Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

1. Somatostatin (6.11 nmol kg(-1) i.p.) inhibited neurogenic plasma extravasation evoked by 1% mustard oil and non-neurogenic oedema induced by 5% dextran in the rat skin. 2. Cyclic synthetic octapeptide (TT-248 and TT-250) and heptapeptide (TT-232) somatostatin analogues proved to be more effective in reducing neurogenic and non-neurogenic inflammatory reactions but octreotide had no influence on either neurogenic or non-neurogenic inflammation. 3. TT-232 administered i.p. or i.v. (1.06 - 42.40 nmol kg(-1)) inhibited in a dose-dependent manner the plasma extravasation evoked by mustard oil in the rat's paw. Neither diclofenac (15.78 - 315.60 micromol kg(-1)) nor the selective COX-2 inhibitor meloxicam (2.95 - 569.38 micromol kg(-1)) attenuated the mustard oil-induced neurogenic plasma extravasation. 4. TT-232, diclofenac and meloxicam dose-dependently diminished non-neurogenic dextran-oedema of the paw the ED(35) values were 1.73 nmol kg(-1) for TT-232 and 34.37 micromol kg(-1) for diclofenac. 5. TT-232 inhibited in the dose range of 1.06 - 21.21 nmol kg(-1) the bradykinin-induced plasma extravasation in the skin of the chronically denervated paw. 6. Mustard oil-induced cutaneous plasma extravasation was dose-dependently diminished by s.c. TT-232 1, 2, 4, 6 or 16 h after the treatment. TT-232 (2 x 106, 2 x 212 and 2 x 530 nmol kg(-1) per day s.c. for 18 days) caused dose-dependent inhibition of chronic Freund adjuvant-induced arthritis during the experimental period. 7. TT-232 (200 and 500 nM) inhibited the release of SP, CGRP and somatostatin from the rat isolated trachea induced by electrical field stimulation (40 V, 0.1 ms, 10 Hz, 120 s) or by capsaicin (10(-7) M), but did not influence the basal, non-stimulated peptide release. 8. It is concluded that somatostatin analogues without endocrine functions as TT-232 are promising compounds with a novel site of action for inhibition of non-neurogenic and neurogenic inflammatory processes.
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PMID:Anti-inflammatory effect of synthetic somatostatin analogues in the rat. 1172 65

1. The ECL cells control gastric acid secretion by mobilizing histamine in response to circulating gastrin. In addition, the ECL cells are thought to operate under nervous control and to be influenced by local inflammatory processes. 2. The purpose of the present study was to monitor histamine mobilization from ECL cells in conscious rats in response to locally applied regulatory peptides, candidate neurotransmitters and inflammatory mediators. 3. Microdialysis probes were implanted in the submucosa of the acid-producing part of the rat stomach. Three days later, the agents to be tested were administered via the microdialysis probe and their effects on basal (48 h fast) and stimulated (intravenous infusion of gastrin-17, 3 nmol kg(-1) h(-1)) mobilization of ECL-cell histamine was monitored by continuous measurement of histamine in the perfusate (radioimmunoassay). 4. Locally administered gastrin-17 and sulfated cholecystokinin-8 mobilized histamine as did pituitary adenylate cyclase-activating peptide-27, vasoactive intestinal peptide, peptide YY, met-enkephalin, endothelin and noradrenaline, adrenaline and isoprenaline. 5. While gastrin, sulfated-cholecystokinin-8, met-enkephalin and isoprenaline induced a sustained elevation of the submucosal histamine concentration, endothelin, peptide YY, pituitary adenylate cyclase activating peptide, vasoactive intestinal peptide, noradrenaline and adrenaline induced a transient elevation. 6. Calcitonin gene-related peptide, galanin, somatostatin and the prostanoid misoprostol inhibited gastrin-stimulated histamine mobilization. 7. The gut hormones neurotensin and secretin and the neuropeptides gastrin-releasing peptide, neuropeptide Y and substance P failed to affect ECL-cell histamine mobilization, while motilin and neuromedin U-25 had weak stimulatory effects. Also acetylcholine, carbachol, serotonin and the amino acid neurotransmitters aspartate, gamma-aminobutyric acid, glutamate and glycine were inactive or weakly active as was bradykinin. 8. In summary, a range of circulating hormones, local hormones, catecholamines, neuropeptides and inflammatory mediators participate in controlling the activity of rat stomach ECL cells in situ.
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PMID:ECL-cell histamine mobilization in conscious rats: effects of locally applied regulatory peptides, candidate neurotransmitters and inflammatory mediators. 1173 54

