secretin in various physiological processes.  相似文献   

4.
The solid-phase synthesis and in vitro assays on the glucose-induced insulin secretion from rat pancreatic islets of Langerhans with six new chimeric peptides were performed. All the peptides were built up of the N-terminal galanin (GAL) fragment or its analogues, linked to the C-terminal portion of substance P (SP) analogues or scyliorhinin I (SCY-I) analogues. Two strong antagonists of the inhibitory effect of galanin on the glucose-induced insulin release were found: [cycloleucine4]GAL(1-13)-SP(5-11)-amide and GAL(1-13)-[L-norleucine10]SCY-I(3-10)-amide.  相似文献   

5.
Sensitive radioimmunoassay for secretin was developed by using synthetic preparation of porcine secretin and its related analogs. The secretin-specific antisera with titers ranging 1: 20,000-1 : 150,000 were generated in rabbits against highly purified synthetic secretin. The labeled antigen was prepared by radioiodinating by the chloramine-T method synthetic secretin analog, Nalpha-tyrosylsecretin or [Tyr1]-secretin, both of which were proved to have almost identical immunoreactivities with that of secretin itself. The immunoassay was performed by the double-antibody method using synthetic secretin as standard. The lowest detectable amount of secretin in the present assays was 5-10pg/tube. Human duodenum extract with hot water contained secretin or secretin-like material that shows a parallel displacement curve to the standard in the immunoassay system used. Serum levels of secretin immunoreactivity in man rose up to 250 pg/ml by intraduodenal infusion of HCl and to 800-1,000 pg/ml by i.v. injection of 1 cu/kg of Boots natural secretin.  相似文献   

6.
For the purpose of analytical investigation and structure/activity relationships, some secretin analogues and secretin fragments have been synthesized. HPLC comparison of the synthesized products with our synthetic secretin revealed about 2% [D-Ala17]secretin, 1% [D-Leu13]secretin and less than 1% aminoterminal degradation products. The D-Ala17 content can be eliminated if the starting material used for segment coupling (Z-Arg(Z2)-Asp(OBut)-Ser(But)-Ala-OH) has no D-Ala-contamination. In addition, traces of the rearrangement products [3-aspartoyl]-secretin and [beta-Asp3]secretin are suspected. Secretin can be degraded to several compounds by chromatography on a strong basic ion exchanger in 1% acetic acid. These products are more polar than secretin and have no biological activity. The secretin content measured by HPLC correlated well with the biological data, since the degradation products and other byproducts separated by HPLC have only a negligible influence on the pancreatic flow.  相似文献   

7.
Effects of intravenous (IV) infusion of secretin during IV infusion of glucose were examined in normal men. Secretin was administered according to three schedules: with each schedule a comparable priming dose was delivered in the first minute, but this was followed by a maintained (120 min) infusion of secretin at a relatively high rate, or by maintained infusion at one-third that rate, or by brief (15 min) infusion at the lower rate. The lower infusion rate produced increments in secretin in the blood within the range attainable during endogenous secretion. By comparison with effects of glucose alone each secretin infusion enhanced the increments of immunoreactive insulin in the blood. Enhancement of the early release (0-5 min) of insulin was similar with each type of secretin infusion, but the integrated changes in insulin levels through the total infusion period were related to the total doses of secretin. With each dose of secretin glucose tolerance was improved but the three mean glucose curves observed during infusions of secretin were not distinguishable from one another in spite of widely different integrated insulin responses. Secretin did not modify suppression of immunoreactive glucagon or free fatty acids in the blood during hyperglycemia. The results suggest that the effect of continuous administration of secretin on glucose tolerance is not simply related to its integrated insulinotropic action. It is suggested that the effect may be highly dependent on enhancement of insulin secretion early in the response to glycemia, or that it may be due to effects of secretin on glucose production or disposal which are not mediated by insulin.  相似文献   

8.
1. 125I-labelled secretin bound rapidly and specifically to membranes from cat pancreas. Binding of labelled hormone was competitively inhibited by unlabelled secretin in the same range of concentrations that stimulated pancreatic adenylate cyclase in these membranes. The dissociation constant of the membrane binding sites for unlabelled secretin as evaluated by these displacement experiments was 4.1-10(-9) M and the number of binding sites 1.0 pmol per mg of membrane protein. 2. Studies using different concentrations of [125I]secretin (at a constant ratio of labelled to unlabelled hormone) revealed a similar value of 4-4-10(-9) M for the dissociation constant. 3. Both the association and dissociation rate constants of [125I]secretin binding were temperature sensitive; the dissociation rate constant increased more rapidly with increase in temperature. The ratio k-1/k+1 (at 22 degrees C) gave a dissociation constant of 3.7-10(-9)M which agrees closely with the figure obtained from equilibrium data. These data indicate that 125I-labelled secretin and unlabelled secretin bind to the same binding site on pancreatic membranes, with high affinity. 4. Unlabelled secretin stimulated pancreatic adenylate cyclase with an apparent Km of 8.4-10(-9) M, while [125I]secretin apparently did not stimulate the adenylate cyclase. Together with the binding data this might suggest that different portions of the secretin molecule are responsible for binding and adenylate cyclase activation. 5. Studies on the specificity of [125I]secretin binding carried out with various peptide hormones (glucagon, human gastrin, pancreozymin and caerulein) which are all inefficient in stimulating pancreatic fluid secretin, showed that these hormones have no influence on the binding of [125I]secretin. In contrast, vasoactive intestinal polypeptide, which stimulates pancreatic fluid and bicarbonate secretion, showed a competitive inhibition of secretin binding to the plasma membrane preparation.  相似文献   

