Biological activity of a bombesin-like peptide extracted from the intestine of the ratfish, Hydrolagus colliei.

1. Ratfish (Hydrolagus colliei) intestines were boiled in water to inactivate proteases and then treated with cold 4% trifluoroacetic acid to extract bombesin-like peptides. 2. The extract was fractionated in several steps using reverse-phase and ion exchange HPLC, and bombesin-like immunoreactive peptides were detected by radioimmunoassay using an antiserum specific for the bioactive C-terminal region of bombesin. 3. A highly purified bombesin-like peptide-containing fraction stimulated amylase release in a dose-responsive fashion from rat pancreatic acini; the dose-response curve was parallel to a bombesin standard, and the ratfish peptide stimulated the same maximal rate of amylase secretion as the bombesin standard. 4. A potent, highly selective bombesin receptor antagonist completely abolished the stimulation of amylase release caused by the ratfish peptide, demonstrating the specificity of the response. 5. Estimates of the bombesin-like peptide concentration of this fraction by radioimmunoassay and by bioassay were nearly identical, indicating that ratfish bombesin is very similar biologically and antigenically to frog skin bombesin.     

Neuronal location of the bombesin-like immunoreactivity in the central nervous system of the rat

The immunohistochemical distribution of bombesin-like immunoreactivity in the central nervous system of the rat was revealed using a rabbit antibody against [Glu⁷]bombesin(6–14). In radioimmunoassay, the antibody had minimal cross reactivity with substance P thereby enhancing the significance of histochemical controls proving that the immunoreactivity detected was related to bombesin but not to substance P. Bombesin-immunoreactive neurons were detected in several brain structures including the hypothalamus, interpeduncular nucleus, central grey, dorsolateral tegmental nucleus, dorsal parabrachial nucleus, nucleus of the solitary tract and trigeminal complex. In the spinal cord, intense immunoreactivity was found in the superficial layers of the posterior horn. Since in this area the reaction diminished after rhizotomy the location of the peptide in afferent neurons was considered. In the anterior horn the bombesin-like immunoreactivity located in nerve terminal-like structures was unchanged after rhizotomy suggesting that the cell bodies were located in CNS.     

High potency of bombesin for stimulation of human gastrin release and gastric acid secretion

Dose-response studies were performed in 6 human volunteer subjects to determine the threshold and optimal doses of intravenous bombesin for stimulation of gastric acid secretion and gastrin release. A significant stimulation of both acid and gastrin was obtained with a very low dose, 3 pmol · kg^?1 · h^?1. Peak stimulation of acid secretion (67% of pentagastrin PAO) was obtained at 12.5 pmol · kg^?1 · h^?1. Serum gastrin response to this dose of bombesinn was similar to that obtained after a high protein meal. Higher doses of bombesin caused further increases in serum gastrin but not in acid secretion. Since very low doses of bombesin, too small to produce detectable increases in immunoreactive serum bombesim, caused parallel increases in gastrin and acid secretion, it is possible that the bombesin-like peptides present in human gastrointestinal tissues contribute to regulation of human gastric secretion.     

Bombesin-like peptides in rat brain: Localization in synaptosomes and release from hypothalamic slices

The subcellular distribution of bombesin-like immunoreactivity in rat brain was investigated. The number of receptors was significantly greater in the synaptosomal than mitochondrial fraction and quantity of bombesin-like immunoreactivity was greatest in the synaptosomal fraction. Also, the release of bombesin-like peptides from rat hypothalamic slices was investigate K⁺ and veratridine stimulated release of immunoreactivity in a Ca⁺⁺-dependent manner.     

