Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The manipulation of the inflammatory and hormonal responses may produce, on one hand, positive effects, and, on the other hand, potentially negative effects. The modification of the neuro-endocrine-humoral pattern may become more important and effective than the supply of nutrients. In this article we bring an up date of the role of insulin, anabolic steroids, blocking the catabolic hormones, phenobarbital, somatostatin, clenbuterol and metaprorenol, growth factors: GH and IGF-1, cytokines, and anti-cytokines sera. The use of GH, IGF-1, and of the epidermal and or colonic growth factors, along with a blocking of the cytokines, the manipulation of the lipidic mediators, and the supply of classical nutrients, specific to the aggression situation, may improve the protein synthesis and tissue repair. It may at the same time both decrease the loss of body proteins as well as promoting and acceleration of the recovery, shortening the hospital stay and reducing the convalescence time. The future seems to point towards molecular and cellular biotechnology and towards "nutritional" pharmacology, which contemplates the effects of growth factors, the recent advances in the field of cytokine modulation, and the manipulation of the binomer nutrient-medication.
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PMID:[Hormones, growth factors, and drugs in metabolism and nutrition]. 851 56

Somatostatin and octreotide inhibit basal and stimulated pancreatic secretion, stimulate reticuloendothelial system activity, modulate the cytokine cascade and are cytoprotective with respect to the pancreas. These effects of somatostatin and octreotide suggest that both drugs may be useful either in the treatment of pancreatic disorders, or in preventing acute pancreatitis following procedures on the pancreas. In recent years it has become clear that somatostatin is a useful and effective therapy for severe acute pancreatitis and in preventing complications following endoscopic retrograde cholangiopancreatography (ERCP), whereas octreotide has no beneficial effect and may be deleterious in both these indications. The differences in the therapeutic efficacy of somatostatin and octreotide in acute pancreatitis and ERCP appears to be related to their differential effects on sphincter of Oddi motility--the native hormone relaxing, and the analogue increasing, its contractility. Consequently, any beneficial effects of octreotide in both acute pancreatitis and ERCP are offset by the increased contractility of the sphincter of Oddi, which results in retention of activated enzymes within the pancreas and further autodigestion of the gland. Somatostatin and octreotide are equally effective in promoting the closure of pancreatic fistulae. However, the time to closure after commencement of therapy is much more variable and longer in patients treated with subcutaneous octreotide than those receiving intravenous somatostatin, possibly as a result of fluctuations in pancreatic enzyme secretion between consecutive administrations of the hormone. Furthermore, the initial potent inhibitory effect of octreotide on pancreatic secretion is lost after 7 days of continuous subcutaneous administration. Therefore, in terms of cost-effectiveness, somatostatin would appear to be the treatment of choice for pancreatic fistulae. Octreotide markedly reduces the complication rates after elective pancreatic surgery. It remains to be established whether somatostatin is as effective as octreotide in this indication.
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PMID:Review article: the relative effectiveness of somatostatin and octreotide therapy in pancreatic disease. 858 Feb 82

The role of somatostatin (SRIF) in controlling the granulomatous inflammatory response to infection with the parasite Schistosoma mansoni was explored in mice. The murine granulomas contain SRIF-14. Immunoreactive SRIF and prepro SRIF localize in the cytoplasmic granules of macrophages within the granulomas. The granulomas contain mRNA for prepro SRIF and are not innervated. The production of SRIF by the inflammatory cells appears to be inducible. The granulomas contain mRNA for the SRIF receptors sst2A and sst2B, which are expressed mainly on CD4- T lymphocytes and bind SRIF-14 with high affinity. Antigens from the schistosome eggs stimulate granuloma T lymphocytes to produce cytokines. Interferon-gamma (IFN-gamma) is one such cytokine made by CD4+ T lymphocytes. SRIF-14 suppresses antigen-induced IFN-gamma production from granuloma cells, and this effect is blocked by anti-sst2 antibody. SRIF was shown to inhibit IFN-gamma-induced immunoglobulin G2a (lgG2a) synthesis in murine schistosomiasis. SRIF also blocks substance P (SP)-stimulated IFN-gamma and lgG2a secretion. Schistosome-infected animals treated with the SRIF analog octreotide form smaller granulomas that secrete substantially less IFN-gamma and lgG2a. Unpublished observations suggest that SRIF does not modulate schistosome egg antigen- or concanavalin A-stimulated granuloma lymphocyte proliferation in murine schistosomiasis. In conclusion, SRIF may be an important factor in the control of the granulomatous inflammatory response in murine schistosomiasis.
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PMID:Granulomas in murine schistosomiasis mansoni have a somatostatin immunoregulatory circuit. 876 93

