UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neurotensin and somatostatin have both been shown to inhibit gastric acid secretion, but no interaction between these peptides has been demonstrated. To determine whether somatostatin might be a mediator of neurotensin's effect on pentagastrin-stimulated gastric acid secretion, we performed the following three experiments. First, we collected 0.2-ml samples of portal venous blood as frequently as every 5 min, and we confirmed a significant release of somatostatin-like immunoreactivity into portal venous blood during neurotensin-induced inhibition of acid secretion. This release of somatostatin-like immunoreactivity and inhibition of acid secretion were only seen in pentobarbital-anesthetized rats, but no sustained release of somatostatin-like immunoreactivity or inhibition of acid secretion occurred in urethane-anesthetized animals. In the second experiment, we analyzed portal plasma by high pressure liquid chromatography, and found that portal somatostatin-like immunoreactivity in blood collected during neurotensin infusion was composed of a single peak corresponding to somatostatin-14. In the third experiment, we found that infusion of antibody to somatostatin prevented neurotensin from inhibiting pentagastrin-stimulated acid secretion. Taken together, these data show that somatostatin, possibly from the stomach itself, is a necessary mediator of neurotensin's inhibitory effect in pentobarbital-anesthetized rats.
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PMID:Somatostatin as a mediator of the effect of neurotensin on pentagastrin-stimulated acid secretion in rats. 136 80

Quantitative autoradiography analysis of neurotensin (NT) and somatostatin (SS) binding sites was performed on coronal sections of the medulla oblongata from 2 fetuses, 6 controls and 7 victims of Sudden Infant Death Syndrome (SIDS). Throughout the first postnatal year, mean SS binding site density was similar in controls and SIDS in all structures of the medulla oblongata. The density of neurotensin binding sites was significantly higher in the nucleus of tractus solitarius (NTS) of SIDS than in controls, but there was no significant differences in the other areas of the medulla oblongata. Our findings suggest an immature developmental pattern of increased NT binding sites the NTS of SIDS. This alteration may be related to an abnormal central cardiorespiratory and arousal control which is thought to be present in SIDS.
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PMID:Quantitative autoradiographic study of somatostatin and neurotensin binding sites in medulla oblongata of SIDS. 136 10

The central amygdaloid nucleus (ACe) is part of the amygdaloid complex that participates in adrenocorticotrophin secretion, stress-related reactions and behavioral functions. The ACe contains numerous glucocorticoid receptor (GR)-immunoreactive (IR) neurons, and in addition it has been shown to contain several neuropeptide-IR somata and nerve terminals. In order to study the relationship between the GR- and neuropeptide-IR structures we mapped the distribution of GR-like immunoreactivity (LI) in amygdaloid complex and colocalized the neuropeptide- and GR-LIs in the ACe. In the amygdaloid complex the central, medial and cortical nuclei contained a high number of GR-IR neurons, whereas a moderate number of GR-IR neurons were observed in the basolateral and basomedial nuclei. Only a few GR-IR neurons were seen in the lateral nucleus. In the ACe, the majority of corticotrophin-releasing factor (CRF)-, met-enkephalin (met-ENK)-, neurotensin (NT)- and somatostatin (SOM)-IR neurons contained also GR-IR. About half of the substance P (SP)-IR neurons were seen to contain GR-IR, whereas only some of the few vasoactive intestinal polypeptide and cholecystokinin-IR neurons showed GR-LI. Nerve terminals containing calcitonin gene-related peptide and the above mentioned peptides were seen in close contact with the GR-IR neurons. These results suggest that the glucocorticoids may modulate directly the neurotransmitter synthesis of the CRF-, met-ENK, NT-, SOM- and SP-IR cells in the ACe.
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PMID:Colocalization of peptide and glucocorticoid receptor immunoreactivities in rat central amygdaloid nucleus. 137 77

The central nucleus of the amygdala, bed nucleus of the stria terminalis, and central gray are important components of the neural circuitry responsible for autonomic and behavioral responses to threatening or stressful stimuli. Neurons of the amygdala and bed nucleus of the stria terminalis that project to the midbrain central gray were tested for the presence of peptide immunoreactivity. To accomplish this aim, a combined immunohistochemical and retrograde tracing technique was used. Maximal retrograde labeling was observed in the amygdala and bed nucleus of the stria terminalis after injections of retrograde tracer into the caudal ventrolateral midbrain central gray. The majority of the retrogradely labeled neurons in the amygdala were located in the medial central nucleus, although many neurons were also observed in the lateral subdivision of the central nucleus. Most of the retrogradely labeled neurons in the BST were located in the ventral and posterior lateral subdivisions, although cells were also observed in most other subdivisions. Retrogradely labeled neurotensin, corticotropin releasing factor (CRF), and somatostatin neurons were mainly observed in the lateral central nucleus and the dorsal lateral BST. Retrogradely labeled substance P-immunoreactive cells were found in the medial central nucleus and the posterior and ventral lateral BST. Enkephalin-immunoreactive retrogradely labeled cells were not observed in the amygdala or bed nucleus of the stria terminalis. A few cells in the hypothalamus (paraventricular and lateral hypothalamic nuclei) that project to the central gray also contained CRF and neurotensin immunoreactivity. The results suggest the amygdala and the bed nucleus of the stria terminalis are a major forebrain source of CRF, neurotensin, somatostatin, and substance P terminals in the midbrain central gray.
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PMID:Peptide immunoreactive neurons in the amygdala and the bed nucleus of the stria terminalis project to the midbrain central gray in the rat. 138 26