Bombesin-like peptides in small cell lung cancer: biochemical characterization and secretion from a cell line

High intracellular levels of BN-like peptides are present in tumors and cell lines of small cell carcinoma of the lung (SCCL) as well as the putative precursor cells of this tumor, the pulmonary endocrine cell. In cell line NCI-H209 the density of bombesin-like peptides was 8.9 +/- 1.1 pmol/mg total protein. Gel filtration chromatography of an extract of these cells revealed one major peak of immunoreactivity which coeluted with synthetic bombesin (1620 daltons). Also, high pressure liquid chromatography revealed one major peak of immunoreactivity was present which eluted before synthetic peptide. Therefore, SCCL bombesin-like peptides may be of similar size but are more hydrophilic than synthetic peptide. Cells maintained in culture continuously release bombesin-like peptides into the growth medium. Also, high concentrations of K+ stimulated the secretion of immunoreactive bombesin from cell lines in a Ca++-dependent manner. These SCCL bombesin-like peptides may function as important regulatory agents in the malignant lung.     

Bombesin-like peptides and receptors in human tumor cell lines

Human cancer cell lines were assayed for bombesin-like peptides and receptors. Acid extracts derived from small cell lung cancer, but not other types of cancer had high levels of immunoreactive bombesin. Regardless of patient treatment, site of tumor origin (bone marrow, lymph node, or pleural effusion) or culture conditions, small cell lung cancer cell lines had high levels of bombesin-like peptides. Thus, bombesin levels in small cell lung, but not other types of human cancer, are routinely elevated. Also, small cell lung cancer lines in contrast to other cell lines have a high density of binding sites for a radiolabeled bombesin analogue. The presence of high concentrations of bombesin-like peptides and receptors suggests that bombesin may function as an important regulatory agent in human small cell lung cancer.     

Drinking and feeding inhibition by ICV pulse injection or infusion of bombesin, ranatensin and litorin to rats

The effects on ingestive behavior of the naturally occurring bombesin-like peptides ranatensin and litorin were studied in comparison to those of bombesin by intracerebroventricular pulse injection or by continuous infusion in the rat. Ranatensin and litorin, like bombesin, proved to inhibit drinking and feeding behavior. Marked differences, however, were observed in their effects. In particular our results indicate that these peptides possess different selectivity of action on drinking elicited by different dipsogenic stimuli and different potency and effectiveness in inhibiting food intake induced by food deprivation. Moreover, the effects of the three peptides were markedly affected also by the modality of administration (pulse injection or continuous infusion). On the basis of these results it seems possible to hypothesize that the endogenous bombesin-like peptides may differently affect rat ingestive behavior according to their structure and to the rate and modality of their release in the brain.     

Bombesin acts in preoptic area to produce hypothermia in rats

To determine a neuroanatomic location where bombesin produces hypothermia, bombesin or an inactive bombesin analog, [D-Trp⁸]-bombesin, were microinjected in nanogram quantities into various regions of the brain of unanesthetized, unrestrained, cold-exposed rats. Bombesin, but not [D-Trp⁸]-bombesin, produced hypothermia when injected into or near the preoptic area, whereas injections into other forebrain and midbrain areas failed to lower body temperature. These results support a possible involvement of a bombesin-like peptide in thermoregulation.     

Stimulation of canine pancreatic polypeptide, gastrin, and gastric acid secretion by ranatensin, litorin, bombesin nonapeptide and substance P

