UNIPROT:P01350 - FACTA Search

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Query: UNIPROT:P01350 (gastrin)
9,683 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gastrin releasing peptide (GRP), the human homologue of bombesin (BN), is an autocrine growth factor for small cell lung cancer (SCLC) cells. The synthetic octapeptides [D-cpa1-beta-Leu8-des-Met9]litorin (BIM 26182) and [D-Phe6-Leu13-CH2NH-Cpa14]bombesin(6-14)NH2 (BIM 26189) are potent GRP/BN antagonists of the proliferation of 3T3 and rat pancreas cells. The effect of these analogues on the proliferation of four SCLC cell lines (SCLC 6, SCLC 41, SCLC 75, SCLC 74R) was tested in vitro and in vivo. Two of these SCLC lines (SCLC 41M and SCLC 75) had receptors for BN/GRP and expressed the prepro-GRP mRNA. BIM 26182 and BIM 26189 inhibited [3H]thymidine incorporation into the DNA of SCLC 41 cells, stimulated [3H]thymidine incorporation in SCLC 6, and had no effect on the two other cell lines. The SCLC implanted s.c. in nude mice were treated with either BIM 26182 or BIM 26189. BIM 26182 and BIM 26189 injected at the doses of 50 micrograms twice a day (s.c.) around the tumor for 10 to 21 days delayed the growth of SCLC 41 and of SCLC 75. The maximal effect was observed during the treatment period, after which the tumors regrew, suggesting a cytostatic effect of these peptides. No inhibitory effect of the peptides on SCLC 74R or SCLC 6 growth was observed. These data suggest that GRP antagonists are able to inhibit the in vitro and in vivo growth of BN/GRP receptors-positive SCLC.
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PMID:Antitumoral activity of bombesin analogues on small cell lung cancer xenografts: relationship with bombesin receptor expression. 132 85

Several bombesin-receptor antagonists are available that inhibit secretory and growth effects of bombesin, in vitro. In the present study, we examined the effects of a new class of bombesin receptor antagonists (modified GRP(15-27) peptides, with D-Pro26 and D-Ala24 moieties), on bombesin mediated effects, in vivo and in vitro. Of the 10 different compounds tested, BW-10 or 2258U89 ([de-NH2)Phe19,D-Ala24,D-Pro26 psi(CH2NH)Phe27]-GRP(19-27)) was most potent towards inhibiting bombesin binding to rat pancreatic acinar cancer cells with an ID50 of 0.5 nM. BW-10 (1 and 10 nM) significantly inhibited the gastrin response to 1 nM bombesin, from isolated rat stomach, in vitro, in a dose-dependent fashion. BW-10 (10-100 nmol/kg) was equally effective at significantly inhibiting bombesin evoked gastrin release in anesthetized rats, in vivo. [D-Phe6]Bombesin(6-13)-propylamide (BIM), a member of another class of antagonists, reported previously to be the most potent antagonist, in vitro, on the other hand, enhanced bombesin provoked gastrin release in rats. The antagonistic effects of BIM, in vivo, may thus be more selective. Intravenous infusion of BW-10 (10 nmol/kg/h) partially depressed gastrin and pancreatic polypeptide and completely abolished insulin released in response to bombesin, in conscious dogs. These results suggest that BW-10 functions as one of the most potent bombesin receptor antagonists, in vitro and in vivo, which could potentially be used as a therapeutic compound in treatment of some human diseases.
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PMID:A novel bombesin receptor antagonist (2258U89), potently inhibits bombesin evoked release of gastrointestinal hormones from rats and dogs, in vitro and in vivo. 133 39

Using AR4-2J rat pancreatic carcinoma cells, the effects of a novel bombesin (BN) receptor antagonist [D-F5Phe6, D-Ala11]BN(6-13)OMe (BIM26226) on BN- or GRP-stimulated amylase release and binding of radio-labeled bombesin-like peptides to these cells were examined and compared to [D-Phe6,Leu13 psi(CH2NH)Leu14]BN(6-14) (Psi Bn(6-14)), one of the most potent BN receptor antagonists presently known. BN and GRP both stimulated amylase release with EC50 values in the nanomolar range. Both antagonists were devoid of agonist activity when tested alone. BIM26226 was most potent, antagonizing BN- or GRP-stimulated amylase release with IC50 values in the nanomolar range, whereas Psi Bn(6-14) was approximately ten times less potent. With 125I-[Tyr15]GRP bound to these cells, the binding affinities were BIM26226 > GRP > Psi Bn(6-14) >> neuromedin B. BIM 22626 was not able to inhibit binding of radio-labeled CCK-33, gastrin-17 or VIP. These results suggest that BIM26226 is one of the most potent and specific bombesin receptor antagonists in vitro and seems to be a useful tool to define the physiologic role of GRP in vivo.
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PMID:Effects of BIM26226, a potent and specific bombesin receptor antagonist, on amylase release and binding of bombesin-like peptides to AR4-2J cells. 753 56

