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)

We describe here the properties of tert-butyloxycarbonyl-Trp-Leu-Asp-Phe-NHNH2 (A-57696), a C-terminal hydrazide analogue of tert-butyloxycarbonyl-CCK4 (Boc-Trp-Met-Asp-Phe-NH2), at four cholecystokinin (CCK) receptor-bearing tissues, the guinea pig pancreas and gall bladder (Type A), guinea pig cortex (Type B), and NCI-H345 cells, a human small cell lung cancer cell line that expresses CCK-B/gastrin receptors. Using 125I-Bolton-Hunter-cholecystokinin octapeptide (26-33) (125I-Bolton-Hunter-CCK8) as the radioligand, A-57696 was found to be selective for cortical CCK-B receptors (IC50 = 25 nM), compared with pancreatic CCK-A receptors (IC50 = 15 microM). A-57696 behaved as a competitive antagonist in reversing CCK8-stimulated pancreatic amylase secretion and phosphoinositide breakdown. By Schild analysis, its Kd was determined to be 4.7 and 6.8 microM in amylase and phosphoinositide assays, respectively. A-57696 (100 microM) did not elicit gall bladder contraction, and it inhibited contractions induced by CCK8. The Kd of A-57696 at gall bladder CCK-A receptors was 19 microM. In contrast, A-57696 behaved as a partial agonist (80% of maximal CCK8 response) in stimulating calcium mobilization at CCK-B/gastrin receptors on NCI-H345 cells. A-57696 and CCK8 inhibited each other in calcium mobilization experiments utilizing the fluorescent dye Indo-1. Stimulatory actions of CCK8 and A-57696 were reversed by the CCK-B-selective (R)-L-365,260 (100 nM), whereas at the same concentration, the CCK-A-selective (S)-L-365,260 was ineffective. Binding studies using 125I-Bolton-Hunter-CCK8 and 125I-gastrin indicated that binding sites labeled by these two ligands displayed similar affinities for CCK8, desulfated CCK8, gastrin, A-57696, and both enantiomers of L-365,260. A-57696 represents a new class of CCK-A peptide antagonist at guinea pig pancreas a new class of CCK-A peptide antagonist at guinea pig pancreas and gall bladder. Its contrasting functional activities at guinea pig CCK-A and CCK-B/gastrin receptors in a human tumor cell demonstrate that, in addition to the previously described differences in binding specificity for selective agonists and antagonists, CCK-A receptors and CCK-B/gastrin receptors have different requirements for activation.
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PMID:Distinct requirements for activation at CCK-A and CCK-B/gastrin receptors: studies with a C-terminal hydrazide analogue of cholecystokinin tetrapeptide (30-33). 260 85

Although the normal function of pulmonary neuroendocrine (PNE) cells containing bioactive peptides is poorly understood, various pulmonary diseases are associated with hyperplasia of these cells, and they also may be progenitors for small cell lung cancer in humans. In this study we have investigated the effects of subchronic cigarette smoke exposure in the hamster on the PNE cells and their peptide content. Daily exposure to standard research cigarette smoke for as long as 90 days led to progressively higher levels of serum calcitonin (iCT) as well as higher lung tissue iCT and the gastrin releasing-like peptides or mammalian bombesin (MB). Subsequent to a 30-day period during which there was no further exposure to smoke, serum levels returned to control levels, but the lung levels of both iCT and MB remained higher than control levels. Also, after the 90 days of exposure, immunocytochemistry revealed an increase in the number of iCT-containing PNE cells. This increase in the number of PNE cells correlated well with the increased iCT content of the lung tissue. We conclude that subchronic cigarette smoke exposure causes an increase in pulmonary levels of iCT and MB, which may be linked to the observed proliferative response of the PNE cells.
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PMID:Stimulation of hamster pulmonary neuroendocrine cells and associated peptides by repeated exposure to cigarette smoke. 276 80

Gastrin releasing peptide (GRP) is a peptide hormone containing 27 amino acids which is structurally analogous to the amphibian peptide bombesin. GRP serves a variety of physiological functions and has been implicated in the pathophysiology of small cell lung cancer. Previous work has demonstrated that the modified C terminus of GRP, N-acetyl-GRP-20-27, exerts full agonist activity in a variety of assay systems. However, no systematic comparison of binding of GRP fragments to its receptor and mitogenic potency has been reported. To investigate whether smaller GRP fragments could bind to the GRP receptor without stimulating mitogenesis, we performed binding inhibition and thymidine uptake assays with Swiss 3T3 fibroblasts. These studies were facilitated by the development of a novel tritiated GRP-based radioligand, [3H-Phe15] GRP-15-27, which exhibits enhanced chemical stability compared to iodinated GRP derivatives. We examined a series of C-terminal GRP fragments, from the pentapeptide to the octapeptide, with both N-acetyl and free amine moieties at the N terminus. N-Acetylated derivatives were more potent than their primary amine counterparts in both assays. Deletion of N-terminal residues from GRP-20-27 resulted in significant loss of potency in both assays: the EC50 values of N-acetyl-GRP-21-27 were 10(2)-fold higher than N-acetyl-GRP-20-27, those of N-acetyl-GRP-22-27 were 10(4)-fold higher, and N-acetyl-GRP-23-27 showed minimal activity at concentrations below 100 microM. These results suggest that 1) both His20 and Trp21 play an important role in binding of GRP to the receptor, and 2) for this series of N-terminal deletions, binding to the receptor and mitogenic activity are tightly coupled.
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PMID:Minimal ligand analysis of gastrin releasing peptide. Receptor binding and mitogenesis. 283 60