Four dogs with chronic gastric fistulas were give intravenous bombesin nonapeptide (B9), ranatensin, and litorin by constant infusion for 90 min at 1.2 micrograms x kg-1 on separate days. A dose response study with substance P (1.5, 3.0, 60, 18 and 54 micrograms x kg-1 x h-1) was also carried out and all tests compared to a standard protein meal (10g x kg-1). Plasma gastrin and PP were measured by radioimmunoassay and gastric acid by autobiuret titration. Substance P failed to stimulate gastric acid secretion or release either pancreatic polypeptide (PP) or gastrin. Basal gastrin levels were 8 +/-2 fmol/ml. The peak increment of gastrin released by bombesin was 95 +/- 16, ranatensin 22 +/- 6, litorin 18 +/- 4, and meal 39 +/- 5 fmol/ml. Bombesin caused significantly greater release of gastrin than a meal, litorin or ranatensin (P less than 0.01). Basal gastric secretion was 23 +/- 4 microequiv./min. B9 produced a peak acid secretion of 356 +/- 124 muequiv./min. There was no significant difference between the bombesin-like peptides (P less than 0.01). Basal plasma PP was 38 +/- 12 fmol/ml. B9 produced a peak PP increment of 600 +/- 50, litorin 137 +/- 36, ranatensin 98 +/- 11, and a meal 305 +/- 58 fmol/ml. B9 released significantly more PP than either litorin of ranatensin (P less than 0.01). The different amino acid sequences of the peptides are probably responsible for their potency. The substitution of a penultimate phenylalanine residue in litorin and ranatensin for leucine in bombesin does not prevent PP or gastrin release by bombesin-like peptides. Since bombesin-like peptides are widely distributed in the gastrointestinal tract of man and stimulate both acid and gut hormone secretion, it is possible that they might play a physiological role in the modulation of gastrointestinal function.     

Localization of somatostatin-, bombesin-, and serotonin-like immunoreactivity in the lung of the fetal Rhesus monkey

Summary Immunoreactivity of regulatory peptides has been demonstrated in the fetal lung of Macaca mulatta by the peroxidase anti-peroxidase method. Serotonin-immunoreactive neuroepithelial bodies are distributed in the airways from the bronchi to the alveolar ducts. Many neuroepithelial bodies also show bombesin-like immunoreactivity; a very few are immunoreactive to somatostatin antiserum. Four populations of neuroepithelial bodies were identified which contain immunoreactivity for 1) serotonin alone, 2) serotonin and bombesin, 3) serotonin and somatostatin, and 4) serotonin, bombesin, and somatostatin. Since bombesin and somatostatin have been demonstrated to have opposite effects on the release of other peptide hormones, it seems likely that the presence of these same peptides in neuroepithelial bodies may have a similar regulatory role in the lung.     

CCK-antagonist L-364,718: influence on rat pancreatic growth induced by caerulein and bombesin-like peptides

The present study investigates the inhibitory effect of the novel potent benzodiazepine-related CCK-antagonist L-364,718 on pancreatic growth in the rat induced by chronic administration of caerulein and bombesin-like peptides. Caerulein, injected s.c. twice daily at a dose of 1 microgram/kg body weight, and bombesin (10 micrograms/kg) induced a similar increase (1.5-3-fold) in pancreatic wet weight, total protein, amylase, trypsin, putrescine and spermidine content after 14 days of treatment. Growth induced by caerulein showed a significant increase in total DNA content suggesting cellular hyperplasia, whereas bombesin-like peptides led to cellular hypertrophy. In comparison to bombesin the decapeptide neuromedin C (10 micrograms/kg) was found to be 30-50% less potent. In the same dose range, neuromedin B and the tachykinins neurokinin A and B, all structurally related to bombesin, had no significant trophic effect on the rat pancreas. Administration of the CCK-antagonist L-364,718 twice daily at a dose of 0.1 mg/kg or at 1.0 mg/kg, either s.c. or orally, led dose-dependently to a near-complete inhibition of the caerulein-induced trophic effect. In contrast, L-364,718 administered at identical dosages, did not affect pancreatic hypertrophy induced by bombesin and neuromedin C. It is concluded that both peptides mediate their effect on the rat pancreas directly and not via release of endogenous cholecystokinin. Tachykinins are not involved in the regulation of pancreatic growth. Caerulein- and bombesin-like peptides have comparable effects on the stimulation of protein and polyamine synthesis.     

