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)

Peptidergic nerves in immune organs and lymphoid tissues of the lungs and gastrointestinal tract end on or in close proximity to lymphocytes, mast cells and macrophages. Vasoactive intestinal peptide, substance P and some other neuropeptides, that are recognized by distinct sets of cell surface receptors, regulate aspects of T cell differentiation in the thymus, such as negative selection, and contribute to mediating compartmental immune responses. The latter effects include stimulating expression of adhesive proteins by lymphocytes, enhancement of lymphocyte and macrophage migration in vascular and connective tissues, and modulation of proliferative and synthetic responses of lymphocytes to diverse antigens.
 ...
PMID:Neuropeptide signaling of lymphocytes in immunological responses. 761 31

The opioidergic innervation of the mammalian spleen and possible species differences were investigated. Light-microscopic immunohistochemistry revealed that splenic nerves of bovine and porcine spleen, but not of rat, mouse, hamster and guinea-pig spleen contained proenkephalin-derived opioidergic innervation. Immunoreactivity to both prodynorphin and pro-opiomelanocortin was absent from splenic nerves. In bovine and porcine spleen, fibers immunoreactive for met-enkephalin, met-enkephalin-Arg-Phe, met-enkephalin-Arg-Gly-Leu, leu-enkephalin and peptide F formed perivascular plexus, traveled in trabecular connective tissue, and extended into the capsule. Spatial relationships with immune cells were apparent in the white and red pulp, excluding lymphoid follicles. Colocalization of enkephalin immunoreactivity with immunoreactivities for tyrosin hydroxylase, dopamin-beta-hydroxylase, and neuropeptide Y, but not for substance P or calcitonin gene-related peptide were found. Our results provide evidence that opioid expression in splenic innervation is strongly species-dependent and exclusively proenkephalin-derived. Colocalization with marker enzymes of noradrenergic neurons indicates a mainly postganglionic sympathetic origin of proenkephalinergic splenic innervation. Opioidergic perivascular nerves probably control the splenic blood flow. A close interrelationship of opioidergic fibers with immune cells provides the anatomical basis for direct effects of neurally released opioids on splenic immune functions.
 ...
PMID:Pro-enkephalin opioid peptides are abundant in porcine and bovine splenic nerves, but absent from nerves of rat, mouse, hamster, and guinea-pig spleen. 762 19

There is increasing evidence that the neurologic system is capable of modulating a wide range of immunologic responses, including certain inflammatory processes in the lung, gastrointestinal tract, and skin. It has been proposed that secreted neuropeptides such as substance P (SP) may mediate these neuroinflammatory interactions by binding to and stimulating immune cells such as mast cells and lymphoid cells. SP is secreted in a variety of tissues by an extensive network of neurosensory C and A5 fibers in response to a wide range of noxious stimuli and injury. Previous studies to examine the effect of SP on mast cells have focused on its role in triggering histamine release and mediating immediate hypersensitivity responses. Recently it was demonstrated that mast cells are also capable of secreting multiple cytokines including TNF-alpha, IL-1, IL-3, IL-4, IL-6, and GM-CSF. In this study we tested the possibility that SP may also influence mast cell-mediated late inflammatory events by modulating the production of one or several of these cytokines. Our results indicate that SP induces TNF-alpha mRNA expression and TNF-alpha secretion in a dose-dependent manner in a murine mast cell line, CFTL12. Likewise, SP stimulates TNF-alpha secretion in freshly isolated murine peritoneal mast cells. The induction of mast cell TNF-alpha is selective, since SP does not stimulate the production of IL-1, IL-3, IL-4, IL-6, or GM-CSF in these cells. The CFTL 12 mast cell line constitutively expresses high levels of SP receptor mRNA which is not modulated by PMA/cycloheximide treatment or SP. These results further support the concept that the neurologic system modulates inflammatory events by neuropeptide-mediated mast cell cytokine release.
 ...
PMID:Substance P selectively activates TNF-alpha gene expression in murine mast cells. 768 20