Creatine kinase (CK-BB), neuron specific enolase (NSE), ACTH, calcitonin, serotonin and gastrin releasing peptide (GRP) were measured in serum or plasma before and immediately after initiation of treatment in patients with small cell lung cancer (SCC). Pretherapeutic elevated concentrations of CK-BB were found in 82% of extensive disease patients and in 50% of patients with local disease. NSE was raised in 72% with extensive disease versus 14% of patients with local disease. Calcitonin and ACTH were raised in 27% and 28%, respectively, in all patients without significant difference between extensive and local disease patients. Serotonin was generally overall elevated in 10% and GRP in 7% but elevations were seen only in patients with extensive disease. Out of the four most frequently elevated substances at least one marker was elevated in 80% of all the patients, including 91% in extensive stage patients and 71% in limited stage patients. Frequent initial monitoring of the substances showed an increase in the concentrations of pretherapeutic elevated CK-BB and NSE on day 1 or 2 followed by a sharp decrease within 1 week. These changes were correlated to objective clinical response determined within 4-8 weeks. The results indicate that serum CK-BB and NSE are potential markers for SCC at the time of diagnosis and that changes in the concentrations during the first course of cytostatic therapy are promising as biochemical tests for early detection of response to chemotherapy.
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PMID:Early detection of response in small cell bronchogenic carcinoma by changes in serum concentrations of creatine kinase, neuron specific enolase, calcitonin, ACTH, serotonin and gastrin releasing peptide. 284 59

The binding of 125I-Bolton Hunter-cholecystokinin octapeptide (125I-BH-CCK-8) to small cell lung cancer cell lines was investigated. 125I-BH-CCK-8 bound with high affinity (Kd = 2.4 nM) to an apparent single class of sites (1700/cell) using cell line NCI-H209. Binding was time dependent and the ratio of specific/nonspecific binding was 8/1. Pharmacology studies indicated that gastrin, caerulein, CCK-33 and nonsulfated CCK-8 were potent inhibitors of specific 125I-BH-CCK-8 binding whereas CCK-26-32-NH2 was not. Because CCK receptors are present on small cell lung cancer cells, CCK may function as a regulatory peptide in this disease.
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PMID:High affinity binding of cholecystokinin to small cell lung cancer cells. 303 16

Molecular and cell biologic studies of a large number of lung cancer cell lines of all histologic types have revealed several mechanisms active in the pathogenesis of these cells. Small cell lung cancer (also called "oat cell" lung cancer) has a deletion involving chromosome region 3p(14-23) that is confirmed by DNA restriction fragment length polymorphisms analysis (studies done in collaboration with Dr. Susan Naylor). Several lung cancers of both small cell and non-small cell type (including adeno- and squamous cell lung cancer) express the proto-oncogenes c-, N-, or L-myc, and in some cases more than one of these family members. N-myc appears restricted in its expression to the small cell lung cancer type while c-myc and L-myc can be expressed in both small cell and non-small cell lung cancers. Many lung cancers of all histologic types also express large amounts of p53, which are not correlated with the amount or type of myc gene product expressed. In small cell lung cancer, high levels of myc gene expression are usually associated with gene amplification, and not uncommonly there is rearrangement of some of the amplified copies. In non-small cell lung cancer, expression without amplification or rearrangement of myc genes is seen. In contrast, high level expression of p53 is not associated with gene amplification in any lung cancer type. In addition, to these proto-oncogenes acting at a presumed nuclear locus, there is increased expression of various ras family members and the c-raf-1 proto-oncogene (in collaboration with Dr. Ulf Rapp). Lung cancer cells in tissue culture can grow in medium without serum and few or no other growth factors added. Thus, it appears that lung cancer cells can produce their own growth factors which can act in an "autocrine" fashion. The best characterized example of this is gastrin releasing peptide (GRP, also called bombesin) produced by small cell lung cancer. In at least some small cell lung cancers, interference with GRP action by specific monoclonal antibodies results in inhibition of tumor cell growth in culture and in nude mouse xenografts. Thus, constitutively expressed GRP gene may function as a cellular oncogene under certain circumstances in small cell lung cancer. Based on these observations we are proposing to test monoclonal anti-GRP antibodies in patients.
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PMID:Chromosomal deletion, gene amplification, alternative processing, and autocrine growth factor production in the pathogenesis of human lung cancer. 333 4

