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)

Human blood polymorphonuclear neutrophils (PMN) are thought to be involved in the pathogenesis of asthma through their recruitment into the bronchoalveolar lumen and the lung by local release of chemotactic factors. Therefore chemotactic activities of several mediators (PAF, histamine and three neuropeptides substance P, VIP and a somatostatin analog) were compared on blood PMN from both healthy subjects (HS) and asthmatic patients (AP). The maximal response to PAF was significantly different (P less than 0.05) with cells from both groups. Moreover activity for the HS peaked at 10(-6) M, whereas the AP showed peak chemotactic activity at 10(-8) M. Histamine had no chemoattractant effect on PMN. Substance P did not induce PMN locomotion, whereas VIP induced a chemotactic response in a dose-dependent manner, particularly with cells from HS as compared to those from AP. BIM 23014 (a somatostatin analog) exhibited chemotactic activity which was also more pronounced with PMN from HS as compared to those from AP. Our findings showed that blood PMN could be involved in asthma through their heightened locomotor reactions to mediators which are known to be released locally by activated cells in bronchoalveolar lumen.
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PMID:Neutrophil chemotactic activity of PAF, histamine and neuromediators in bronchial asthma. 172 27

To determine the role of gastrointestinal regulatory peptides in exercise-induced asthma (EIA), we studied plasma levels of various gastrointestinal regulatory peptides before and after a 6-min exercise test in seven subjects with EIA and five normal and three asthmatic subjects without EIA. In the EIA group, plasma vasoactive intestinal polypeptide (VIP) rose significantly 5 min and plasma cholecystokinin (CCK) 0 and 20 min after the test compared with the controls. The changes in plasma somatostatin, secretin, pancreatic polypeptide (PP), motilin and insulin showed no significant differences between the two groups. VIP may play an ameliorating role in bronchial asthma, but the relation of CCK to the lung is speculative and awaits further studies.
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PMID:Plasma gastrointestinal regulatory peptides in exercise-induced asthma. 287 49

The GI tract is one of nature's great pharmacies. Most, if not all, biologically active peptides can be found there, and it is quite likely that others remain to be discovered. Our ability to exploit this resource has expanded considerably over the past two decades. Advances in analytical techniques have allowed investigators to rapidly isolate and purify new compounds from tissue extracts. Sequencing and de novo synthesis of newly discovered peptides are now routine, and the structural modifications required to alter activity and tailor a compound to a particular use are easily made. A number of gastrointestinal peptides or their analogues for use in clinical studies are available from commercial sources (see Table 7). Somatostatin is the first gut peptide to successfully complete development and yield a pharmaceutical compound with a broad range of action. Several of the peptides discussed in this article have similar potential. TRH stands out as a candidate because of its effectiveness in the treatment of experimental spinal cord injury and a variety of shock states. Such a broad range of action in critical fields may justify the intensive development required to yield potent, long-acting, and highly specific analogues. Similarly, the antimetastatic and immunostimulant properties of the enkephalins offer promise for new therapies in the treatment of AIDS, ARC, and cancer. Studies with amylin may lead to new and more precise regimens of blood sugar control in insulin-dependent diabetics and could in turn, prevent some of the worst long-term effects of the disease. The development of effective intranasal forms of GHRH could spare children with GH-GHRH deficiency the distress of repeated injections and help to prevent excessive GH blood levels. Secretin, glucagon, or CGRP might be used one day in cardiovascular emergencies, and VIP or its analogues could prove effective in the treatment of asthma. Although preliminary results with many of these peptides are encouraging, further progress will require the development of standardized experimental models and a more rigorous approach to experimental design. Many of the studies reported here suffered from small patient numbers, a narrow or nonexistent range of doses, or the use of only one or two dosing regimens. Lack of objective criteria for determining the level of response, e.g., in studies of mental illness or degenerative diseases, and the ethical problems of withholding treatment from some patients to establish proper controls further hamper research in this area. If the questions of efficacy and safety are to be resolved, thorough, well-planned trials will be required.
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PMID:Therapeutic uses of gastrointestinal peptides. 812 75