Studies on neuroendocrine hormone receptor have been hampered by low numbers and concentrations of receptors found within and outside the neuroendocrine system. The complementary peptide approach is particularly useful for dealing with this problem and has been used to characterize lymphoid receptors for arginine vasopressin (AVP), corticotropin (ACTH), substance P, and opioid peptides. A nonapeptide derived by reading of the complementary DNA strand of the bovine AVP gene in the 3' to 5' direction specifically blocks the AVP helper signal for interferon-gamma production by mouse T lymphocytes. Antibodies to 3'-5' AVP-binding peptide bound to cells, and the binding was inhibited by excess AVP. Thus, binding of anti-3'-5'AVP-binding peptide antibodies to the AVP receptor was specific. The complementary peptide approach has also been used to produce antibodies specific for the ACTH receptor complex. Complementary peptides to ACTH derived by reading in either the 5' to 3' or 3' to 5' direction were able to bind to ACTH. Monospecific antibodies to the ACTH (1-24) complementary peptide caused an ACTH-like steroidogenic response of cultured mouse adrenal cells, presumably by binding to the ACTH receptor, and binding was specifically inhibited by ACTH. The ACTH receptor complex from solubilized adrenal cells was shown to consist of four subunits with M(r) 83,000, 64,000, 52,000, and 22,000. The 83,000 and 52,000 M(r) subunits are disulfide linked and noncovalently associated with the other subunits, with binding of labeled ACTH localized to the 83,000 M(r) subunit. Similarly, a complementary peptide was shown to bind directly to substance P in a saturable and dose-dependent manner.(ABSTRACT TRUNCATED AT 250 WORDS)
 ...
PMID:Complementary peptides as probes to explore neuropeptide receptors on lymphocytes. 787 40

Noradrenergic and peptidergic nerve fibers abundantly innervate the parenchyma of both primary (bone marrow) and secondary (spleen, lymph nodes) lymphoid organs. Nerve fibers distribute within the parenchyma of these organs, as well as along smooth muscle compartments. Both noradrenaline and peptides such as substance P have been shown to fulfill the basic criteria for neurotransmission with lymphocytes, macrophages, and other immunocytes as targets. Denervation or pharmacological manipulation of these neurotransmitters can profoundly alter immunological reactivity at the individual cellular level, at the level of complex multicellular interactions (such as antibody response), and at the level of host response to a disease-producing challenge. The characteristic and mechanisms of bidirectional neural-immune signaling may provide a novel approach to immunologically-mediated disease, both pharmacologically and behaviorally.
 ...
PMID:Fundamental aspects of neural-immune signaling. 790 68

Intracellular recordings were made from smooth muscle cells of arterioles and the capsule of the spleen of guinea-pig and rat, and the responses to periarterial or subcapsular nerve stimulation were recorded. The innervation of the spleen was studied using fluorescence and immunohistochemical techniques. Catecholamine-containing axons were associated with smooth muscle of the splenic capsule, trabeculae, arterioles and amongst cells of the periarteriolar lymphoid sheath. Axons immunoreactive for neuropeptide Y (NPY) and tyrosine hydroxylase were distributed in an identical manner to catecholamine-containing axons, whereas axons immunoreactive for substance P or calcitonin gene-related peptide were present at a very low density in spleens from both species. In segments of arterioles, single transmural stimuli evoked excitatory junction potentials (EJPs) of 1-10 mV amplitude. EJPs facilitated during short trains of stimuli (1-10 Hz) and summated at 10 Hz, often initiating a muscle action potential. EJPs persisted in the presence of prazosin (1 microM) and idazoxan (1 microM), but were abolished by the P2x-purinoceptor antagonist suramin (1 mM). Spontaneous depolarizations were observed in smooth muscle cells of arterioles and capsule. Some events in arterioles were observed in the presence of suramin and so may originate postjunctionally independently of transmitter release. As single transmural stimuli failed to evoke a depolarization in capsular smooth muscle, spontaneous depolarizations in this tissue probably also arise postjunctionally. Short trains of high frequency stimuli (10-35 Hz) evoked biphasic depolarizations of capsular smooth muscle cells. The initial component peaked 2.5 s following the onset of stimulation; the second component peaked 15 s following the onset and decayed exponentially with a time constant of 15 s. By fitting a product of exponentials to the second component, it was possible to define the initial component, which decayed with a time constant of around 1.5 s. Neurally evoked depolarizations of capsular smooth muscle were abolished by 1 microM TTX. Blockade of alpha 1-adrenoceptors with prazosin reduced the initial component of the depolarization, whereas alpha 2-adrenoceptor blockade with idazoxan virtually abolished the second component. In some cells a small, faster depolarization persisted after alpha-adrenoceptor blockade. The slow alpha 2-adrenoceptor-mediated depolarization was identical to that recorded in the rat tail artery and in the guinea-pig mesenteric vein. The data indicate that sympathetic neuroeffector transmission from noradrenergic axons containing NPY to splenic arterial and capsular smooth muscle occur by different mechanisms.
 ...
PMID:Electrophysiological events during neuroeffector transmission in the spleen of guinea-pigs and rats. 791 66