The present article concentrates on mechanisms that lead to the excitation of nociceptors in soft tissues and nociceptive neurones in the spinal dorsal horn. These mechanisms may contribute to the so-called unspecific low back pain. Properties of nociceptors in soft tissues: A nociceptive ending in soft tissue contains a multitude of receptor molecules in its membrane. The molecular receptors include binding sites for algesic substances that are released during painful stimulation or pathologic alterations of the tissue: bradykinin (BK), serotonin (5-HT), prostaglandin E2 (PG E2), adenosine triphosphate (ATP) and protons (H(+)). The excitation and sensitisation of nociceptors by these substances can be explained by the binding of the substances to the receptor molecules in the membrane of the receptive ending and ensuing opening of ion channels or activation of metabolic cascades. Purinergic receptor molecules in the membrane of nociceptors are activated by ATP. These receptors may be of particular importance for deep somatic pain, because ATP is present in large amounts in muscle tissue and is released during muscle damage. ATP-sensitive nociceptors appear to be distinct from nociceptors that can be excited by protons. The conduction of nociceptive information from muscle to the spinal cord is partly carried by unmyelinated fibres that possess tetrodotoxin-resistant (TTX-r) Na(+)-channels. Therefore, a drug that specifically blocks TTX-r Na(+)-channels would be a new attractive tool in the treatment of patients with deep somatic pain. Chronic muscle lesions such as a myositis have been shown to be associated with a higher innervation density of the tissue with free nerve endings that contain the neuropeptide substance P (SP). Many of these endings are likely to be nociceptors. Since a painful stimulus that acts on a muscle with increased nociceptor density will excite more nociceptors and elicit more pain, the increase in nociceptor density constitutes a peripheral mechanism for hyperalgesia. In muscle free nerve endings - many of which are nociceptive - the neuropeptides SP, calcitonin gene-related peptide (CGRP) and somatostatin have been shown to be present. These substances are released from the receptive endings in muscle when they are stimulated. SP and CGRP have a strong effect on blood vessels and induce local vasodilatation and oedema. The local oedema in the vicinity of the nociceptor is associated with the release of BK from plasma proteins, which increases the excitability of the nerve ending (see below). Thus, a local vicious cycle forms that may contribute to the formation of trigger points. Sensitisation of nociceptors and peripheral hyperalgesia: Nociceptors are easily sensitised, i.e. following a conditioning stimulus they are more sensitive to the unconditioned stimulus. In animals and humans, the responses to injections of BK can be increased by 5-HT or PG E2. The responses of muscle nociceptors to mechanical stimuli are likewise enhanced after administration of BK. During overuse, ischemia or inflammation of soft tissues, the tissue concentrations of BK, PG E2, and 5-HT are elevated and sensitise muscle nociceptors. A sensitised nociceptor is excited and elicits pain when innocuous mechanical stimuli act on the muscle, e.g. during contractions or stretch. Therefore, in chronically altered soft tissues, weak everyday stimuli are likely to cause pain. Mechanisms at the spinal level: In experiments on rats in which a myositis of the gastrocnemius-soleus (GS) muscle was induced experimentally, the effects of a peripheral painful lesion on the discharge behaviour of sensory dorsal horn neurones were studied. One of the main effects of the myositis was an expansion of the input (target) region of the muscle nerve, i.e. the population of dorsal horn neurones responding to an electrical standard stimulus applied to the GS muscle nerve grew larger. One reason for the myositis-induced expansion of the input region is hyperexcitability of the neurones caused by the release of SP and glutamate from the spinal terminals of muscle afferents with ensuing activation of NMDA channels in dorsal horn neurones (central sensitisation). The central sensitisation is of clinical importance because it can explain the hyperalgesia and spread of pain in patients. In contrast to excitability, the resting activity of dorsal horn neurones - which is likely to induce spontaneous pain in patients - does not appear to depend on the release of SP and glutamate but on the concentration of nitric oxide (NO) in the spinal cord. A pharmacological block of the NO synthesis led to a significant increase in background activity without affecting the excitability of the dorsal horn neurones. Such an increase in background activity was observed exclusively in nociceptive neurones, i.e. a local lack of NO in the spinal cord induces spontaneous pain. According to data from animal experiments, a decrease in the spinal NO concentration occurs as a sequel of a chronic muscle lesion; therefore, a lack of NO is a probable factor for the induction of chronic spontaneous pain. Normally, lesion-induced pain subsides and does not develop into chronic pain. The mechanisms governing the return to normal neuronal behaviour after a peripheral lesion are not well studied. Probably, the activation of inhibitory mechanisms, e.g. increased spinal synthesis of GABA or elevated activity of the descending antinociceptive system contribute to the restoration of normal function. The final step in the transition from acute to chronic pain are structural changes that perpetuate the functional changes. In the rat myositis model, an increase in the number of synapses on the surface of NO-snythesizing cells was present 8 h following induction of the myositis. These data show that structural changes appear quite early in the development of a painful disorder. A novel hypothesis for the development of chronic pain states that a strong nociceptive input to the spinal cord leads to cell death predominantly in inhibitory interneurones. Most of these interneurones are assumed to be tonically active; when their number decreases, the nociceptive neurones are chronically disinhibited and elicit continuous pain also in the absence of a noxious stimulus.
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PMID:[Pathophysiology of low back pain and the transition to the chronic state - experimental data and new concepts]. 1179 44