Dual effect of bombesin and gastrin releasing peptide on gastric emptying in conscious cats

The effect of bombesin (BBS) and gastrin releasing peptide (GRP) on gastric emptying was studied in conscious cats. This effect was measured simultaneously with antral motility. Acid and pepsin secretions as well as blood hormonal peptide release were additionally measured. A dual effect was observed. First, BBS and GRP slowed gastric emptying of liquids, while antral motility was decreased, then after 60 minutes of continuous intravenous infusion, antral motility returned to basal values and gastric emptying effect reversed. The mechanism of this peculiar action is independent of gastrin, pancreatic polypeptide, somatostatin and motilin release and most probably connected with a cholinergic stimulation induced by the peptides, the late predominance of which counterbalances the inhibitory effect of bombesin-like peptides on antral motility.     

Bombesin-like immunoreactivity in the nervous system of hydra

Summary With immunocytochemical methods, nerve cells have been detected in Hydra attenuata containing bombesin-like immunoreactivity. These nerve cells are located in the ectoderm of all body regions of the animal and are especially abundant in basal disk and tentacles. Radioimmunoassay of extracts of hydra demonstrated at least 0.2 pmol/g wet weight of bombesinlike immunoreactivity. The immunoreactive material elutes from Sephadex G-50 in a similar position to synthetic bombesin. The data show that bombesin-like peptides are among the phylogenetically oldest neuropeptides found so far.     

Leu13-psi(CH2NH)Leu14]bombesin is a specific bombesin receptor antagonist in Swiss 3T3 cells

The pseudopeptide [Leu13-psi(CH2NH)Leu14]bombesin blocks bombesin-stimulated mitogenesis in Swiss 3T3 cells in a competitive and reversible manner, but not that of other mitogens. It inhibits the mobilization of intracellular Ca2+ and activation of protein kinase C by bombesin-like peptides. It acts at receptor level, as shown by inhibition of [125I]GRP binding and reduction in cross-linking of the Mr 75-85,000 receptor-associated protein. Thus [Leu13-psi(CH2NH)Leu14]bombesin is a specific bombesin receptor antagonist in Swiss 3T3 cells which blocks long-term growth promoting effects of bombesin-like peptides.     

cDNA cloning, characterization, and brain region-specific expression of a neuromedin-B-preferring bombesin receptor.

Recent binding studies in the central nervous system and other tissues provide evidence that the mammalian bombesin-like peptides, gastrin-releasing peptide (GRP) and neuromedin-B (NMB), exert their numerous physiological effects through at least two different receptors. We describe the structure and expression of a cloned NMB-preferring bombesin receptor (NMB-R) with properties distinct from a GRP-preferring bombesin receptor (GRP-R) reported previously. In particular, the NMB-R shows higher affinity binding to NMB than to GRP in BALB 3T3 fibroblasts expressing the cloned NMB-R. The distinct regional distribution of NMB-R and GRP-R mRNA in the brain suggests that both bombesin receptor subtypes play independent roles in mediating many of the dramatic effects of bombesin-like peptides in the central nervous system.     

Distribution of bombesin-like peptides in the alimentary canal of several vertebrate species

The objective of this study was to quantitate and characterize the variants of bombesin-like immunoreactivity in the alimentary canal of the rat, rabbit, hawk, owl, dog, monkey and human. Bombesin-like immunoreactivity was found throughout the entire gastrointestinal tract of all species studied. In the rat, the highest concentration of bombesin-like immunoreactivity was found in the colon. Gel chromatography showed that bombesin-like immunoreactivity corresponded to gastrin-releasing peptide (GRP-27) and GRP-10. In the dog, the greatest concentration of bombesin-like immunoreactivity was observed in the mucosal layer of the fundus, whereas the concentration of bombesin-like immunoreactivity in the muscle layer of the dog did not vary significantly from region to region. Gel chromatography showed that bombesin-like immunoreactivity in the dog corresponded to GRP-27, bombesin, GRP-10, and a smaller fragment. In the human, the concentration of bombesin-like immunoreactivity did not vary significantly from region to region in the mucosal and muscular layers. Gel chromatography of human fundal mucosa showed that bombesin-like immunoreactivity peaks occur in the regions of GRP-27, bombesin and GRP-10. These findings substantiate the observation that bombesin-like peptides play a variety of roles in the regulation of gut function.     