Ionophoresis of the smaller bombesin-like peptides (gastrin releasing peptide [GRP]-(18-27), neuromedin B, and bombesin) evoked responses from 30-60% of hamster suprachiasmatic nucleus cells recorded in a hypothalamic slice preparation, depending on the circadian phase. We also demonstrated for the first time that the putative bombesin-like peptide receptor antagonists [D-F5,D-Phe6,D-Ala11]bombesin-(6-13)methyl ester (BIM 26226) and [D-Phe6,Des-Met14]bombesin-(6-14)ethyl amide can be applied ionophoretically to block physiological responses to bombesin-like peptides. Together with earlier findings, these results show that bombesin-like peptides administered by several methods can potently alter the firing rates of hamster suprachiasmatic nucleus neurons in vitro. These results indicate that bombesin-like peptides affect suprachiasmatic nucleus cells and could play a role in modulating suprachiasmatic nucleus-mediated circadian rhythm entrainment.
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PMID:Effects of ionophoretically applied bombesin-like peptides on hamster suprachiasmatic nucleus neurons in vitro. 770 41

In the present study we investigated the effects of the somatostatin (SS) analogs octreotide, RC-160, and BIM-23014 on GH release by cultured cells of human GH-secreting pituitary tumors, in normal rat anterior pituitary cells, and on gastrin release by cultured cells from a human gastrinoma. In all GH-secreting adenomas and in rat anterior pituitary cells, RC-160 was the most potent compound. RC-160 significantly inhibited GH-, PRL, and/or alpha-subunit release by human GH-secreting pituitary adenoma cells in concentrations as low as 10(-12)-10(-14) M, whereas at the same concentrations, octreotide and BIM-23014 did not inhibit or were significantly less effective in inhibiting GH release (P < 0.01, RC-160 vs. octreotide and BIM-23014). In rat anterior pituitary cell cultures, the IC50 values for inhibition of GH release were, in rank order of potency, 0.1, 5.3, 47, 48, and 99 pM for RC-160, SS-14, BIM-23014, octreotide, and SS-28, respectively. Maximal inhibitory effects by the three analogs were the same in the human GH adenoma cell cultures and the rat anterior pituitary cell cultures (-60%). On the basis of these data, RC-160 appears to be about 500 times more potent than octreotide and BIM-23014 in inhibiting GH release by rat anterior pituitary cells in vitro. Forskolin (100 microM) as well as pretreatment of the cells with pertussis toxin significantly diminished the inhibitory effects of the three SS analogs and those of SS-14 and SS-28 to the same extent. The latter data suggest that octreotide, RC-160, and BIM-23014 act mainly via a pertussis toxin-sensitive G-protein and an adenylyl cyclase-dependent mechanism. In the human gastrinoma culture, RC-160 inhibited gastrin release significantly more than octreotide at 10(-12)- and 10(-14)-M concentrations (P < 0.01). In conclusion, the SS analogs octreotide, RC-160, and BIM-23014 may have significant different potencies of inhibition of hormone release in vitro, with RC-160 being the most potent SS analog and octreotide and BIM-23014 having similar potencies. Depending on the pharmacokinetic properties of these three octapeptide SS analogs, these observations may have consequences for the medical therapy of patients with SS receptor-positive endocrine tumors.
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PMID:Relative potencies of the somatostatin analogs octreotide, BIM-23014, and RC-160 on the inhibition of hormone release by cultured human endocrine tumor cells and normal rat anterior pituitary cells. 790 31

