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)

There is accumulating evidence for a strong interaction between components of the nervous system and the immune system. Accordingly, specific receptors for neuropeptides were found to be expressed on immunocompetent cells and several neuropeptides were recognized as potent regulators of immune and inflammatory reactions. Among various neuropeptides such as substance P, calcitonin gene-related peptide and others alpha-melanocyte-stimulating hormone (alpha-MSH) was found to be produced in the skin. Moreover, melanocortin receptor 1 which is specific for alpha-MSH and ACTH is expressed in the skin on keratinocytes, dendritic cells, macrophages and endothelial cells. In monocytes, macrophages and dendritic cells alpha-MSH inhibits the production and activity of immunoregulatory and proinflammatory cytokines such as IL-2, IFNgamma and IL-1. It downregulates the expression of costimulatory molecules such as CD86 and CD40 and induces the production of suppressor factors such as the cytokine synthesis inhibitory factor IL-10. On endothelial cells alpha-MSH is capable of downregulating the LPS-induced expression of adhesion molecules such as vascular cellular adhesion molecules and E-selectin. Moreover, the LPS-induced activation of transcription factors such as NFkappaB is downregulated by alpha-MSH. In a mouse model intravenous or topical application of alpha-MSH was found to inhibit the induction as well as the effector phase of a contact hypersensitivity reaction and to induce hapten-specific tolerance. Moreover, there is evidence that the N-terminal tripeptide of alpha-MSH is sufficient for its in vitro and in vivo immunomodulatory effects. These findings indicate that the production of immunosuppressing neuropeptides such as alpha-MSH by epidermal cells may play an essential role during the pathogenesis of immune and inflammatory reactions in the skin.
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PMID:alpha-melanocyte-stimulating hormone as a mediator of tolerance induction. 1072 12

Neuroendocrine peptides have a variety of physiological functions in the gastrointestinal tract. This study was carried out to investigate the impact of IL-2 deficiency on the neuroendocrine system in normal colon, and the neuroendocrine changes during colonic inflammation. Mice with homozygous disrupted IL-2 gene (IL-2-/-) spontaneously developed a bowel disease with similarities to human ulcerative colitis. Different types of colonic endocrine cells and myenteric nerves were analysed in the IL-2-/- mice using immunomorphometry. The neuropeptide contents in the colonic tissues were determined by radioimmunoassay. Age-matched healthy IL-2+/- and IL-2+/+ mice served as controls and the colonic IL-2 levels were compared between these two groups of mice by ELISA. Our data showed that less than half the amount of IL-2 was synthesized in the colon of IL-2+/- mice compared with the IL-2+/+ wild-type mice. Two major differences in the neuroendocrine colon were found between the mice with an intact and disrupted IL-2 gene. One was age-related. The frequencies of various endocrine cells and myenteric nerves increased with age in the IL-2+/+ mice. However, no such increases were seen in the mice with a disrupted IL-2 gene. Instead, the volume densities of enteroglucagon, serotonin cells and substance P (SP), vasoactive intestinal polypeptide (VIP) and total myenteric nerves were lower in the older IL-2+/- and IL-2-/- mice compared with the wild type. The other was disease-related. Polypeptide YY (PYY) cells and tissue levels of PYY, SP and VIP were significantly decreased in the IL-2-/- mice during the course of bowel inflammation compared with the healthy IL-2+/- and IL-2+/+ controls. These findings indicate that colonic neuroendocrine alterations did occur in the mice with a disrupted IL-2 gene and diminished local IL-2 level, suggesting a role of IL-2 in the regulation of the neuroendocrine system and a prevalent interaction between the immune and neuroendocrine systems in normal colon. On the other hand, there were some changes that seemed to correlate with the bowel inflammatory process. They might be associated with the impaired function in inflamed gut and contribute to the development and/or prolongation of disease.
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PMID:Neuroendocrine changes in colon of mice with a disrupted IL-2 gene. 1084 19

