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

Axons containing serotonin descend from brainstem to spinal cord and are thought to contribute to stimulation-produced and opioid analgesia, partly by a direct inhibitory action of serotonin on projection neurones. The density of serotoninergic innervation is highest in lamina I, which contains many nociceptive projection neurones. Two sets of anatomical criteria have been used to classify lamina I projection neurones: somatodendritic morphology and presence or absence of the neurokinin 1 receptor. To test whether the strength of serotoninergic innervation of lamina I projection neurones was related to morphology or neurokinin 1 receptor expression, we used confocal microscopy to determine the density of serotoninergic contacts on 60 cells retrogradely labelled from the caudal ventrolateral medulla. The contact density on neurones with the neurokinin 1 receptor was variable, with some cells receiving heavy input and others having few contacts. However, on average they received significantly more contacts (5.64 per 1000 microm(2) plasma membrane +/- 0.47, S.E.M.) than neurones which lacked the receptor (2.49 +/- .36). Among the neurokinin 1 neurones, serotoninergic innervation density was not related to morphology. Since the majority of serotoninergic boutons in lamina I of rat spinal cord do not appear to form synapses, we carried out electron microscopy on three heavily innervated neurokinin 1 receptor-immunoreactive projection neurones. Symmetrical synapses were found at 89% of serotoninergic contacts. These results indicate that serotoninergic innervation of lamina I projection neurones in the rat spinal cord is related to expression of neurokinin 1 receptors, but not to morphology, and that (at least on heavily innervated neurones) most serotonin-containing boutons which are in contact form synapses.
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PMID:Selective innervation of lamina I projection neurones that possess the neurokinin 1 receptor by serotonin-containing axons in the rat spinal cord. 1192 62

A direct action of mu-opioid agonists on neurons in the spinal dorsal horn is thought to contribute to opiate-induced analgesia. In this study we have investigated neurons that express the mu-opioid receptor MOR-1 in rat spinal cord to provide further evidence about their role in nociceptive processing. MOR-1-immunoreactive cells were largely restricted to lamina II, where they comprised approximately 10% of the neuronal population. The cells received few contacts from nonpeptidergic unmyelinated afferents, but many from substance P-containing afferents. However, electron microscopy revealed that most of these contacts were not associated with synapses. None of the MOR-1 cells in lamina II expressed the neurokinin 1 receptor; however, the mu-selective opioid peptide endomorphin-2 was present in the majority (62-82%) of substance P axons that contacted them. Noxious thermal stimulation of the foot induced c-Fos expression in approximately 15% of MOR-1 cells in the medial third of the ipsilateral dorsal horn at mid-lumbar level. However, following pinching of the foot or intraplantar injection of formalin very few MOR-1 cells expressed c-Fos, and for intraplantar formalin injection this result was not altered significantly by pretreatment with systemic naloxone. Although these findings indicate that at least some of the neurons in lamina II with MOR-1 are activated by noxious thermal stimulation, the results do not support the hypothesis that the cells have a role in transmitting nociceptive information following acute mechanical or chemical noxious stimuli.
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PMID:MOR-1-immunoreactive neurons in the dorsal horn of the rat spinal cord: evidence for nonsynaptic innervation by substance P-containing primary afferents and for selective activation by noxious thermal stimuli. 1199 25

Considerable progress has been made in understanding the neural circuits involved the antidepressant and anxiolytic efficacy of substance P (NK, receptor) antagonists (SPAs). Progress has been hampered by species differences in the pharmacology of the NK1 receptor, and the availability of NK1R-/- mice has been a particularly useful resource in overcoming this difficulty. Using neuroanatomical, behavioural, and electrophysiological techniques, studies have now established that pharmacological blockade or deletion of the NK1 receptor produces an antidepressant and anxiolytic-like profile in a range of behavioural assays that is distinct from that of established drugs. There is evidence from focal injection studies that some of these effects may be mediated directly by blockade of NK, receptors in the amygdala and its projections to the hypothalamus, periaqueductal gray, and reticulopontine nucleus. Substance P and NK1 receptors are also intimately associated with ascending 5-HT and norepinephrine projections to the forebrain, and alterations in the function of these systems are also likely to be related to the antidepressant efficacy of SPAs. Unlike some established drugs, SPAs are generally well tolerated and do not induce sedation or motor impairment in preclinical species. These findings are consistent with a novel antidepressant mechanism of action of SPAs.
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PMID:New insights into the antidepressant actions of substance P (NK1 receptor) antagonists. 1205 58