9.
M Ikeda  S Suzuki  H Oka  H Niwa  M Fujino 《Life sciences》1983,32(18):2107-2114
Dispersed acini from rat pancreas, incubated in the presence of KH2(32)PO4 to steady state 32P incorporation into cellular proteins, were exposed to secretin. 32P incorporated into selected proteins, separated by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis, reached a plateau by 150 min. Effect of secretin on amylase release, cellular cyclic AMP levels and protein phosphorylation was then examined. Stimulation of amylase release was apparent with 10(-10)M and was maximal with 10(-7)M by 10 min incubation. Almost maximal increase in cellular cyclic AMP levels and 32P incorporation into selected proteins was also observed with 10(-7)M secretin by 10 min in the presence of 10 mM theophyllin. Both secretin (10(-8)M) and dibutyryl cyclic AMP (10(-3)M) induced the phosphorylation of similar proteins analyzed by counting 32P content in each peptide band after SDS gel electrophoresis. Addition of cyclic AMP (10(-6)M) to homogenates of acini also augmented 32P incorporation from [gamma-32P]ATP into similar proteins. These results indicate that secretin enhances protein phosphorylation in pancreatic acinar cells and cyclic AMP may mediate the action of secretin on protein phosphorylation.  相似文献   

10.
The effect of endogenous and exogenous secretin on fasting plasma insulin and glucose concentrations in peripheral venous blood was studied. In 10 non-diabetic subjects intragastric instillation of 300 ml 0.1 mol/l hydrochloric acid increased the plasma secretin concentration significantly. This increment did not influence insulin or glucose concentration. Control experiments with intragastric instillation of 300 ml of isotonic saline did not influence the plasma concentration of secretin, insulin or glucose. In four other non-diabetic persons no significant changes were found in plasma insulin or glucose concentration during an i.v. infusion of pure natural porcine secretin in doses of 0.1, 0.3, 1.0 and 3.0 clinical units/kg/h. The results suggest that secretin is without effect on insulin secretion in the fasting normal subject.  相似文献   

11.
Tyr(P)-containing proteins were purified from extracts of insulin-treated rat hepatoma cells (H4-II-E-C3) by antiphosphotyrosine immunoaffinity chromatography. Two major insulin-stimulated, Tyr(P) proteins were recovered: an Mr 95,000 protein (identified as the insulin receptor beta subunit by its immunoprecipitation by a patient-derived anti-insulin receptor serum and several anti-insulin receptor (peptide) antisera) and an Mr 180,000 protein (which was unreactive with all anti-insulin receptor antibodies). After purification and tryptic digestion of the Mr 95,000 protein, tryptic peptides containing Tyr(P) were purified by sequential antiphosphotyrosine immunoaffinity, reversed-phase, anion-exchange chromatography. The partial amino acid sequence obtained by gas- and solid-phase Edman degradation was compared to the amino acid sequence of the intracellular extension of the rat insulin receptor deduced from the genomic sequence. Approximately 80% of all beta subunit [32P]Tyr(P) resides on two tryptic peptides: 50-60% of [32P]Tyr(P) is found on the tryptic peptide Asp-Ile-Tyr-Glu-Thr-Asp-Tyr-Tyr-Arg from the tyrosine kinase domain, which is recovered mainly as the double phosphorylated species (predominantly in the form with Tyr(P) at residues 3 and 7 from the amino terminus; the remainder with Tyr(P) at residues 3 and 8), with 10-15% as the triple phosphorylated species. A second tryptic peptide is located near the carboxyl terminus, contains 2 tyrosines, and has the sequence, Thr-Tyr-Asp-Glu-His-Ile-Pro-Tyr-Thr-; this contains 20-30% of beta subunit [32P]Tyr(P) and is identified primarily in a double phosphorylated form. Approximately 10% of beta subunit [32P]Tyr(P) resides on an unidentified tryptic peptide of Mr 4,000-5,000. The insulin-stimulated tyrosine phosphorylation of the insulin receptor in intact rat hepatoma cells thus involves at least 6 of the 13 tyrosine residues located on the beta subunit intracellular extension. These tyrosines are clustered in several domains in a distribution virtually identical to that previously found for partially purified human insulin receptor autophosphorylated in vitro in the presence of insulin. This multisite regulatory tyrosine phosphorylation is the initial intracellular event in insulin action.  相似文献   