Somatostatin, a hormone that signals via G(i)/G(o), usually inhibits increases in intracellular calcium concentration ([Ca(2+)](i)) and insulin release from beta-cells. We have found that in the presence of arginine vasopressin (AVP), which signals via G(q), somatostatin increased [Ca(2+)](i), leading to insulin release in HIT-T15 cells. The increase in [Ca(2+)](i) by somatostatin was observed even after 60 min of AVP treatment. Somatostatin alone failed to increase [Ca(2+)](i) and insulin release. Somatostatin induced changes in [Ca(2+)](i) in a biphasic pattern, characterized by a sharp and transient increase followed by a rapid decline to sub-basal levels. Pretreatment with pertussis toxin, which inactivates G(i)/G(o), abolished the effects of somatostatin. U-73122, an inhibitor of phospholipase C, antagonized the somatostatin-induced increase in [Ca(2+)](i). In Ca(2+)-free medium, somatostatin still increased [Ca(2+)](i). Depletion of intracellular Ca(2+) stores with thapsigargin, a microsomal Ca(2+)-ATPase inhibitor, abolished somatostatin's effect. In the presence of bradykinin, another G(q)-coupled receptor agonist, somatostatin also increased [Ca(2+)](i), but not in the presence of isoproterenol (a G(s)-coupled receptor agonist) or medetomidine (a G(i)/G(o)-coupled receptor agonist). Our findings suggest that somatostatin signals through G(i)/G(o), and involves phospholipase C and Ca(2+) release from the endoplasmic reticulum. The increase in [Ca(2+)](i) by somatostatin leads to insulin release. This cross-talk is specific to G(q) and G(i)/G(o), and is not limited to the AVP and somatostatin receptors.
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PMID:Somatostatin-induced paradoxical increase in intracellular Ca2+ concentration and insulin release in the presence of arginine vasopressin in clonal HIT-T15 beta-cells. 1198 73