Among various neuropeptides such as substance P, calcitonin gene-related peptide and others, alpha-melanocyte-stimulating hormone (alpha-MSH) was found to be produced in the skin. Moreover, melanocortin receptor 1 (MC-1R), which is specific for alpha-MSH and ACTH, is expressed in the skin on keratinocytes, dendritic cells, macrophages and endothelial cells. In monocytes, macrophages and dendritic cells alpha-MSH inhibits the production and activity of immunoregulatory and proinflammatory cytokines such as IL-2, IFN-gamma, TNF-alpha and IL-1. It downregulates the expression of costimulatory molecules such as CD86 and CD40 and induces the production of suppressor factors such as the cytokine synthesis inhibitory factor IL-10. On endothelial cells alpha-MSH is capable of downregulating the LPS-induced expression of adhesion molecules such as vascular cell adhesion molecule (VCAM) and E-selectin. Moreover, the LPS-induced activation of transcription factors such as NF kappa B is downregulated by alpha-MSH. In a mouse model i.v. or topical application of alpha-MSH was found to inhibit the induction phase as well as the effector phase of contact hypersensitivity (CHS) reactions and to induce hapten-specific tolerance. These findings indicate that the production of immunosuppressing neuropeptides such as alpha-MSH by epidermal cells may play an essential role during the pathogenesis of immune and inflammatory reactions in the skin.
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PMID:The role of alpha-MSH as a modulator of cutaneous inflammation. 1126 49

There are several phenomena in which the immune and the central nervous systems regulate each other. However, their mechanisms are poorly understood. Since cytokines have a central role in the regulation of the immune response, this review describes their participation in two forms of neuro-immune communication, immunomodulation by psychological stress and behavioral conditioning of immune response. The role of cytokines in the endocrine and behavioral effects of acute phase, where cytokines have an effect in functions of the central nervous system, is also reviewed. The effects of psychological stress are described as both immunosuppressing and immunoenhancing. Among them, a relevant immunosuppressing one is the reduction of IL-1, IL-2, and IFN-gamma levels. In contrast, some of the pro-inflammatory effects of stress are mediated by an increase in the levels of IL-6, IL-1, and TNF mediated by the neurotransmitter Substance P. A possible role for IL-1 and IFN-beta as possible messengers in immune regulation by behavioral conditioning is proposed. Pro-inflammatory cytokines in turn can activate the hypothalamus-pituitary-adrenal axis and induce sickness behavior during the acute phase response, during which the parasympathetic nervous system serves as pathway for their detection by the central nervous system. An account is given about recent findings on the regulation of cytokine expression by neurotransmitters from the sympathetic nervous system (epinephrine and norepinephrine), a key piece in all these mechanisms of brain-immune communication. Possible mechanisms and pathways of communication between the brain and the immune system, as well as the possible participation of other cytokines are discussed.
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PMID:[Behavior-immunity relationship: the role of cytokines]. 1149 12

Yuldahansotang (YH-Tang), a Sasang Constitutional prescription composed of seven herbal mixtures, has been developed as a formula to prevent and treat cerebral infarction (CI) of Taeumins. However, the mechanisms by which this formula affects CI remain unknown. Previously, regulation of serum cytokine levels by YH-Tang has been observed in individuals at the acute stage of CI disease. It is uncertain whether this is a cause or a result of the disease process. In this study, we investigated whether YH-Tang inhibited secretion of inflammatory cytokines from human astrocytes. YH-Tang regulated the cytokine secretions in astrocytes stimulated with substance P (SP) and lipopolysaccharide (LPS). YH-Tang significantly inhibited interleukin (IL)-1, IL-4, IL-6 and tumor necrosis factor-alpha (TNF-alpha) secretion in astrocytes stimulated with SP and LPS, but did not inhibit interferon-y (IFN-gamma) and IL-2 secretion significantly. IL-1 has been shown to elevate TNF-alpha secretion from LPS-stimulated astrocytes while having no effect on astrocytes in the absence of LPS. Therefore, we investigated whether IL-1 mediated inhibition of TNF-alpha secretion from astrocytes by YH-Tang. Incubation of human astrocytes with IL-1 antibody abolished the synergistic cooperative effect of LPS and SP. These results suggest that YH-Tang may indirectly inhibit TNF-alpha secretion by inhibiting IL-1 secretion. Moreover, these findings indicate that YH-Tang has regulatory effects on cytokine secretion in an acute CI patient.
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PMID:Cytokine production regulation in human astrocytes by a herbal combination (Yuldahansotang). 1202 45