To further our knowledge of the site of action of substance P (SP) in the human basal ganglia, we applied single- and double-antigen localization methods to human postmortem tissue to compare the distribution of SP and its high affinity receptor neurokinin-1 (NK1R) at striatal and pallidal levels. The human striatum was found to harbor numerous heterogeneously distributed aspiny neurons that expressed NK1R. Most of them were of small size, but a moderate number of large-sized neurons and a small number of medium-sized neurons also expressed NK1R. The medium-sized NK1R-positive neurons coexpressed parvalbumin and appear to represent a hitherto unknown striatal interneuron. The three types of striatal NK1R-positive neurons were preferentially localized in the peripheral region of the striosomes, which were identified by their intense immunostaining for the limbic system-associated membrane protein. Numerous NK1R expressing neurons also occurred in both external (GPe) and internal (GPi) segments of the globus pallidus, as well as in the ventral pallidum (GPv). There was a marked decreasing rostrocaudal gradient in the number of these neurons in the GPe, but not in the GPi. A multitude of smooth and highly branched SP-immunoreactive fibers pervaded the entire pallidal complex and some of these fibers were in close contact with NK1R-positive neurons in the GPi, as well as in the rostral portion of the GPe. The latter result reveals that the so-called 'direct' striatofugal pathway provides SP-immunoreactive collaterals to the GPe, a finding that is at odd with the current model of basal ganglia organization.
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PMID:The expression of neurokinin-1 receptor at striatal and pallidal levels in normal human brain. 1220 95

Interleukin (IL)-1beta causes airway inflammation, enhances airway smooth muscle responsiveness, and alters neurotransmitter expression in sensory, sympathetic, and myenteric neurons. This study examines the role of intrinsic airway neurons in airway hyperresponsiveness (AHR) induced by IL-1beta. Ferrets were instilled intratracheally with IL-1beta (0.3 microg/0.3 ml) or saline (0.3 ml) once daily for 5 days. Tracheal smooth muscle contractility in vitro and substance P (SP) expression in tracheal neurons were assessed. Tracheal smooth muscle reactivity to acetylcholine (ACh) and methacholine (MCh) and smooth muscle contractions to electric field stimulation (EFS) both increased after IL-1beta. The IL-1beta-induced AHR was maintained in tracheal segments cultured for 24 h, a procedure that depletes SP from sensory nerves while maintaining viability of intrinsic airway neurons. Pretreatment with CP-99994, an antagonist of neurokinin 1 receptor, attenuated the IL-1beta-induced hyperreactivity to ACh and MCh and to EFS in cultured tracheal segments. SP-containing neurons in longitudinal trunk, SP innervation of superficial muscular plexus neurons, and SP nerve fiber density in tracheal smooth muscle all increased after treatment with IL-1beta. These results show that IL-1beta-enhanced cholinergic airway smooth muscle contractile responses are mediated by the actions of SP released from intrinsic airway neurons.
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PMID:Interleukin-1beta-induced airway hyperresponsiveness enhances substance P in intrinsic neurons of ferret airway. 1237 42

All medullary central chemoreceptor sites contain neurokinin-1 receptor immunoreactivity (NK1R-ir). We ask if NK1R-ir neurons and processes are involved in chemoreception. At one site, the retrotrapezoid nucleus/parapyramidal region (RTN/Ppy), we injected a substance P-saporin conjugate (SP-SAP; 0.1 pmol in 100 nl) to kill NK1R-ir neurons specifically, or SAP alone as a control. We made measurements for 15 days after the injections in two groups of rats. In group 1, with unilateral injections made in the awake state via a pre-implanted guide cannula, we compared responses within rats using initial baseline data. In group 2, with bilateral injections made under anaesthesia at surgery, we compared responses between SP-SAP- and SAP-treated rats. SP-SAP treatment reduced the volume of the RTN/Ppy region that contained NK1R-ir neuronal somata and processes by 44 % (group 1) and by 47 and 40 % on each side, respectively (group 2). Ventilation (.V(E)) and tidal volume (V(T)) were decreased during air breathing in sleep and wakefulness (group 2; P < 0.001; two-way ANOVA) and P(a,CO2) was increased (group 2; P < 0.05; Student's t test). When rats breathed an air mixture containing 7 % CO(2) during sleep and wakefulness, .V(E) and V(T) were lower (groups 1 and 2; P < 0.001; ANOVA) and the Delta.V(E) in air containing 7 % CO(2) compared to air was decreased by 28-30 % (group 1) and 17-22 % (group 2). SP-SAP-treated rats also slept less during air breathing. We conclude that neurons with NK1R-ir somata or processes in the RTN/Ppy region are either chemosensitive or they modulate chemosensitivity. They also provide a tonic drive to breathe and may affect arousal.
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PMID:Substance P-saporin lesion of neurons with NK1 receptors in one chemoreceptor site in rats decreases ventilation and chemosensitivity. 1238 30