12.
The structure of the secretin receptor in purified plasma membranes isolated from the antral and fundic parts of the rat gastric mucosa was probed, using the cross linking reagent dithiobis succinimidyl propionate (DSP) and HPLC-purified [125I] secretin. [125I] secretin binding sites were preferentially located in rat antrum and displayed the pharmacological properties expected for specific secretin receptors: secretin greater than helodermin greater than rhGRF greater than rPHI. SDS gel electrophoresis of the solubilized receptor allowed identification of two radiolabeled peptides of 62 and 33 KDa connected by disulfide bonds. According to the sensitivity of the 62 KDa component to low doses of secretin and to GTP, it constitutes the membrane domain involved in the physiological regulation of adenylate cyclase by secretin in rat gastric glands.  相似文献   

13.
The isolated perfused rat pancreas with duodenal exclusion was used to study the stimulation of glucose-induced insulin release in response to chicken and porcine vasoactive intestinal peptide (VIP). The insulin response to 5.5 or 16.7 mM glucose was markedly enhanced by 750 pM porcine VIP and a concentration of 250 pM was still effective. At 250 pM, chicken VIp exhibited a slightly higher potency than porcine VIP at both glucose concentrations. The main difference between the two peptides was that the effect of porcine VIP disappeared immediately after the peptide suppression but tha of chicken VIP persisted for an additional period of 8-10 min. Somatostatin (10 ng/ml) blocked the stimulatory effect of both VIP molecules on glucose-induced insulin secretion. After suppression of VIP and somatostatin from the perfusion medium, insulin release increased to levels higher than those with glucose alone in the case of the avian peptide, but not in that porcine VIP. The data are consistent with previous results in the literature on stimulation of exocrine pancreas secretion and interaction with intestinal epithelium.  相似文献   

14.
The actions of gastric inhibitory polypeptide (GIP) on insulin release from the isolated perfused rat pancreas were compared with those of pure secretin and cholecystokinin (CCK). At dose levels physiologically achievable for GIP (1 ng/mL perfusate), infusions of CCK stimulated significant insulin release both on a weight (1 ng/mL) and a molar (770 pg/mL) basis. Although 50% as potent as GIP on a weight basis and 43% as potent on a molar basis, the insulin response to CCK was multiphasic and sustained for the duration of the infusion. The action of CCK, like that of GIP, was glucose dependent yielding no significant insulin release at a low perfusate glucose concentration (80 mg/dL). Irrespective of perfusate glucose concentration or dose (1 or 5 ng/mL), secretin failed to stimulate significant release of insulin from the perfused pancreas. It was concluded that secretin is ineffective as an incretin and that a physiological role for CCK in an enteroinsular axis awaits accurate measurement of circulating levels of immunoreactive CCK.  相似文献   

15.
Distinct spatial approximations between residues within the secretin pharmacophore and its receptor can provide important constraints for modeling this agonist-receptor complex. We previously used a series of probes incorporating photolabile residues into positions 6, 12, 13, 14, 18, 22, and 26 of the 27-residue peptide and demonstrated that each covalently labeled a site within the receptor amino terminus. Although supporting a critical role of this domain for ligand binding, it does not explain the molecular mechanism of receptor activation. Here, we developed probes having photolabile residues at the amino terminus of secretin to explore possible approximations with a different receptor domain. The first probe incorporated a photolabile p-benzoyl-l-phenylalanine into the position of His(1) of rat secretin ([Bpa(1),Tyr(10)]secretin-27). Because His(1) is critical for function, we also positioned a photolabile Bpa as an amino-terminal extension, in positions -1 (rat [Bpa(-1),Tyr(10)]secretin-27) and -2 (rat [Bpa(-2),Gly(-1),Tyr(10)]secretin-27). Each analog was shown to be a full agonist, stimulating cAMP accumulation in receptor-bearing Chinese hamster ovary-SecR cells in a concentration-dependent manner, with the position -2 probe being most potent. They bound specifically and saturably, although the position 1 analog had lowest affinity, and all were able to label the receptor efficiently. Sequential specific cleavage, purification, and sequencing demonstrated that the sites of covalent attachment for each probe were high within the sixth transmembrane segment. This suggests that secretin binding may exert tension between the receptor amino terminus and the transmembrane domain to elicit a conformational change effecting receptor activation.  相似文献   