Tumor necrosis factor (TNF alpha) has been shown to inhibit insulin release and it has been postulated to-be an important effector in islet rejection. We studied the effect of cryopreservation on glucose oxidation rate (GOR), lipid synthesis, hormone secretion (insulin, glucagon, somatostatin, thyrotropin-releasing hormone), and cyclic guanosine 3',5'-monophosphate (cGMP) content of human islets, in the presence or absence of TNF alpha, looking for changes that could explain a different susceptibility to rejection for cryopreserved islets. Islets were isolated from multiple organ donor pancreata by collagenase digestion. The islets were then cultured for 7 days, cryopreserved (-0.25 degrees C/min), and stored in liquid N2. After 24 h of culture, thawed islets were cultured for an other 24 h in the presence or absence of TNF alpha. Islets were then washed to remove the cytokine and incubated in Krebs-Ringer bicarbonate (5 or 20 mM glucose), and both the cGMP content of the islets and the hormone concentration in the medium were determined by radio-immunoassay. GOR was measured as the production of 14CO2 from 5 or 20 mM D-[U-14C]glucose, and de novo lipid synthesis was determined as D-[U-14C]glucose incorporation into different lipidic fractions. Cryopreservation did not significantly modify the hormone response to glucose but it partially reversed the TNF alpha-induced inhibitory effect on insulin release in the presence of 20 mM glucose. In addition, the inhibitory effect of TNF alpha on phosphatidylcholine labeling was attenuated in cryopreserved islets compared with noncryopreserved islets. TNF alpha significantly stimulated islet nitrite production and cGMP accumulation, both effects being of a similar magnitude in cryopreserved and noncryopreserved islets. Our results suggest that cryopreservation can modify the metabolic and hormone response of human islets to TNF alpha. This effect is not mediated by changes in the TNF alpha-induced islet nitric oxide production or cGMP accumulation.
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PMID:Influence of cryopreservation on the sensitivity of human islets to tumor necrosis factor. 878 31

The regulation of clonal rat insulinoma (RINm5F) cell proliferation and hormone accumulation was investigated with the aim of identifying putative compounds capable of inducing differentiation, i.e. decreased growth and increased insulin accumulation, by the tumor cells. In particular, interest was focused on the role of a number of peptides as well as pharmacological probes modulating various signal transduction systems and which have been shown to regulate normal beta-cell proliferation and insulin accumulation. Growth hormone stimulated insulin accumulation and inhibited DNA synthesis, whereas galanin and insulin-like growth factor I caused a moderate suppression of insulin accumulation but did not affect proliferation, while epidermal growth factor, transforming growth factor beta, platelet-derived growth factor, acidic and basic fibroblast growth factor, bradykinin and somatostatin were virtually inactive on all parameters tested. Exogenous prostaglandins E2 and F1 alpha were inactive, while the cycloxygenase inhibitor indomethacin slightly suppressed insulin accumulation. The cytokine IL-1 beta caused a significant decrease in both beta-cell mitogenesis and insulin accumulation, effects that were mediated through nitric oxide generation. The vitamin A derivative retinyl acetate slightly inhibited serum-stimulated DNA synthesis, but did not affect insulin accumulation. The vitamin E alpha-tocopherol significantly enhanced insulin release but did not affect mitogenesis. By contrast, gamma-tocopherol was inactive on both these parameters. The alpha-adrenergic agonist clonidine evoked a slight inhibition of serum-stimulated DNA synthesis, without influencing insulin accumulation, whereas phenylephrine did not affect any of these parameters. Carbamylcholine increased insulin accumulation, but not cell proliferation, whereas the adenylyl cyclase activator forskolin suppressed mitogenesis but did not affect insulin accumulation. Inhibition of protein kinase C with staurosporine or prolonged treatment with phorbol ester suppressed DNA synthesis, as did the tyrosine kinase inhibitor genistein. Stimulating Ca2+ influx by closing ATP-dependent K+ channels with glibenclamide enhanced DNA synthesis, while opening of these channels with diazoxide suppressed cell growth. Conversely, preventing Ca2+ influx by the Ca2+ channel antagonist D-600, chelating intracellular Ca2+ by fura-2 AM or inhibiting the Ca2+/calmodulin-dependent protein kinase by calmidazol resulted in a decreased DNA synthesis. On the other hand, uncontrolled influx or mobilization of Ca2+ by ionomycin or thapsigargin resulted in an arrested DNA synthesis. The present paper shows that RINm5F insulinoma cell proliferation and insulin accumulation can be modulated by various peptidergic and pharmacological agents regulating certain signal transduction pathways. However, mitogenesis in the insulinoma cells seemingly is controlled in a vastly different manner in comparison to that in normal beta-cells. The most spectacular finding in this screening study, i.e. that growth hormone, contrarily to its effect on normal beta-cells, suppresses insulinoma cell growth, merits further elucidation of the underlying mechanisms. Possibly the hormone might become of utility in a clinical setting in the treatment of patients with insulin-producing tumors.
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PMID:Regulation of insulinoma cell proliferation and insulin accumulation by peptides and second messengers. 880 83