Herein, we provide evidence of the expression and function of substance P (SP) and neurokinin-1 receptor (NK-1R) in the rat thymus. In situ hybridization evidenced NK-1R mRNA mainly in the thymic medulla, and Northern blot analysis of mRNA from FACS-sorted thymocytes identified NK-1R on CD4+, CD8+ and double-positive subpopulations. With flow cytometry, it could be seen that NK-1R was expressed on the majority of CD5+ thymocytes, and it was identified by Western blot analysis as two bands migrating at 44 and 54 kD. SP administration rescues thymocytes from spontaneous and NK-1R antagonist (SR140333)-induced apoptosis and stimulates concanavalin A (ConA)-induced thymocyte proliferation, CD25 expression and IL-2 production, whereas SR140333 exerts inhibitory effects on these functions. We also demonstrated the expression of mRNA for the SP precursor preprotachykinin-A in the thymic medulla and purified CD5+ thymocytes. SP protein was detected on 40% of CD5+ thymocytes and identified as a band of 1.3 kD by Western blot analysis. Finally, thymocytes spontaneously released SP, which was increased upon ConA or CD3 stimulation.
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PMID:Expression of substance P and its neurokinin-1 receptor on thymocytes: functional relevance in the regulation of thymocyte apoptosis and proliferation. 1258 11

Psoriasis, a TH1-induced disorder, is not more common in human immunodeficiency virus (HIV) infection than in the general population. However, it may appear for the first time or pre-existing psoriasis may worsen and be difficult to treat in HIV disease. The paradoxical exacerbation of psoriasis in AIDS has not been fully explained. Various explanations have been proposed including (a) the reduction of Langerhans' cells (LCs) in HIV disease, (b) the direct epidermal proliferative effect of HIV, (c) the altered cytokine profile in HIV disease, (d) HIV-induced macrophage nitric oxide (NO) production, (e) the increased CD8/CD4 T-cell ratio in HIV infection and (f) the increased colonization of skin by Staphylococcus aureus. However, the observations that (a) LCs cells play an important role in the pathogenesis of psoriasis and a variety of topical and systemic psoriasis treatments cause a reversible decrease in LC function, (b) psoriasis may improve in end-stage HIV infection, (c) overproduction of some TH2 cytokines and underproduction of IL-2 in HIV infection, and (d) the presence of NO favors a TH2 response over a TH1 response make the first four explanations difficult to interpret. Since psoriasis is exacerbated in HIV infection possibly due to the increased staphylococcal colonization, and psoriatic keratinocytes could aggravate HIV infection through production of TNF-alpha, it could be reasoned that in HIV-positive psoriatics a strong vicious cycle is present between the degree of immune deficiency and the staphylococcal colonization, explaining the poor prognosis of both AIDS and psoriasis in these patients. With reference to the studies which indicate significant involvement of substance P (SP) in the pathogenesis of psoriasis and on the other hand increased release of this agent by HIV-infected immune cells it is proposed that SP plays an important role in creating the paradox. Since in HIV-positive psoriatics the source of SP is largely immune cells not neurons, capsaicin, which exerts its action selectively on a subpopulation of neurons, could not be of significant therapeutic value. As SP significantly enhances HIV-1 replication in latently infected immune cells, psoriatic lesions, being heavily infiltrated with immune cells and having high concentrations of SP, could serve as high HIV-replication foci, with the resultant rapid progression of the infection towards AIDS. Additionally, given that lipopolysaccharide is supposed to exacerbate psoriasis, increase of gram-negative infections or cutaneous colonization with these organisms in AIDS may partly explain the paradox. Understanding the HIV-induced immunodysregulation that is associated with psoriasis in some HIV-seropositive patients may assist in the delineation of the immunopathogenesis of the disease in HIV-seronegative psoriatics.
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PMID:Paradoxical exacerbation of psoriasis in AIDS: proposed explanations including the potential roles of substance P and gram-negative bacteria. 1511 14