16.
Photoaffinity labeling of receptors by bound agonists can provide important spatial constraints for molecular modeling of activated receptor complexes. Secretin is a 27-residue peptide hormone with a diffuse pharmacophoric domain that binds to the secretin receptor, a prototypic member of the Class B family of G protein-coupled receptors. In this work, we have developed, characterized, and applied two new photolabile probes for this receptor, with sites for covalent attachment in peptide positions 12 and 14, surrounding the previously most informative site of affinity labeling of this receptor. The [Tyr10,(BzBz)Lys12]rat secretin-27 probe covalently labeled receptor residue Val6, whereas the [Tyr10,(BzBz)Lys14]rat secretin-27 probe labeled receptor residue Pro38. When combined with previous photoaffinity labeling data, there are now seven independent sets of constraints distributed throughout the peptide and receptor amino-terminal domain that can be used together to generate a new molecular model of the ligand-occupied secretin receptor. The amino-terminal domain of this receptor presented a stable platform for peptide ligand interaction, with the amino terminus of the peptide hormone extended toward the transmembrane helix domain of the receptor. This provides clear insights into the molecular basis of natural ligand binding and supplies testable hypotheses regarding the molecular basis of activation of this receptor.  相似文献   

17.
The effect of secretin on glucagon and insulin release and its interaction with glucose has been studied in cultured mouse pancreatic islets by column perifusion. Glucose alone showed the well-known stimulation of insulin release and inhibition of glucagon release. Addition of 10 mM secretin increased glucagon secretion at 3 mM D-glucose by 300% while no change in insulin release could be seen at this low glucose concentration. At maximal stimulation of insulin release by 20 mM D-glucose addition of 10 nM secretin increased insulin release by 30%. Despite this insulin concentration and the high glucose concentration an increase in glucagon secretion of 1800% was found. These effects of secretin were dose-dependent at 10 mM D-glucose with 1 nM secretin being the lowest effective dose.  相似文献   

18.
We evaluated the possible autocrine modulatory effect of insulin on glucose metabolism and glucose-induced insulin secretion in islets isolated from normal hamsters. We measured 14CO2 and 3H2O production from d-[U-14C]glucose and d-[5-3H]glucose, respectively, in islets incubated with 0.6, 3.3, 8.3, and 16.7 mM glucose alone or with 5 or 15 mU/ml insulin, anti-insulin guinea pig serum (1:500), 25 microM nifedipine, or 150 nM wortmannin. Insulin release was measured (radioimmunoassay) in islets incubated with 3.3 or 16.7 mM glucose with or without 75, 150, and 300 nM wortmannin. Insulin significantly enhanced 14CO2 and 3H2O production with 3.3 mM glucose but not with 0.6, 8.3, or 16.7 mM glucose. Addition of anti-insulin serum to the medium with 8.3 and 16.7 mM glucose decreased 14CO2 and 3H2O production significantly. A similar decrease was obtained in islets incubated with 8.3 and 16.7 mM glucose and wortmannin or nifedipine. This latter effect was reversed by adding 15 mU/ml insulin to the medium. Glucose metabolism was almost abolished when islets were incubated in a Ca2+-deprived medium, but this effect was not reversed by insulin. No changes were found in 14CO2 and 3H2O production by islets incubated with 3.3 mM glucose and anti-insulin serum, wortmannin, or nifedipine in the media. Addition of wortmannin significantly decreased insulin release induced by 16.7 mM glucose in a dose-dependent manner. Our results suggest that insulin exerts a physiological autocrine stimulatory effect on glucose metabolism in intact islets as well as on glucose-induced insulin release. Such an effect, however, depends on the glucose concentration in the incubation medium.  相似文献   

19.
Summary The solid-phase synthesis andin vitro assays on the glucose-induced insulin secretion from rat pancreatic islets of Langerhans with six new chimeric peptides were performed. All the peptides were built up of the N-terminal galanin (GAL) fragment or its analogues, linked to the C-terminal portion of substance P (SP) analogues or scyliorhinin I (SCY-I) analogues. Two strong antagonists of the inhibitory effect of galanin on the glucose-induced insulin release were found: [cycloleucine4]GAL(1–13)-SP(5–11)-amide and GAL(1–13)-[L-norleucine10]SCY-I(3–10)-amide.  相似文献   

20.
The effect of bombesin on insulin release from isolated pancreatic islets of rats was examined in vitro. Bombesin, at the doses ranging from 10 ng/ml to 1 microgram/ml, significantly inhibited 16.7 mM glucose-induced insulin release, while bombesin had no inhibitory effect on insulin release at 8.3 mM and 3.3 mM glucose. Moreover, bombesin also suppressed insulin release elicited by 10 mM arginine at the doses of 100 ng/ml and 1 microgram/ml. These results indicate that bombesin has a direct inhibitory action on insulin release.  相似文献   

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