In mucosa-bearing organs with inherent lymphoid populations, classical modes for control of the immune response may be augmented by products of extrinsic sensory afferent nerve endings which arborize through the lamina propria compartment containing large numbers of T and B lymphocytes. Therefore, we sought to determine the role of neuropeptides (substance P, vasoactive intestinal peptide, and somatostatin) in immune response regulation by using a homogeneous line of T lymphocytes (AO40.1 hybrid), whose activation is driven by a specific Ag (OVA) and where the end point (IL-2 release) could not be contributed to by accessory or other cells. IL-2 was quantitated by the rate of 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) metabolism with the use of a murine CD4+ IL-2-dependent T lymphocyte line, and dose-response effects of each neuropeptide were examined over a broad concentration range (10(-14)-10(-6) M) encompassing that regarded as physiologic. Vasoactive intestinal peptide stimulated IL-2 release at low concentrations with a marked effect at 10(-14) M that gradually returned to control levels by 10(-7) M. Somatostatin was associated with a substantial augmentation of AO40.1 T lymphocyte IL-2 release at 10(-10) to 10(-8) M concentrations, whereas substance P demonstrated a stimulatory effect only at high concentrations (10(-9) to 10(-6) M). Concomitant [3H]thymidine uptake studies suggested that changes in cell proliferation or viability did not account for neuropeptide-induced effects in our system. With several exceptions, similar results were found with mitogen (Con A)-stimulated AO40.1 cells and human colonic lamina propria mononuclear cells. It was concluded that the three study neuropeptides, over a broad range of concentrations, have profound stimulatory (and occasionally inhibitory) effects upon the function of a cloned T lymphocyte hybrid cell responding to specific Ag and that these events may reflect those of Ag-driven mucosal T lymphocytes exposed to neuropeptides in vivo.
 ...
PMID:Modulation of T lymphocyte function by neuropeptides. Evidence for their role as local immunoregulatory elements. 851 59

Pseudomembranous colitis is most often caused by toxins secreted by Clostridium difficile following bowel flora overgrowth after antibiotic use. The secretory and inflammatory effects observed in C. difficile toxin A-induced enterocolitis in the rat ileum are inhibited by CP-96,345, a substance P (SP) receptor antagonist. To determine if SP plays a role in the pathogenesis of human pseudomembranous colitis, SP receptor distribution was examined in a toxin A-positive specimen of bowel. Quantitative receptor autoradiography was used to examine SP receptors in tissue from a patient who tested positive for C. Difficile toxin. SP receptors were massively increased in small blood vessels and lymphoid aggregates in the pseudomembranous colitis bowel in comparison to control specimens. The SP binding was saturable and exhibited similar affinities for SP and CP-96,345. SP may contribute to the inflammatory response in pseudomembranous colitis via a massive increase in SP receptor antagonists may offer a novel therapeutic intervention for pseudomembranous colitis.
 ...
PMID:Increased substance P receptor expression by blood vessels and lymphoid aggregates in Clostridium difficile-induced pseudomembranous colitis. 861 45

Mycoplasma pulmonis infection in rats results in life-long disease, characterized by chronic inflammation of the airway mucosa with widespread accumulation of lymphoid tissue, mucous cell hyperplasia, and mucosal thickening. In addition, there is angiogenesis and increased sensitivity of mucosal blood vessels to substance P (SP), so tachykinins released from sensory nerve fibers cause an abnormally large amount of plasma leakage. We sought to learn whether the sensory nerves influence the severity of the chronic inflammatory response of M. pulmonis infection. Our strategy was to destroy the nerves by capsaicin pretreatment at birth, infect the rats with M. pulmonis at 8 wk of age, and then study the animals 6 wk later. We found that capsaicin pretreatment increased the severity of the infection, exaggerated the pathological changes in the tracheal mucosa, and increased the amount of SP-induced plasma leakage, as quantified with Monastral blue. The thickness of the tracheal mucosa in these infected rats was 80% greater than in their vehicle-pretreated counterparts and 200% greater than in the pathogen-free controls. The area density of Monastral blue-labeled blood vessels averaged 20% in the infected rats pretreated with capsaicin, which represented a 40-fold increase over the leakage in the pathogen-free group. By comparison, the amount of Monastral blue labeling was only 13% in rats pretreated with vehicle (P<0.05), which was a 22-fold increase over the corresponding pathogen-free group. The number of SP-immunoreactive nerve fibers was reduced both by neonatal capsaicin and by infection (87 and 63% reductions, respectively); but when the two conditions were combined, their effects were not additive (79% reduction), perhaps because of nerve regrowth. We conclude that destruction of sensory nerves increases the severity of infection- induced chronic inflammation in the airway mucosa, with exaggerated mucosal thickening, angiogenesis, plasma leakage, and nerve remodeling.
 ...
PMID:Sensory denervation by neonatal capsaicin treatment exacerbates Mycoplasma pulmonis infection in rat airways. 863 32

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.
 ...
PMID:Integrative neuroimmunology of the digestive tract. 882 13


<< Previous 1 2 3 4 5 6 7 8 9 Next >>