Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P20366 (substance P)
 21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Substance P (SP) triggers responses in astrocytoma cells, which are considered important for proliferation and neuroimmunomodulatory activity. In this study, we compared the effects of SP with those of the novel tachykinin Hemokinin-1 (HK-1) in the human astrocytoma cell line U-251 MG. We show that U-251 MG cells express high levels of Neurokinin-1 (NK-1) receptors. The binding affinities of 125I-SP and 125I-mHK-1 to these receptors were in a similar, subnanomolar range. HK-1 and SP stimulated Ca2+ mobilization and induced increased cytokine mRNA expression. A specific NK-1 receptor antagonist blocked the observed effects. We conclude that there are no qualitative differences in SP and HK-1-evoked responses, suggesting that both peptides act through NK-1 receptors in U-251 MG cells. Moreover, we show TAC4 mRNA expression in gliomas, indicating a possible involvement of HK-1 in glioma biology.
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PMID:Hemokinin-1 has Substance P-like function in U-251 MG astrocytoma cells: a pharmacological and functional study. 1591 94

Mast cells are critical players in allergic reactions, but they have also been shown to be important in immunity and recently also in inflammatory diseases, especially asthma. Migraines are episodic, typically unilateral, throbbing headaches that occur more frequently in patients with allergy and asthma implying involvement of meningeal and/or brain mast cells. These mast cells are located perivascularly, in close association with neurons especially in the dura, where they can be activated following trigeminal nerve, as well as cervical or sphenopalatine ganglion stimulation. Neuropeptides such as calcitonin gene-related peptide (CGRP), hemokinin A, neurotensin (NT), pituitary adenylate cyclase activating peptide (PACAP), and substance P (SP) activate mast cells leading to secretion of vasoactive, pro-inflammatory, and neurosensitizing mediators, thereby contributing to migraine pathogenesis. Brain mast cells can also secrete pro-inflammatory and vasodilatory molecules such as interleukin-6 (IL-6) and vascular endothelial growth factor (VEGF), selectively in response to corticotropin-releasing hormone (CRH), a mediator of stress which is known to precipitate or exacerbate migraines. A better understanding of brain mast cell activation in migraines would be useful and could lead to several points of prophylactic intervention.
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PMID:The role of mast cells in migraine pathophysiology. 1596 Sep 87

Rat/mouse hemokinin 1 (r/m HK-1) is a novel tachykinin peptide whose biological functions are not fully understood. This work was designed to observe the effects of r/m HK-1 in pain modulation at supraspinal level in mice using tail-flick test. Intracerebroventricular (i.c.v.) administration of r/m HK-1 (0.1, 0.3, 1, 3 nmol/mouse) dose-dependently induced potent analgesic effect (ED(50) = 0.2877 nmol/mouse). When r/m HK-1 co-injected (i.c.v.) with SR140333 (a selective NK(1) receptor antagonist), SR140333 could fully antagonize the analgesic effect of r/m HK-1. The maximal analgesic effect of r/m HK-1 (3 nmol/mouse) could also be reversed by naloxone (i.p., 2 mg/kg). However, i.c.v. low dose administration of r/m HK-1 (10, 3, 1 pmol/mouse) induced hyperalgesia with a "U" shape curve, which means that the maximal hyperalgesic effect appeared at 3 pmol/mouse, and this effect of r/m HK-1 could also be fully blocked by SR140333. Interestingly, [Nphe(1)]NC(1-13)NH(2), a selective opioid receptor like-1 (ORL-1) receptor antagonist, could fully reverse the maximal hyperalgesic effect of r/m HK-1 (3 pmol/mouse). In addition, when r/m HK-1 co-injected (i.c.v.) with SR48968 (a selective NK(2) receptor antagonist), SR48968 could hardly affect the nociceptive effects of r/m HK-1 either at nanomole concentration or at picomole concentration. These findings suggested that r/m HK-1 might play an important role in pain modulation at supraspinal level in mice and these effects were first elicited through the activation of NK(1) receptor, subsequently, whether activation of the classical opioid receptor or the ORL1 receptor depending on the dose of i.c.v. administration of r/m HK-1.
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PMID:Effects and mechanisms of supraspinal administration of rat/mouse hemokinin-1, a mammalian tachykinin peptide, on nociception in mice. 1610 36