Neuropeptide Y (NPY) is a powerful appetite stimulant, and hypothalamic concentrations rise after food deprivation and in experimental diabetes. Serotonergic drugs such as dexfenfluramine are inhibitors of feeding. We measured hyothalamic NPY and NPY mRNA, along with galanin, neurotensin, and somatostatin in chow-fed rats and in rats with dietary obesity, and examined the effect of dexfenfluramine on these peptides in this model. Sixty-five rats were fed a palatable diet (condensed milk, sucrose and chow) for 6 weeks, which produced significant weight gain compared to twenty fed standard chow (145.1 +/- 2.3 g vs. 113.4 +/- 3.2 g, p less than 0.001). Groups of animals were treated for 7 days or 28 days with dexfenfluramine (1.8 mg/kg/day) or saline intraperitoneally via miniosmotic pumps. Hypothalami were dissected into medial and lateral blocks, and NPY, galanin, neurotensin, and somatostatin were measured by radioimmunoassay. Neuropeptide Y mRNA was measured by Northern blotting. Hypothalamic NPY was significantly higher in the palatable diet group compared to chow-fed controls (medial hypothalamus: 86.6 +/- 7.6 vs. 65.7 +/- 4.0 pmol/g tissue, p less than 0.02, lateral hypothalamus 71.2 +/- 6.6 vs. 53.1 +/- 3.6 pmol/g tissue, p less than 0.05), but NPY mRNA was unchanged. Although dexfenfluramine was effective at reducing weight gain in the animals fed the palatable diet, this did not result in any changes in the hypothalamic neuropeptides measured. Neuropeptide Y may be of importance in diet-induced obesity but the weight loss produced by dexfenfluramine in such animals is not mediated by changes in hypothalamic NPY.
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PMID:Dexfenfluramine treatment and hypothalamic neuropeptides in diet-induced obesity in rats. 138 31

We evaluated the effect of seven classes of neuropeptides [bradykinin, cholecystokinin 26-33 (CCK), neurotensin, arginine-8 vasopressin (AVP), tyr-4 bombesin (BN), somatostatin, and motilin] on 18 human lung cancer and four human breast cancer cell lines to determine the pattern of responses. Flow cytometric analysis of Indo-1 AM-loaded cells was used to quantitate the intracellular calcium response of individual cells produced by these peptides alone or in simultaneous or sequential combinations. All 18 lung cancer cell lines responded to one or more peptide classes with classic small cell lines displaying the greatest responsiveness, followed by variant small-cell lines and non-small-cell lung cancer cell lines. Breast cancer cell lines demonstrated little or no response to any peptide. There was great variability in the magnitude of response and pattern of response in individual cell lines and between cell lines. Bradykinin was the most potent peptide and produced responses in the largest number of lung cancer cell lines. Simultaneous administration of active peptides produced greater intracellular calcium release than single peptides, though in a less than additive manner. Response to each peptide was followed by a refractory period lasting several hours or more. The refractoriness was peptide-specific, implying that each peptide has a distinct pathway, at least at the receptor level. Bradykinin antagonists could abrogate the calcium response to bradykinin but not to other peptides. Similarly, specific peptide antagonists for CCK, BN, and AVP blocked the response for only their specific agonist.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of neuropeptides on human lung and breast cancer cells. 138 87

Little is known about peptide-storing endocrine cells in the gut of the Nile crocodile. As in the case of other reptiles, particularly the alligator, a limited range of peptide-storing cells was found in the gut of the crocodile. They were somatostatin, glucagon, gastrin, neurotensin and pancreatic polypeptide. The topographical distribution of cells immunoreactive to somatostatin and gastrin in the gut of the crocodile is comparable to the situation in the alligator. Glucagon and neurotensin immunoreactive cells have a much wider distribution in the gastro-intestinal tract of the crocodile compared to the alligator. Cholecystokinin and bombesin cells previously reported in the small intestine of the alligator were not detected in this study. This is the first report to demonstrate pancreatic polypeptide and serotonin immunoreactivity in the gut of a crocodilian specie.
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PMID:Bioactive peptides and serotonin in the gut endocrine cells of the crocodile, Crocodylus niloticus (Laurenti 1768): an immunocytochemical study. 151 92