The bombesin-like peptides can function as autocrine growth factors in lung cancer and candidate tumor suppressor genes on chromosomes 3 and 9 play important roles in lung cancer. Bombesin-like peptides can function as mitogens for normal bronchial epithelial cells and lung cancer cell lines. The monoclonal antibody directed against gastrin releasing peptide and bombesin, 2A11, can inhibit the growth of small cell lung cancer in vitro and in vivo and intravenous administration has induced a clinical remission in a patient with relapsed small cell lung cancer. The loss of a portion of one of the two short arms of chromosome 3 (3p) is identified in nearly 100% of tumor cell lines and tumors from patients with small cell lung cancer. Introduction of chromosome 3 into tumor cell lines suppresses their tumorigenicity in athymic nude mice, one of the characteristics of the cancer phenotype. Both copies of the candidate tumor suppressor gene on chromosome 9, CDKN2, are deleted in approximately one-fourth of lung cancer cell lines examined and the protein product of CDKN2, p16 is undetectable in one-third of the lung cancer cell lines studied. The CDKN2 gene is inactivated more commonly in non-small cell lung cancer than small cell lung cancer while the retinoblastoma gene is inactivated more commonly in small cell lung cancer than non-small cell lung cancer. It appears that a single defect in this cell cycle pathway is necessary for unregulated growth in lung cancer and current evidence suggests these defects differ between small cell and non-small cell lung cancer.
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PMID:Biology of small cell lung cancer. 755 56

The brain-gut hormones, gastrin and cholecystokinin, have a trophic effect on the gastrointestinal mucosa in vivo and promote the growth of several neoplastic cell lines. In this study, cholecystokinin-B/gastrin receptor has been demonstrated to provide a novel molecular marker for the diagnosis of small cell lung cancer by using biopsy specimens. Physiological expression of the receptor mRNA is detectable in particular areas of the human brain, stomach, and pancreas but not in the lung. The receptor mRNA was detected selectively in all small cell lung cancer (10 cases) with a RT-PCR assay. By contrast, it was detectable in only 1 of 13 squamous cell carcinomas or 21 adenocarcinomas of the lung. Thus, the cholecystokinin-B/gastrin receptor could be an attractive therapeutic target for small cell lung cancer.
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PMID:Cholecystokinin-B/gastrin receptor: a novel molecular probe for human small cell lung cancer. 781 57

The ability of reduced peptide bond analogues of gastrin releasing peptide (GRP) to antagonize small cell lung cancer (SCLC) GRP receptors was investigated. BW462U89, BW1023U90, BW2123U89 and BW2258U89 inhibited binding of (125I-Tyr4) BN to NCI-H345 cells with IC50 values of 5, 6, 140 and 10 nM respectively. The GRP analogues had no effect on basal cytosolic Ca2+ but inhibited the increase caused by 10 nM BN. BW462U89 reversibly blocked the increase in cytosolic Ca2+ caused by BN. The GRP analogues (1 microM) inhibited NCI-H345 colony formation in the absence or presence of 10 nM BN. Also, BW2258U89 (0.4 mg/kg, s.c. daily) inhibited xenograft growth in nude mice. These data indicate that BW2258U89 inhibits SCLC growth in vitro and in vivo.
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PMID:BW2258U89: a GRP receptor antagonist which inhibits small cell lung cancer growth. 786 32

Several native peptides can regulate tumour cell proliferation. After binding to specific membrane receptors they have the ability to stimulate or inhibit directly cell growth. Peptides can also control the regulation of endocrine or paracrine growth factor secretion. Agonist and antagonist molecules have been synthesized for therapeutic purposes. Hypothalamic neuropeptides are used in oncology. GnRH agonists lead to biochemical castration which is useful in treatment of hormone-dependent tumours (breast and prostate). Somatostatin analogues are beneficial in the treatment of gut neuroendocrine tumours and have demonstrated an antitumoural effect in experimental studies. Cytostatic agents, such as Gastrin Releasing Peptide antagonists, may be of interest as an adjuvant to chemotherapy or surgery in small cell lung cancer and other malignancies. The role of peptides in antigenic presentation, cell proliferation control and the metastatic process suggests a new therapeutic potential for these compounds. Progress in biotechnology could provide specific tools to screen new molecules and increase the understanding of mechanisms of action. Improvement in drug delivery techniques will allow for more convenient routes of administration.
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PMID:Therapeutic use and perspectives of synthetic peptides in oncology. 810 Jul 10

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