Effect of bombesin on feeding behavior

Peripherally-administered bombesin and gastrin-releasing peptide produce potent, dose-related, and specific reductions of food intake at test meals in rats. Similar effects on meal size are observed after intraperitoneal injections in mice and after intravenous infusions in baboons and humans. The mechanism for this effect is unknown, but the action of bombesin is not blocked by complete subdiaphragmatic vagotomy, by a variety of peripheral endocrine and neural ablations, or by lesions of the area postrema or hypothalamus. Hypothalamic injections of bombesin produce small but specific reductions of food intake; the relationship of this central effect to the peripheral effect of the peptide is unknown. Bombesin and bombesin-like peptides may play roles in the regulation of meal size.     

The antagonism of bombesin in the CNS by substance P analogues

The ability of substance P analogues to inhibit the action of bombesin in the CNS was investigated using receptor binding and biological assays. The putative substance P antagonists inhibited binding to central receptors for both substance P and bombesin-like peptides. Spantide, which was the most potent analogue tested, reversed the bombesin induced hypothermia and grooming. Therefore the putative substance P antagonists may also antagonize the actions of bombesin in the CNS     

Sensitization of pulmonary chemosensitive neurons by bombesin-like peptides in rats

Small cell lung cancer (SCLC) patients suffer from pulmonary stresses such as dyspnea and chest pain, and the pathogenic mechanisms are not known. SCLC cells secrete a variety of bioactive neuropeptides, including bombesin-like peptides. We hypothesize that these peptides may enhance the sensitivity of the pulmonary chemosensitive nerve endings, contributing to the development of these pulmonary stresses in SCLC patients. This study was therefore carried out to determine the effects of bombesin and gastrin-releasing peptide (GRP), a major bombesin-like peptide, on the sensitivities of pulmonary chemoreflex and isolated pulmonary vagal chemosensitive neurons. In anesthetized, spontaneously breathing rats, intravenous infusion of bombesin or GRP significantly amplified the pulmonary chemoreflex responses to chemical stimulants such as capsaicin and ATP. The enhanced responses were completely abolished by perineural capsaicin treatment of both cervical vagi, suggesting the involvement of pulmonary C-fiber afferents. In isolated pulmonary vagal chemosensitive neurons, pretreatment with bombesin or GRP potentiated the capsaicin-induced Ca(2+) transient. This sensitizing effect was further demonstrated in patch-clamp recording studies; the sensitivities of these neurons to both chemical (capsaicin and ATP) and electrical stimuli were significantly enhanced by the presence of either bombesin or GRP. In summary, our results have demonstrated that bombesin and GRP upregulate the pulmonary chemoreflex sensitivity in vivo and the excitability of isolated pulmonary chemosensitive neurons in vitro.     

Bombesin-like peptides elevate cytosolic calcium in small cell lung cancer cells

The ability of bombesin-like peptides to elevate intracellular Ca2+ levels in small cell lung cancer cells was investigated using the fluorescent Ca2+ indicator Fura 2. Nanomolar concentrations of bombesin elevated cytosolic Ca2+ levels in the absence or presence of extracellular Ca2+. Potent bombesin receptor agonists, such as gastrin releasing peptide (GRP) or (GRP)14-27 elevated cytosolic Ca2+ levels whereas inactive compounds such as (D-Trp8)bombesin or (GRP)1-16 did not. Furthermore, the bombesin receptor antagonist (D-Arg1, D-Pro2, D-Trp7,9, Leu11) substance P (30 microM) had no effect on the Ca2+ levels by itself but antagonized the increase in Ca2+ caused by 10 nM or 100 nM bombesin. These data suggest that bombesin receptors may regulate the release of Ca2+ from intracellular organelles in small cell lung cancer cells.