In humans beta-adrenergic receptors mediate an inhibitory effect on somatotropic function, likely via stimulation of hypothalamic somatostatin release. Accordingly, salbutamol (SAL), a beta 2-agonist, given iv abolishes the GH response to GH-releasing hormone (GHRH) in adults. Taking into account that in bronchial asthma an alteration in the beta-adrenergic neural control of airways has been hypothesized, we aimed to verify whether, in asthmatic children, beta-adrenergic activation inhibits or not GH secretion. To this goal, we studied the effect of therapeutical doses of SAL on GH response to GHRH in 15 asthmatic children (12 M and 3 F, 5.9-11.1 yr, pubertal stage I-II). All children underwent a GHRH test (1 microgram/kg iv). Moreover, in 7 children (group A), SAL was administered orally (0.125 mg/kg) 1 h before GHRH, while in 8 (group B) by inhaled aerosol (2 mg) 30 min before GHRH. Oral SAL (group A) abolished the GHRH-induced GH rise (AUC, mean +/- SE 165.1 +/- 33.3 vs 959.9 +/- 158.1 micrograms/L/h; p < 0.03). In group B, the GH response to GHRH was only blunted by inhaled SAL (938.6 +/- 284.6 vs 1378.8 +/- 315.6 micrograms/L/h; p < 0.02). In conclusion, our data show that in asthmatic children, therapeutical doses of SAL exert a marked inhibitory effect on GH secretion. Further studies are needed to exclude detrimental effects of chronic treatment with beta 2-agonists on GH secretion and growth velocity in asthmatic children.
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PMID:Therapeutical doses of salbutamol inhibit the somatotropic responsiveness to growth hormone-releasing hormone in asthmatic children. 851 82

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

In unusual cases of flushing and anaphylaxis, and after the elimination of the more obvious causes of anaphylaxis or those that may be evaluated by readily available techniques, it is possible to confront a limited and difficult differential diagnosis, which includes idiopathic flushing, anaphylaxis, and neoplastic syndromes associated with mastocytosis and carcinoid tumor. Interestingly, there are rather few features that distinguish one of these possibilities from another. However, the presence of allergic signs and symptoms tend to favor the diagnosis of recurrent idiopathic anaphylaxis; and right-sided valvular heart disease, the presence of excessive 5-HIAA in the urine, and a response to somatostatin favor the diagnosis of carcinoid syndrome. The distinguishing features of mastocytosis include the presence of characteristic skin lesions and diagnostic histopathologic findings on bone marrow biopsy. Counts of absolute mast cell numbers in the skin are less helpful. Following such guidelines, it is often possible to focus on the most likely diagnosis, be it idiopathic anaphylaxis, benign cutaneous flushing, mastocytosis, or carcinoid tumor.
Allergy Asthma Proc
PMID:Differential diagnosis of the patient with unexplained flushing/anaphylaxis. 1074 48

The relationship between exposure to electromagnetic fields (EMFs) and human health is more and more in focus. This is mainly because of the rapid increasing use of such EMFs within our modern society. Exposure to EMFs has been linked to different cancer forms, e.g. leukemia, brain tumors, neurological diseases, such as Alzheimer's disease, asthma and allergy, and recently to the phenomena of 'electrosupersensitivity' and 'screen dermatitis'. There is an increasing number of reports about cutaneous problems as well as symptoms from internal organs, such as the heart, in people exposed to video display terminals (VDTs). These people suffer from subjective and objective skin and mucosa-related symptoms, such as itch, heat sensation, pain, erythema, papules and pustules. In severe cases, people can not, for instance, use VDTs or artificial light at all, or be close to mobile telephones. Mast cells (MCs), when activated, release a spectrum of mediators, among them histamine, which is involved in a variety of biological effects with clinical relevance, e.g. allergic hypersensitivity, itch, edema, local erythema and many types of dermatoses. From the results of recent studies, it is clear that EMFs affect the MC, and also the dendritic cell, population and may degranulate these cells. The release of inflammatory substances, such as histamine, from MCs in the skin results in a local erythema, edema and sensation of itch and pain, and the release of somatostatin from the dendritic cells may give rise to subjective sensations of on-going inflammation and sensitivity to ordinary light. These are, as mentioned, the common symptoms reported from patients suffering from 'electrosupersensitivity'/'screen dermatitis'. MCs are also present in the heart tissue and their localization is of particular relevance to their function. Data from studies made on interactions of EMFs with the cardiac function have demonstrated that highly interesting changes are present in the heart after exposure to EMFs. One could speculate that the cardiac MCs are responsible for these changes due to degranulation after exposure to EMFs. However, it is still not known how, and through which mechanisms, all these different cells are affected by EMFs. In this article, we present a theoretical model, based upon observations on EMFs and their cellular effects, to explain the proclaimed sensitivity to electric and/or magnetic fields in humans.
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PMID:A theoretical model based upon mast cells and histamine to explain the recently proclaimed sensitivity to electric and/or magnetic fields in humans. 1085 62