Topical glucocorticoid (GC) is commonly applied in atopic dermatitis treatment. However, the chronic use of GC may be associated with significant side effects. In this study, we investigated whether long-term epicutaneous application of GC modulates scratching behaviour in dinitrofluorobenzene (DNFB) contact-sensitized mice. After challenge with DNFB, scratching behaviour was increased in DNFB-sensitized mice treated with GC in contrast to control mice. In addition, reverse transcriptase-polymerase chain reaction analysis demonstrated that the expression of preprotachykinin-A (PPT-A) mRNA, a precursor of substance P (SP), and inducible nitric oxide synthase (iNOS) mRNA in mice, to which GC was applied, was only observed. In order to evaluate the factors responsible for the augmented scratching behaviour, we injected various cytokines (interleukin-1alpha (IL-1alpha), IL-2, IL-3 and tumour necrosis factor-alpha (TNF-alpha)) subcutaneously into the ear of DNFB contact-sensitized mice before DNFB challenge. Among the cytokines, only IL-3 and TNF-alpha significantly increased scratching behaviour in DNFB contact dermatitis mice. Furthermore, PPT-A mRNA was only expressed in mice pre-injected with IL-3 before challenge, but not in those pre-injected with other cytokines. Taken together, our results suggest that topical GC may augment the itching sensation in DNFB-sensitized mice through modulation of iNOS and SP induced by IL-3.
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PMID:Topical glucocorticoid augments scratching behaviour in dinitrofluorobenzene-sensitized mice by the induction of substance P. 1556 Jul 62

Neurocysticercosis, caused by the cestode Taenia solium, is the most common parasitic infection of the human central nervous system that leads to seizures. Taenia crassiceps cysticercosis in mice is an experimental model for Taenia solium cysticercosis. Similar to the human infection, live parasites cause little or no granulomatous inflammation. Dying parasites initiate a granulomatous reaction. The neuropeptide, substance P (SP), stimulates T-helper (TH) 1 cytokine production. In the current studies, we determined whether absence of SP/SP receptor circuitry in the SP-precursor, preprotachykinin, knockout or SP-receptor, neurokinin (NK) 1, knockout mice affected granuloma cytokine production. We hence compared the levels of Th1 cytokines interleukin (IL)-2 and interferon (IFN)-gamma, and levels of Th2/immunoregulatory cytokines IL-4 and IL-10, by enzyme-linked immunosorbent assay in T. crassiceps-induced granulomas derived from infected C57BL/6 wild type (WT) versus SP-precursor knockout and NK1 knockout mice. We found that mean levels of IL-2, IFN-gamma, IL-4, and IL-10 in infected WT-derived granulomas were significantly higher than those of granulomas derived from infected SP-precursor knockout or the NK1 receptor (NKIR)knockout mice. Levels of Th2/immunoregulatory cytokines, IL-4 and IL-10 were higher in early stage granulomas (histologically-staged on basis of evidence of parasite remnants) versus late stage granulomas (no parasite-remnants) of both knockouts, whereas the reverse was noted in WT-derived granulomas. These study established that the absence of an SP/SP receptor circuitry in the SP precursor knockout mice or NK1 receptor knockout mice led to an inhibited cytokine response.
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PMID:Absence of the SP/SP receptor circuitry in the substance P-precursor knockout mice or SP receptor, neurokinin (NK)1 knockout mice leads to an inhibited cytokine response in granulomas associated with murine Taenia crassiceps infection. 1857 10

Violence and aggression are major causes of death and injury, thus constituting primary public health problems throughout much of the world costing billions of dollars to society. The present review relates our understanding of the neurobiology of aggression and rage to pharmacological treatment strategies that have been utilized and those which may be applied in the future. Knowledge of the neural mechanisms governing aggression and rage is derived from studies in cat and rodents. The primary brain structures involved in the expression of rage behavior include the hypothalamus and midbrain periaqueductal gray. Limbic structures, which include amygdala, hippocampal formation, septal area, prefrontal cortex and anterior cingulate gyrus serve important modulating functions. Excitatory neurotransmitters that potentiate rage behavior include excitatory amino acids, substance P, catecholamines, cholecystokinin, vasopressin, and serotonin that act through 5-HT(2) receptors. Inhibitory neurotransmitters include GABA, enkephalins, and serotonin that act through 5-HT(1) receptors. Recent studies have demonstrated that brain cytokines, including IL-1beta and IL-2, powerfully modulate rage behavior. IL-1-beta exerts its actions by acting through 5-HT(2) receptors, while IL-2 acts through GABAA or NK(1) receptors. Pharmacological treatment strategies utilized for control of violent behavior have met with varying degrees of success. The most common approach has been to apply serotonergic compounds. Others included the application of antipsychotic, GABAergic (anti-epileptic) and dopaminergic drugs. Present and futures studies on the neurobiology of aggression may provide the basis for new and novel treatment strategies for the control of aggression and violence as well as the continuation of existing pharmacological approaches.
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PMID:The neurobiological bases for development of pharmacological treatments of aggressive disorders. 1861 78


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