The epithelium of the gastrointestinal tract is continuously exposed to the external environment containing food antigens, microbes and other pathogens. Immunologic and nonimmunologic mechanisms contribute to the neutralization and elimination of these foreign antigens. The immune system of the intestine is the most extensive in the organism and involves diffuse populations of immune cells, lymphoid aggregates and intraepithelial lymphocytes. On the other hand, the functions of the digestive tract contribute to the overall host defense (mucus secretion, gastric acid secretion, water and electrolyte secretion and peristaltism). These functions are regulated by intrinsic and extrinsic nervous systems. It is currently recognized that the physiological and pathological responses of the intestine require an integrate neuroimmune network. Such neuroimmune regulation is based on anatomical and biochemical supports. Indeed, there are membrane-to-membrane contacts between axonal varicosities and the immune cells. Specific receptors for neurotransmitters such as substance P, vasoactive intestinal polypeptide and somatostatin have been identified in many immune cells. Nerve profile change has been described under pathological conditions such as parasitic infections and acute phase of inflammation. In addition to supporting the growth and survival of several populations of nerves the classical nerve growth factor (NGF) has been shown to affect an immune cell population by inducing mast cell hyperplasia. Furthermore the NGF can induce mast cell degranulation, acting directly on mast cell membrane NGF receptors or indirectly by NGF-mediated release of substance P by peripheral extrinsic or intrinsic nerves. Moreover, non-immune cells such as epithelial and smooth muscle cells can produce immunologic messengers under pathological conditions such as infectious diseases or inflammation. Besides the local regulation of gut functions, neuroimmune control can be exerted at extra-intestinal sites. During physiological and pathological conditions, gastrointestinal secretions and motor events are strongly regulated by the central nervous system. Moreover, infectious agents can induce cytokine and particularly interleukin-1 release by the brain astrocytes and microglial cells which have been shown to play a pivotal role in fever induction and modifications of the gastrointestinal functions. Visceral afferent fibers play a pivotal role in 'cross-communication' between central sites and immune response. Recent studies evoke, more specifically, the role of vagus as a key modulatory participant in the close relationship between the extraintestinal nerves and the immune system. Future work in this field will clarify the role of the different participants in the intimate communication between the gastrointestinal tract, immune system and central nervous system.
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PMID:Integrative neuroimmunology of the digestive tract. 882 13

Current evidence indicates that the neuroendocrine system is the highest regulator of immune/inflammatory reactions. Prolactin and growth hormone stimulate the production of leukocytes, including lymphocytes, and maintain immunocompetence. The hypothalamus-pituitary-adrenal axis constitutes the most powerful circuit regulating the immune system. The neuropeptides constituting this axis, namely corticotrophin releasing factor, adrenocorticotrophic hormone, alpha-melanocyte stimulating hormone, and beta-endorphin are powerful immunoregulators, which have a direct regulatory effect on lymphoid cells, regulating immune reactions by the stimulation of immunoregulatory hormones (glucocorticoids) and also by acting on the central nervous system which in turn generates immunoregulatory nerve impulses. Peptidergic nerves are major regulators of the inflammatory response. Substance P and calcitonin gene-related peptide are pro-inflammatory mediators and somatostatin is anti-inflammatory. The neuroendocrine regulation of the inflammatory response is of major significance from the point of view of immune homeostasis. Malfunction of this circuit leads to disease and often is life-threatening. The immune system emits signals towards the neuroendocrine system by cytokine mediators which reach significant blood levels (cytokine-hormones) during systemic immune/inflammatory reactions. Interleukin-1, -6, and TNF-alpha are the major cytokine hormones mediating the acute phase response. These cytokines induce profound neuroendocrine and metabolic changes by interacting with the central nervous system and with many other organs and tissues in the body. Corticotrophin releasing factor functions under these conditions as a major co-ordinator of the response and is responsible for activating the ACTH-adrenal axis for regulating fever and for other CNS effects leading to a sympathetic outflow. Increased ACTH secretion leads to glucocorticoid production. alpha-melanocyte stimulating hormone functions under these conditions as a cytokine antagonist and an anti-pyretic hormone. The sympathetic outflow, in conjunction with increased adrenal activity. leads to the elevation of catecholamines in the bloodstream and in tissues. Current evidence suggests that neuroimmune mechanisms are essential in normal physiology, such as tissue turnover, involution, atrophy, intestinal function, and reproduction. Host defence against infection, trauma and shock relies heavily on the neuroimmunoregulatory network. Moreover, abnormalities of neuroimmunoregulation contribute to the aetiology of autoimmune disease, chronic inflammatory disease, immunodeficiency, allergy, and asthma. Finally, neuroimmune mechanisms play an important role in regeneration and healing.
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PMID:The immune effects of neuropeptides. 891 48