The airway nerve has gained importance in the field of respiratory research as it is known to have the capacity to release numerous mediators which can cause pulmonary effects in the airways. Meanwhile, a broad range of stimuli including capsaicin, bradykinin, hyperosmolar saline, tobacco smoke, allergens, ozone, inflammatory mediators and cold dry air have been shown to activate sensory nerve fibres to release neuropeptides such as the tachykinins substance P (SP) and neurokinin A (NKA) to mediate neurogenic inflammation. SP is synthesized in cell bodies of airway neurons of the trigeminal, jugulare and nodose ganglia. Following their release, tachykinins are degraded by neutral endopeptidase (NEP) and an angiotensin-converting enzyme. Tachykinins have been proposed to play an important role in human respiratory diseases such as bronchial asthma und chronic obstructive diseases (COPD) as they have been shown to have potent effects on the tone of airway smooth muscle, airway secretions, bronchial circulation and on inflammatory and immune cells by activation of the neurokinin-1 (NK-1) and neurokinin-2 (NK-2) receptors. Recently, new tachykinins such as virokinin and hemokinin were identified and characterised. Different aspects of the neurogenic inflammation have been well studied in animal models of allergic airway inflammation, but only little is known about the role of neurogenic airway inflammation in human diseases. To address the precise role of tachykinins and airway sensory nerves in human asthma und COPD, experiments on sensory nerve sensitisation and neuro-immune interaction have to be carried out in future studies.
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PMID:[Airway sensory nerve and tachykinins in asthma and COPD]. 1646 47

Rat/mouse hemokinin 1 (r/m HK-1) is a mammalian tachykinin peptide whose biological functions are not fully understood. Our recent report showed that i.c.v. administration of r/m HK-1 could produce dose- and time-related antinociceptive effect at nanomole concentration, and naloxone significantly antagonized this effect. Thus, we provide indirect evidence favoring a role of NK1 supraspinal receptors in the inhibitory control of descending pain pathways, a role that seems to partially involve the activation of the endogenous opioid systems. Based on this report, the present study was conducted to further investigate the direct functional interaction between supraspinal tachykinin (r/m HK-1) and opioid systems. The results demonstrate that i.c.v. administration of r/m HK-1 (5 nmol/kg) could significantly potentiate the antinociceptive effects of morphine which was injected at peripheral and supraspinal level. These antinociceptive effects were blocked by prior treatment with the classical opioid receptors antagonist naloxone, indicating that the potentiated analgesic response is mediated by opioid-responsive neurons. Consistent with previous biochemical data, a likely mechanism underlying the peptide-mediated enhancement of opioid analgesia may center on the ability of r/m HK-1 to release endogenous opioid peptides. We suggest that there may be a cascade amplification mechanism in pain modulation when the two agents were co-administrated. The synergistic analgesic relationship of morphine and r/m HK-1 established here supports the hypothesis that supraspinal tachykinin and peripheral and central opioid systems have a direct functional interaction in the modulation of local nociceptive responses.
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PMID:Rat/mouse hemokinin-1, a mammalian tachykinin peptide, markedly potentiates the antinociceptive effects of morphine administered at the peripheral and supraspinal level. 1662 Oct 52

Regulation of the contractile effects of tachykinins and histamine on the human uterus was investigated with biopsy sections of the outer myometrial layer. The effects of neurokinin A (NKA) and human hemokinin-1 (hHK-1) in tissues from pregnant but not from nonpregnant women were enhanced by the inhibition of neprilysin. The effects of NKA and eledoisin were blocked by the NK2 receptor antagonist SR 48968 but not by the NK1 receptor antagonist SR 140333 in tissues from both groups of women. Human HK-1 acted as a partial agonist blocked by SR 48968 and, to a lesser extent, by SR 140333; endokinin D was inactive. In tissues from pregnant women, responses to high potassium-containing Krebs solution were 2-3-fold higher than those from nonpregnant women. Mepyramine-sensitive maximal responses to histamine were similarly enhanced. The absolute maximum responses to NKA and its stable NK2 receptor-selective analogue, [Lys5MeLeu9Nle10]NKA(4-10), were increased in pregnancy, but their efficacies relative to potassium responses were decreased. Tachykinin potencies were lower in tissues from pregnant women than in those from nonpregnant women. These data 1) show for the first time that hHK-1 is a uterine stimulant in the human, 2) confirm that the NK2 receptor is predominant in mediating tachykinin actions on the human myometrium, and 3) indicate that mammalian tachykinin effects are tightly regulated during pregnancy in a manner that would negate an inappropriate uterotonic effect. The potencies of these peptides in tissues from nonpregnant women undergoing hysterectomy are consistent with their possible role in menstrual and menopausal disorders.
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PMID:Regulation of the stimulant actions of neurokinin a and human hemokinin-1 on the human uterus: a comparison with histamine. 1670 71