Somatostatin (SRIF) is a cyclic tetradecapeptide hormone initially isolated from ovine hypothalami. It inhibits endocrine and exocrine secretion, as well as tumor cell growth, by binding to specific cell surface receptors. Its potent inhibitory activity, however, is limited by its rapid enzymatic degradation and the consequent short plasma half-life. Octreotide is a short SRIF analog with increased duration of action compared to SRIF. Octreotide is approved for the treatment of acromegaly, amine precursor uptake and decarboxylation-omas, complications of pancreatic surgery and severe forms of diarrhea. Preclinical studies have focussed on the anticancer effects of octreotide and the related SRIF analogs BIM 23014 and RC-160. In vitro at nanomolar concentrations, these analogs inhibit the growth of tumor cells that express high affinity SRIF receptors. Accordingly, SRIF analogs, such as octreotide, potently inhibit the growth of SRIF receptor-positive tumors in various rodent models, and, in particular, xenotransplanted human tumors in nude mice. The range of cancers susceptible to octreotide and related SRIF analogs includes mammary, pancreatic, colorectal and lung malignancies. Moreover, an indirect antiproliferative effect of SRIF analogs is achievable in SRIF receptor-negative tumors, whose growth is driven by factors (gastrin, insulin-like growth factor-1, etc.) that are downregulated by SRIF. The use of radiolabeled somatostatin analogs represents a new diagnostic approach. [111In-DTPA]octreotide was developed for gamma camera imaging of SRIF receptor-positive malignancies, such as gasteroenteropancreatic tumors. Visualization of SRIF receptor-positive tumors in humans is emerging as an important methodology, both in tumor staging and predicting therapeutic response to octreotide. Recently, five SRIF receptor subtypes (SSTR1-5) have been cloned, all of which bind SRIF with high affinity. In contrast, SRIF receptor subtypes 1-5 have different binding profiles for short SRIF analogs. Octreotide, SSTR5, show moderate affinity for SSTR3 and fail to bind with high affinity to the other subtypes (SSTR1 and 4). Accordingly, the oncological profile of these three analogs is apparently similar. In conclusion, somatostatin analogs are a promising class of compounds for diagnosis and treatment of cancer. Current work is focussed on the identification of further SRIF receptor subtype-selective analogs with potential in oncology.
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PMID:Somatostatin analogs for diagnosis and treatment of cancer. 791 34

Receptors for the bombesin family of peptides are present on human and guinea pig respiratory tract submucosal glands and mediate glandular exocytosis. The effects of gastrin releasing peptide (GRP), neuromedin B (NMB), the amphibian skin peptides ranatensin and phyllolitorin and bombesin antagonists were assessed in the guinea pig nasal mucosal secretion model vivo, GRP induced significant total protein and alkaline phosphatase secretion with half maximal responses at 1 and 10 nM, respectively. NMB induced a larger percent change in alkaline phosphatase secretion than GRP with a half maximal response at less than 1 nM NMB. GRP-induced secretion was antagonized by three bombesin-like peptide analogs: BIM-26028, BIM-26187 and BIM-26226. Total protein secretion induced by 100 nM GRP was reduced 50% by BIM-compounds at concentrations of 1 to 3 nM, although BIM-26226 was even more potent on alkaline phosphatase secretion. BIM-26226 (1 nM) reduced the effects of increasing doses of GRP and NMB, Ranatensin and phyllolitorin did not stimulate any secretion. mRNA for GRP receptors, NMB receptors, bombesin receptor subtype 3, GRP and NMB were detectable in human nasal mucosal samples. These and previous data suggest that: 1) GRP is a more potent secretagogue of total protein than NMB and bombesin, 2) NMB is more potent at stimulating alkaline phosphatase, 3) ranatensin and phyllolitorin are not secretagogues, 4) BIM-26226 is a potent GRP and NMB antagonist, 5) these compounds do not alter basal secretion, suggesting that GRP and NMB do not play active roles stimulating tonic secretion in this model and 6) GRP, and potentially NMB, released from nerves or other sites may act on GRP receptor, NMB receptor or bombesin receptor subtype 3 to induce glandular secretion in respiratory mucosa.
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PMID:Effects of bombesin family peptides and antagonists on guinea pig nasal mucosal secretion. 878 59