Neurons expressing the m1, m2, and m4 muscarinic receptor genes in the adult rat striatum were identified and characterized by using several in situ hybridization and immunohistochemical procedures. Combined in situ hybridization for the simultaneous detection of two mRNAs in the same section or in adjacent sections as well as in situ hybridization and immunohistochemistry on adjacent sections permitted us to identify the neurons containing m1, m2, or m4 receptor mRNA. Our observations demonstrate that m1, m2, and m4 receptor genes are expressed in one or several phenotypically distinct neuronal populations. The m1 receptor gene was the most widely expressed (85% of the striatal neurons). Most cholinergic neurons (80% or more) contain m1, m2, and m4 receptor mRNAs. Almost all the substance P neurons contain m1 and m4 receptor mRNA. All enkephalinergic neurons contained m1 receptor mRNA, but only 39% contained m4 receptor mRNA. Most somatostatin and neurotensin neurons expressed the m1 receptor gene, but only a few (15% and 9%, respectively) contained m4 receptor mRNA. The present study offers anatomical evidence that ACh may act directly in complex ways on the main neuronal populations of the striatum through muscarinic receptors. The m1, m2, and m4 receptors may act as autoreceptors to control ACh release and possibly other parameters of ACh neurons. On the other hand, the m1 and m4 receptors may act as heteroreceptors in cholinoceptive efferent neurons (enkephalin and substance P neurons) and other neurons (somatostatin/neuropeptide Y and neurotensin neurons). The presence of m4 receptor mRNA in only parts of the enkephalin, somatostatin, and neurotensin neuronal populations indicates that muscarinic receptor gene expression contributes to the functional and anatomical heterogeneity of the striatum that may relate to higher order of organization, including patch-matrix compartmentalization. The wide expression of m1 and m4 receptor genes in the striatum suggests that ACh may directly influence neurotransmitter release and synthesis in striatal efferent and intrinsic neurons. Our results imply that the specific pattern of expression of the muscarinic receptor genes mediates direct effects of ACh on activities and functions of chemically and topologically defined striatal neuronal populations. Since the expression of muscarinic receptors occurred in the three main neuronal populations of the striatum, namely ACh, enkephalins, and substance P neurons that also express dopamine receptors, it is highly probable that ACh and dopamine may act together at the single-cell level to influence striatal functions.
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PMID:Phenotypical characterization of the rat striatal neurons expressing muscarinic receptor genes. 152 98

The presence of immunoreactivity to the neuronal phosphoprotein B-50 and the peptides bombesin, calcitonin gene-related peptide, galanin, neurotensin, neuropeptide Y, somatostatin, substance P, and vasoactive intestinal polypeptide was examined in biopsy specimens from the duodenum and rectum of human immunodeficiency virus (HIV)-seropositive and HIV-seronegative male homosexual patients. The distribution of B-50 and the peptides was correlated with HIV serology, number of CD4+ lymphocytes, and the presence of HIV in biopsy culture. There was a very low incidence of enteric pathogens in both groups of patients. It was found that HIV-seropositive patients had a greater incidence of abnormal patterns of immunoreactivity (reduced intensity and/or density of innervation) in enteric nerves and enteroendocrine cells than HIV-seronegative patients. A reduction of substance P immunoreactivity was significantly correlated with reduced CD4+ lymphocyte count and HIV status; a similar trend was also seen for somatostatin and vasoactive intestinal polypeptide. Using B-50 as a marker, it was found that both groups of patients had altered patterns of immunoreactivity in rectal nerves. The findings of this study suggest that some of the clinical symptoms associated with HIV infection may be caused by a specific HIV enteropathy that influences enteric nerve and/or enteroendocrine cell function by altering the density of peptide immunoreactivity.
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PMID:Peptides in the gastrointestinal tract in human immunodeficiency virus infection. The GI/HIV Study Group of the University of Calgary. 153 25

Chromaffin granules, the secretory organelles of the neuron-like adrenal medullary chromaffin cells, have previously been shown to store and liberate neurotrophic activities that support in vitro survival of several neuron populations including those innervating the adrenal medulla. Molecules resembling fibroblast growth factor and ciliary neurotrophic factor have been identified among these activities. Since chromaffin granules store a variety of neuropeptides and many neuropeptides can have pleiotropic effects on neuronal growth and maintenance we have tested 24 different neuropeptides for their capacities to promote survival of embryonic chick ciliary, dorsal root and sympathetic ganglionic neurons. Peptides tested included several derivatives of proenkephalin (Leu- and met-enkephalin, fragments BAM 22, B, F and E), somatostatin, substance P, neuropeptide Y, neurotensin, VIP, bombesin, secretin, pancreastatin, dynorphin B, dynorphin 1-13, beta-endorphin, alpha-, beta-, and gamma-MSH. Control cultures received saturating concentrations of ciliary neurotrophic or nerve growth factor (CNTF; NGF), or no trophic supplements. At 1 x 10(-5) M leu- and met-enkephalin as well as somatostatin supported sympathetic neurons to the same extent as NGF. At the same concentrations, leu-enkephalin, the proenkephalin fragments BAM 22 and E, and somatostatin maintained about half of the dorsal root ganglionic neurons supported by NGF, but were not effective on ciliary neurons. VIP promoted the survival of approximately 50% of the ciliary and embryonic day 10 dorsal root ganglionic neurons as compared to saturating amounts of CNTF, but required the presence of non-neuronal cells in the cultures to be effective. Neurotensin (1 x 10(-5) M had a small effect on ciliary neurons.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Screening of adrenal medullary neuropeptides for putative neurotrophic effects. 163 76

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