Tachykinins as substance P and neurokinin A belong to a family of peptides, which are released from airway nerves after noxious stimulation. They influence numerous respiratory functions under both normal and pathological conditions including the regulation of airway smooth muscle tone, vascular tone, mucus secretion and immune functions. For the most part the synthesis/release of tachykinins is associated with neuronal cells; nevertheless, inflammatory and immune cells can synthesize and release tachykinins under certain physiological conditions. Moreover, this second cellular source of tachykinins may play an important role in inflammatory airway diseases such as bronchial asthma or chronic obstructive pulmonary disease (COPD). Dual tachykinin (NK1 and NK2) receptor antagonists demonstrate a significant bronchoprotection and a possible future role in the development of novel therapeutic approaches. In addition, NK3 receptors could also possess a bronchoprotective action, however, their presence in the human respiratory tract still needs to be confirmed. The family of tachykinins has recently been extended by the discovery of a third tachykinin gene that encodes the previously unknown NK1 receptor selective tachykinins hemokinin 1, endokinin A and B. Together with other novel tachykinin peptides such as C14TKL-1 and virokinin further research is required to define their respiratory biological role in health and disease.
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PMID:Tachykinins in the respiratory tract. 1691 28

Until recently, the mammalian tachykinins included substance P, neurokinin A and neurokinin B. Following the discovery of the fourth member of this family, hemokinin 1, a diverse group of novel tachykinins and tachykinin gene-related peptides have been identified in mammals. These newly identified members are preferentially expressed in peripheral tissues. Currently, the impact of these new tachykinin peptides on the immune system remains unclear. Some data imply an important role for hemokinin 1 in the generation of lymphocytes. Tachykinins are traditionally viewed as neuropeptides with well-defined functions as neurotransmitters. Many studies however, indicate that they may also be produced by non-neuronal cells, and exert profound influence on inflammatory responses by affecting multiple aspects of immune cell function. It is of great importance to determine whether the new tachykinin peptides have similar effects. A more detailed understanding of the interactions between tachykinins and immune cells may provide the basis for the development of new therapies for inflammatory and immune-mediated diseases.
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PMID:Tachykinins in the immune system. 1691 29

The possibility of links between psychosocial factors and cancer incidence and progression has generated considerable scientific and public interest. Tachykinins, including substance P, neurokinin A and B, hemokinin-1 and endokinins, are a family of neuropeptides, acting through three types of transmembrane G-protein coupled receptors denoted NK1, NK2 and NK3. Besides their role as neurotransmitters in peripheral and central nervous system, tachykinins and their receptors are also expressed in several non neuronal cells contributing to the fine connections between nervous systems and peripheral organ system such as respiratory, cardiovascular, immune, endocrine, gastrointestinal and genitourinary. Being so much involved in regulating physiological functions, they, of course, can concur to pathological conditions including cancer. Tachykinins can act on different steps of carcinogenesis. Tumors expressing NK receptors, such as astrocytoma, glioma, neuroblastoma, pancreatic cancer and melanoma, can misuse tachykinin-induced signaling, operating in normal cells, to promote proliferation and survival of cancer cells and to release cytokines and soluble mediators favoring tumor growth. In neuroblastoma, breast and prostate carcinomas tachykinins facilitate tumor metastatic infiltration in the bone marrow. In neuroendocrine carcinoma, tachykinins are responsible of symptoms associated with these pathologies including flushing, diarrhea, wheezing and right heart disease. In addition, regardless tumor histology, tachykinins may favor cancer incidence and metastatic progression by influencing blood flux and neovascularization in tumor formation as well as inducing immunosuppression mediated by neurogenic inflammation due to stress or surgery. However, the precise involvement of tachykinins in cancer pathologies and the potentiality to become effective pharmacological drug targets remain to be fully defined.
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PMID:Tachykinins and their receptors in human malignancies. 1691 32

The endokinins represent several species-divergent and peripherally located mammalian tachykinins (hemokinin-1 in mouse and rat, endokinin-1 in rabbit and endokinins A and B in humans) and also the tachykinin gene-related peptides. These peptides are all encoded on the preprotachykinin 4 (TAC4) gene. Their complementary DNA sequences, gene structures and expression profiles have been determined from a number of different mammalian species. They are all flanked by adjacent upstream and downstream dibasic cleavage sites in their respective precursor proteins, except for human EKA/B that instead possesses a N-terminal monobasic cleavage site. Evidence for differential processing in the periphery at the N-terminal cleavage site of the tachykinins could explain why in humans the evolutionary pressure to maintain the N-terminal dibasic cleavage site of EKA/B has been lost. Furthermore, the TAC4 encoded tachykinins all exhibit a remarkable selectivity and potency for the highly species conserved tachykinin NK(1) receptor, similar to that of substance P. Particular consideration is also given to the potential interactions of the endokinins with the short NK(1) receptor isoform and to speculation of whether there could be an "endokinin-sensitive" NK(1) binding site.
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PMID:Characterization of the gene structures, precursor processing and pharmacology of the endokinin peptides. 1693 Nov 67


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