The immunosuppressor effects of the widely distributed neuropeptide somatostatin were examined on purified peripheral blood human monocytes. Somatostatin, at concentrations thought to be physiologic (10(-10)-10(-7) M), regulated monocyte/macrophage responses to (LPS) stimulation, as reflected by interleukin production. In particular, somatostatin had direct inhibitory effects on TNF-alpha, IL-1 beta, and IL-6 secretion by LPS-activated monocytes, while the decrease on IL-8 synthesis was modulated mainly by the action of somatostatin on TNF-alpha and IL-1 beta. In fact, the addition of these two inflammatory cytokines to the monocyte culture medium was able to induce IL-8 expression, as demonstrated by mRNA analysis, also in presence of the neuropeptide. Although somatostatin affected IL-8 production in an indirect way, it suppressed directly the chemotactic response of neutrophils to IL-8. Finally, somatostatin downregulation of monocyte activation was confirmed by the decrease of HLA-DR expression on cell plasma membranes (52% versus 33%). Our results confirm that somatostatin exerts preferential effects on the suppression of immunoreactions by modulating cytokine production and activity.
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PMID:Modulation of cytokine production in activated human monocytes by somatostatin. 892 6

We have recently shown that substance P (SP) participates in the stress-induced modulation of elicited, peritoneal macrophage function. This study reports the in vitro effects of SP on macrophage activity. We show by an MTT bioassay that SP significantly increases cellular metabolic activity. We show by ELISA that preincubating (priming) the macrophages with SP, prior to the incubation with lipopolysaccharide (LPS), results in a significant enhancement of proinflammatory cytokine secretion, relative to LPS alone. Finally, we show that somatostatin can antagonize the SP-induced enhancement of cytokine secretion. The above results demonstrate the importance of the temporal sequence in which stimuli are administered, in vitro, and indicate that SP can act as first signal in the cascade of macrophage activation. We postulate that stress, via the secretion of SP and other sensory neuropeptides, may play a role in the pathogenesis of certain inflammatory diseases of unknown etiology.
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PMID:Substance P primes murine peritoneal macrophages for an augmented proinflammatory cytokine response to lipopolysaccharide. 894 30

Somatostatin (somatotropin release-inhibiting hormone; SRIH) has been demonstrated in neurons of the central nervous system (CNS) as well as in endocrine cells of the pancreas and gastrointestinal tract and can suppress various immune functions including lymphocyte proliferation, immunoglobulin synthesis, and cytokine production. Since astrocytes possess antigen-presenting activity and can secrete a wide array of immunoregulatory and inflammatory cytokines, we studied SRIH gene expression in both astrocyte cell lines and mitogen-stimulated peripheral blood mononuclear leukocytes from healthy donors. We now report by means of a complementary DNA-based reverse transcription PCR that differential levels of SRIH mRNA were expressed in 9 of 11 human astrocytoma cell lines tested but were undetectable in activated peripheral blood mononuclear leukocytes as well as in a variety of human lymphocyte and monocyte cell lines. The synthesis and secretion of SRIH protein by astrocytoma cells that expressed SRIH transcripts were confirmed by specific radioimmunoassay of cell culture fluids. These findings support the notion that SRIH gene expression occurs in human astrocytoma cells but not in mature lymphoid cells of the immune system.
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PMID:Expression of the somatostatin gene in human astrocytoma cell lines. 899 28


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