The putative anti-inflammatory and anti-nociceptive activity of the heptapeptide somatostatin analogue TT-232 ( D-Phe-Cys-Tyr- D-Thr-Lys-Cys-Thr-NH(2)) was investigated in the rat and mouse, as well as its effect on neuropathic hyperalgesia, gastric ulceration and the release of sensory neuropeptides. In the rat, carrageenin-induced paw oedema was inhibited dose dependently by TT-232 (3x2.5-20 microg/kg i.v.). Evans blue accumulation induced by intraarticular bradykinin injection (0.5 nmol in 0.1 ml) was slightly, but significantly inhibited by a single TT-232 dose (5-20 microg/kg). Cutaneous neutrophil accumulation over a 3-h period after intradermal (i.d.) injection of carrageenin (1 mg/site) or interleukin 1beta (IL-1beta, 3 pmol/site) was inhibited significantly by TT-232 (3x80 microg/kg i.v.), while diclofenac (3x10 mg/kg i.v.) elicited significant inhibition only in the IL-1beta test. In the mouse, TT-232 potently decreased oedema formation induced by 2.5% capsaicin applied topically to the ear. Mechano-nociception in the rat hind-paw during neuropathic pain induced by partial sciatic nerve injury (model of Seltzer) was measured using the Randall-Selitto test. TT-232 (5-20 microg/kg i.p. on the 7th day after the operation) dose-dependently inhibited the mechano-nociceptive hyperalgesia. In vitro release of substance P (SP), calcitonin gene-related peptide (CGRP) and somatostatin from the isolated rat trachea in response to electrical field stimulation (40 V, 0.1 ms, 10 Hz, 120 s) of its nervous elements was inhibited significantly by 500 nM TT-232. The role of G protein-coupled receptors in the effect of TT-232 was indicated by the prevention of its inhibitory action on the release of sensory neuropeptides by incubation the tissue for 1 or 6 h with pertussis toxin (100 ng/ml). The release of sensory neuropeptides to in response to electrical nerve stimulation was not inhibited by a potent tyrosine kinase inhibitor, genistein (50 microM). TT-232 (up to 5 mg/kg i.p.) did not induce mucosal lesions in either the stomach or the duodenum. These data suggest that TT-232, a somatostatin analogue devoid of endocrine effects, is a promising lead molecule in the search for novel, broad-spectrum anti-inflammatory and analgesic agents.
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PMID:Pharmacological characterisation of the somatostatin analogue TT-232: effects on neurogenic and non-neurogenic inflammation and neuropathic hyperalgesia. 1212 1

Reptiles, including the Burmese python, Python molurus bivittatus, that feed at infrequent intervals show a prominent increase in gastrointestinal mass, metabolism and brush border transport rates after feeding. Current knowledge and theories around these phenomena, as well as studies on the innervation of the reptilian gut, are summarised in this review. Little is known about the putative changes in the nervous and humoral control systems of the gut, and it is not known whether feeding affects innervation and motility of the stomach and intestine. Using immunohistochemistry, we have investigated possible up/down regulation of several neurotransmitters in specimens that had been fasted for a minimum of 3 weeks and specimens that had ingested a large meal 2 days before the experiments were conducted. There were no major changes in the innervation by nerves containing calcitonin gene-related peptide (CGRP), galanin, nitric oxide synthase (NOS), pituitary adenylate cyclase-activating polypeptide (PACAP), somatostatin (SOM), substance P/neurokinin A (SP/NKA), or vasoactive intestinal polypeptide (VIP)-like immunoreactivity. Nor did we find any differences in the effect of substance P (stomach and intestine), galanin (intestine), or bradykinin (intestine) on motility in strip preparations from the gut wall. A significant increase in dry weight of the intestine was obtained 48 h after feeding. We conclude that although there are considerable changes in gut thickness and absorptive properties after feeding, the smooth muscle and its control appear little affected.
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PMID:Effects of digestive status on the reptilian gut. 1244 9

G-protein-coupled receptor 100 (GPR100) was discovered by searching the human genome database for novel G-protein-coupled peptide receptors. Full-length GPR100 was amplified from a cDNA library of the neuroendocrine cell line BON, which is derived from a human pancreas carcinoid. The open-reading frame, present on a single exon, coded for a protein of 374 amino acids with highest sequence identity (43%) to the human orphan somatostatin- and angiotensin-like peptide receptor. The analysis of chromosomal localisation mapped the GPR100 gene to chromosome 1q21.2-q21.3. The stable expression of GPR100 in Chinese hamster ovary cells together with aequorin as calcium sensor and the promiscuous G-protein subunit alpha16 as signal transducer revealed bradykinin and kallidin as effectors to elicit a calcium response. Dose-response curves yielded EC50 values for both ligands in the low nanomolar range, while the respective analogues without arginine at the carboxy-terminus were inactive. Calcium mobilisation was inhibited by the phospholipase C blocker U73122, but not by pertussis toxin, suggesting the involvement of the G-protein subunit alphaq and not alphai or alphao in signal transduction. In line with the main function of kinins as peripheral hormones, we found that GPR100 was expressed predominantly in tissues like pancreas, heart, skeletal muscle, salivary gland, bladder, kidney, liver, placenta, stomach, jejunum, thyroid gland, ovary, and bone marrow, but smaller amounts were also detected in the brain and in cell lines derived from tumours of various origins.
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PMID:Identification and characterisation of GPR100 as a novel human G-protein-coupled bradykinin receptor. 1453 Feb 18