1. The aim of this study was to determine the location and functional characteristics of the somatostatin (SRIF) receptor type(s) which mediate inhibition of acid secretion in rat isolated gastric mucosa. 2. Gastrin (1 nM-1 microM), dimaprit (10 microM-300 microM) and isobutyl methylxanthine (IBMX, 1 microM-100 microM) all caused concentration-dependent increases in acid output. Responses to gastrin were almost completely inhibited by ranitidine (10 microM) at a concentration which abolished the secretory response to dimaprit. In contrast, responses to IBMX were not changed by ranitidine suggesting that IBMX acts directly on the parietal cell and not indirectly by releasing histamine from enterochromaffin-like (ECL) cells. 3. SRIF-14 (1 nM-1 microM) had no effect on basal acid output, but inhibited acid output produced by gastrin, dimaprit and IBMX in a concentration-dependent manner with respective EC50 values of 46, 54 and 167 nM. The peptidase inhibitors, amastatin (10 microM) and phosphoramidon (1 microM), had no effect on SRIF-induced inhibition of dimaprit stimulated gastric acid secretion. 4. The inhibitory effect of a range of SRIF analogues on gastrin-, dimaprit- and IBMX-induced acid secretion was also studied. Irrespective of the secretagogue used to increase acid output, the rank order of potencies was similar (BIM-23027 = seglitide = octreotide > SRIF-14 = SRIF-28 > L-362,855). The linear peptide BIM-23056 was devoid of agonist or antagonist activity in concentrations up to 1 microM. 5. The sst2 receptor selective peptides, BIM-23027, seglitide and octreotide were the most potent inhibitors of gastrin-, dimaprit- and IBMX-induced acid secretion suggesting that SRIF receptors resembling the recombinant sst2 receptors are involved. Furthermore, since dimaprit and IBMX stimulate gastric acid secretion independently of histamine release, sst2 receptor-mediated inhibition must occur at the level of the parietal cell itself.
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PMID:Somatostatin sst2 receptor-mediated inhibition of parietal cell function in rat isolated gastric mucosa. 892 39

Recent studies have identified two subtypes of bombesin (BN) receptors in the rat central nervous system: gastrin releasing-peptide (GRP) preferring and neuromedin B (NMB) preferring. To investigate a role for the NMB-preferring receptor subtype in feeding suppression elicited by fourth ventricular (4V) BN administration, we evaluated the ability of a selective NMB-preferring receptor antagonist, BIM-23127, to block suppression of glucose intake produced by 4V BN (10 pmol). Our results showed that 4V administration of BIM-23127 dose dependently antagonized the suppression of glucose intake produced by 4V BN. In addition, 4V administration of BIM-23127 alone increased glucose intake above that observed in the baseline condition. These results support a role for the NMB-preferring BN receptor subtype in the suppression of intake produced by 4V BN administration and suggest that endogenously released NMB participates in ingestive control.
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PMID:Caudal hindbrain neuromedin B-preferring receptors participate in the control of food intake. 903 40

Somatostatin is a potent inhibitor of gastrin-stimulated acid secretion by activation of somatostatin receptor type 2 (sst2) in vivo, probably in part by blocking gastrin-stimulated histamine release from enterochromaffin-like cells expressing sst2. We propose that activation of sst2 may also regulate meal-stimulated acid secretion by blocking gastrin release from antral G cells. Using peptide analogs relatively selective for sst2 (NC-8-12), sst3 (BIM-23058), and sst5 (BIM-23052), we tested this hypothesis in two ways: first, in vivo by measuring plasma gastrin release during meal-stimulated acid secretion in dogs, and second, in vitro by measuring bombesin-stimulated gastrin release from an enriched culture of canine antral G cells. In vivo, a low dose (0.05 nmol.kg-1.h-1) of NC-8-12 inhibited acid secretion 56 +/- 16% without blocking gastrin release. A higher dose (1 nmol.kg-1.h-1) of NC-8-12 abolished acid secretion and inhibited gastrin release by 61 +/- 4%, whereas the highest dose (5 nmol.kg-1.h-1) inhibited gastrin release by 84 +/- 3%. Only the highest doses (5 nmol.kg-1.h-1) of BIM-23058 and BIM-23052 significantly inhibited gastrin release and acid secretion. In vitro, NC-8-12 (10(-9) M) reduced bombesin-stimulated gastrin release from antral G cells by 49 +/- 5%, whereas BIM-23058 and BIM-23052 were at least 100-fold less effective. These results indicate that somatostatin activation of sst2, but not sst3 or sst5, is the major pathway for somatostatin-induced inhibition of meal-stimulated gastrin release and acid secretion.
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PMID:Somatostatin inhibits gastrin release and acid secretion by activating sst2 in dogs. 922 85

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