Type I diabetes is associated with a low incidence of asthma. We tested whether a decrease in sensory neuropeptide release is associated with an attenuated bronchoconstrictive response to field stimulation (FS; 100 stimuli, 20 V, 0.1 ms, 20 Hz) in streptozotocin (STZ)-induced diabetes. The organ fluid of the preparations were also tested for substance P, calcitonin gene-related peptide (CGRP), and somatostatin concentrations by RIA. Preparations were from either normal rats or those pretreated with 50 mg/kg STZ iv 8 wk before experiment. A group of STZ-treated animals was supplied with insulin delivery (4 IU/day sc) implants between 4 and 8 wk. A subgroup was formed to study the effect of capsaicin desensitization. The atropine-resistant contraction was attenuated by diabetes without capsaicin-sensitive relaxation response. Exogenous CGRP and substance P potentiated, whereas somatostatin inhibited (1 nM-10 microM) the FS-induced contractions in rings from either group. FS released somatostatin, CGRP, and substance P from 0.17 +/- 0.024, 0.15 +/- 0.022, and 1.65 +/- 0.093 to 0.58 +/- 0.032, 0.74 +/- 0.122, and 5.34 +/- 0.295 in preparations from normal, and from 0.19 +/- 0.016, 0.11 +/- 0.019, and 0.98 +/- 0.116 to 0.22 +/- 0.076, 0.34 +/- 0.099, and 1.84 +/- 0.316 fmol/mg wet wt in preparations from diabetic rats. Insulin supplementation restored neuropeptide release in rings from STZ-treated rats. The results show that the decreased FS-induced contractions occurred with a decrease in sensory neuropeptide release in STZ-diabetic rats.
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PMID:Feeble bronchomotor responses in diabetic rats in association with decreased sensory neuropeptide release. 1194 67

The G-protein-coupled receptors (GPCRs) are the largest known group of integral membrane receptor proteins and are the most common targets of pharmacotherapy. Mast cells (MCs) have been reported to play an important role in allergic diseases, such as urticaria and bronchial asthma. There is an increasing body of clinical evidence that MCs are recruited into allergic reactions by non-IgE-dependent mechanisms. Human MCs are activated and secrete histamine in response to neuropeptides, such as substance P and somatostatin, mediated by a GPCR, MRGX2. The microenvironment surrounding MCs in their resident tissues is likely to contain multiple factors that modify antigen-dependent MC activation. MCs express various GPCRs, and since the function of human MCs is modulated by various GPCR ligands, such as adenosine and sphingosine-1-phosphate, which are present in high levels in the bronchial alveolar lavage fluid of asthmatic patients, the GPCRs expressed on MCs may play an important role in human allergic diseases. The GPCRs expressed on MCs may serve as drug targets for the treatment of allergic diseases.
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PMID:Targeting human mast cells expressing g-protein-coupled receptors in allergic diseases. 1872 73

Diffuse idiopathic pulmonary neuroendocrine cell (DIPNECH syndrome) remains unfamiliar to most clinicians even though it was first described almost 30 years ago. Diagnosis is usually confirmed histopathologically after lung biopsy, but often, a diagnosis or suspected diagnosis can be made radiographically. In this paper, we present a case report of a 68-year-old female with shortness of breath and fleeting pulmonary nodules observed on chest CT scan. She was initially misdiagnosed with asthma based on an abnormal pulmonary function test which revealed an obstructive ventilatory defect. The classic radiographic findings of DIPNECH syndrome and the typical patient demographics that should arouse suspicion of a DIPNECH diagnosis were also illustrated. DIPNECH syndrome is a clinicopathological syndrome whereas focal NECH is a pathological diagnosis that is often made incidentally on histological examination and is encountered in a variety of settings, including in resected carcinoid tumors, in the context of reactive changes concomitant with infection, in metastatic cancer, radiation pneumonitis, intra-lobar sequestration, smokers, interstitial lung disease, and lung adenocarcinoma. There are no proven treatments for DIPNECH syndrome. In patients with obstructive ventilatory symptoms, bronchodilators with inhaled steroids are usually prescribed. Some severe cases may require parenteral steroids. Somatostatin analogs (SSA) have also been used in some cases with mixed results. Rapamycin has been used in several cases based on the purported activation of the mammalian target of rapamycin (mTOR) in DIPNECH. Some patients with large carcinoid tumors may benefit from resection.
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PMID:A 68-year-old woman with a diagnosis of asthma and multiple fleeting pulmonary nodules- a case report. 3329 53


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