The structure-based design of peptide drugs requires the knowledge of the bioactive conformation. Studies on this receptor-bound 3D structure require linear or cyclic analogues with strongly reduced flexibility, but high biological activity, since only analogues with retained potency have preserved the bioactive conformation. Constrained amino acids containing double bonds or bulky substituents at the N(alpha)-, C(alpha)- and C(beta)-atom as well as at the aromatic ring atom were successfully applied to obtain potent and stable analogues of bradykinin and somatostatin, which due to their restricted conformation were suitable objects for conformational studies. Besides the generation of constrained cyclic analogues with improved biological and pharmacological properties, cyclic peptides were used as convenient models for the study of turn formations. Cyclization of the linear peptide bradykinin was performed by linking the N-terminus and the C-terminus, and in both bradykinin and somatostatin by cyclization using the amino acid side chains and by backbone cyclization. The later requires the introduction of N(alpha)-functionalised amino acids for ring closure which can be performed either through incorporation of N(alpha)-functionalised amino acids or dipeptide building units. Conformational analysis of a cyclic bradykinin analogue by means of NMR-studies together with molecular dynamics simulation led to a quasicyclic 3D structure with two turns and together with other 3D structures provided a pharmacophore model of bradykinin antagonists.
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PMID:Development of conformationally restricted analogues of bradykinin and somatostatin using constrained amino acids and different types of cyclization. 1554 78

Tissue destruction is accompanied by an inflammatory reaction. The inflammatory reaction leads to activation of nociceptors and the sensation of pain. Several mediators are responsible for pain and hyperalgesia in inflammation including cytokines, chemokines, nerve growth factor as well as bradykinin, prostaglandins and ATP. Simulatenously however, analgesic mediators are secreted: opioid peptides, somatostatin, endocannabinoids and certain cytokines. Opioid peptides secreted from immune cells are so far the best studied peptides in peripheral inflammatory pain control. This system is hampered for example by anti-adhesion molecule treatment. Novel immunosuppressive drugs for treatment of autoimmune disease targetting cytokines, chemokines or adhesion molecules should therefore be evaluated for potential harmful effects on pain.
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PMID:Involvement of cytokines, chemokines and adhesion molecules in opioid analgesia. 1573 96

Several lines of evidence support an important role for somatostatin receptors (SSTRs) in pain modulation. The therapeutic use of established SSTR peptide agonists for this indication is limited by their broad range of effects, need for intrathecal delivery, and short half-life. Therefore, the goal of the present study was to investigate the analgesic effect of SCR007, a new, highly selective SSTR2 non-peptide agonist. Behavioral studies demonstrated that paw withdrawal latencies to heat were significantly increased following intraplantar SCR007. Furthermore, both intraperitoneal and intraplantar injection of SCR007 significantly reduced formalin- and capsaicin-induced flinching and lifting/licking nociceptive behaviors. Recordings from nociceptors using an in vitro glabrous skin-nerve preparation showed that SCR007 reduced heat responses in a dose-dependent fashion, bradykinin-induced excitation, heat sensitization and capsaicin-induced excitation. In both the behavioral and single fiber studies, the SCR007 effects were reversed by the SSTR antagonist cyclo-somatostatin, demonstrating receptor specificity. In the single fiber studies, the opioid antagonist naloxone did not reverse SCR007-induced anti-nociception suggesting that SCR007 did not exert its effects through activation of opioid receptors. Analysis of cAMP/protein kinase A (PKA) involvement demonstrated that SCR007 prevented forskolin- and Sp-8-Br-cAMPS (a PKA activator)-induced heat sensitization, supporting the hypothesis that SCR007-induced inhibition could involve a down-regulation of the cAMP/PKA pathway. These data provide several lines of evidence that the non-peptide imidazolidinedione SSTR2 agonist SCR007 is a promising anti-nociceptive and analgesic agent for the treatment of pain of peripheral and/or central origin.
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PMID:Analgesic activity of a non-peptide imidazolidinedione somatostatin agonist: in vitro and in vivo studies in rat. 1665 May 79


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