The neuropeptide substance P and its receptor, the neurokinin 1 receptor (NK(1)R) have been proposed as possible targets for new antidepressant therapies. The present study investigated the effect of the NK(1)R antagonist L-760,735 and the tricyclic antidepressant clomipramine in the chronic psychosocial stress paradigm of adult male tree shrews. Animals were subjected to a 7-day period of psychosocial stress before the onset of daily oral administration of L-760,735 (10 mg kg(-1) day(-1)) or clomipramine (50 mg kg(-1) day(-1)). The psychosocial stress continued throughout the treatment period of 28 days. Brain metabolite concentrations were determined in vivo by proton magnetic resonance spectroscopy. Cell proliferation in the dentate gyrus and hippocampal volume were measured post mortem. Stress significantly decreased in vivo concentrations of N-acetyl-aspartate (-14%), creatine and phosphocreatine (-15%) and choline-containing compounds (-15%). The proliferation rate of the granule precursor cells in the dentate gyrus was reduced (-45%), and hippocampal volume was decreased (-14%). The stress-induced changes of brain metabolites, hippocampal volume and dentate cytogenesis rate were prevented by concomitant drug administration. Elevated myo-inositol concentrations after both treatments hint to an astrocytic enhancement. These results suggest that-despite a different pharmacological profile-the NK(1)R antagonist L-760,735, a member of a novel class of antidepressant drugs, has comparable neurobiological efficacy to tricyclic antidepressants such as clomipramine.
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PMID:Substance P receptor antagonist and clomipramine prevent stress-induced alterations in cerebral metabolites, cytogenesis in the dentate gyrus and hippocampal volume. 1239 45

The potential for administering substance P (SP) nocitoxins for the treatment of chronic pain has been identified. To characterize treatment protocols for the spinal cord or elsewhere, binding/internalization of these compounds at the cellular targets must be understood quantitatively. Thus, a kinetic model of SP binding and intracellular trafficking has been developed from data. The eight differential equation model describes surface binding between SP and neurokinin 1 receptor, clathrin-mediated endocytosis followed by spatial translation to a perinuclear endosome where SP is sorted from its receptor, SP degradation in late endosomes/early lysosomes, and return of sorted receptor to plasma membrane via recycling endosomes. With suitably optimized parameters, the model accounts for the kinetics of total, membrane-associated, and internalized SP in cells continuously exposed to SP, as well as the fractions of internalized SP remaining intact at 30 and 60 min. Simultaneously, the model accounts for the kinetics of internalization and receptor recycling after SP preloading of membrane and subsequent exposure to SP-free media. Rate constants (min(-1)) are: 0.034 +/- 0.004 (receptor off-rate), 0.15 +/- 0.03 (internalization), 0.048 +/- 0.003 (exit from sorting endosome), 0.062 +/- 0.008 (exit of labeled SP amino acids from prelysosome), and 0.029 +/- 0.004 (receptor return from recycling endosome to plasma membrane). The SP kinetics resemble those of transferrin and its receptor at the internalization step, but are several-fold slower in the sorting and recycling steps.
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PMID:A kinetic analysis of substance P trafficking. 1253 72

Tachykinins (TKs), which include substance P, neurokinin A and neurokinin B, constitute a group of neuropeptides widely expressed in the CNS where they play several functions connected with neural modulation often in synergy with glutamate excitatory transmission. The aim of this study was to assess whether TKs modulate glutamate response of in vitro cultured cerebellar granule neurons and whether GSA (glutamate-sensitizing activity), a peptide released by these neurons, belongs to the TKs family. Treatment with substance P and other neurokinin 1 receptor (NK1) agonists does not affect the response of cerebellar granule neurons to glutamate toxicity. On the contrary, agonists neurokinin 2 receptor (NK2) and neurokinin 3 receptor (NK3) agonists increase, in a dose and time dependent fashion, the response of the same neurons to glutamate. MEN 10,627, a selective NK2 receptor antagonist, and (Trp(7),betaAla(8)) NKA (4-10), a selective NK3 receptor antagonist inhibit not only the sensitizing action to glutamate of their respective agonists. These antagonists almost equally reduce the glutamate-sensitizing activity of GSA. Such activity is also abolished in the presence of a polyclonal antibody directed against neurokinin B (NKB). These findings indicate that TKs increase glutamate sensitivity in cerebellar granule neurons and that the GSA previously detected in conditioned media of the same cultured neurons belongs to the TK family although its primary structure as compared to known TKs remains to be established.
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PMID:A tachykinin-like factor increases glutamate toxicity in rat cerebellar granule cells. 1255 29

Depression and anxiety are among the most common diseases in the United States, thus constituting a substantial financial burden for the health care system. Experimental studies of these affective disorders to date have largely focused on the neurotransmitter pathways with well-established pathophysiologic roles, such as serotonergic, noradrenergic, and gamma-aminobutyric acid (GABA)-ergic systems; agents modulating the activity of these pathways are known to be clinically effective. More recently, the neuropeptide substance P (SP) and its receptor (the neurokinin-1 receptor [NK1R]) have been implicated in the pathophysiology of affective disorders, including depression. Earlier preclinical and clinical studies, though, did not provide a clear consensus on the role of SP in the regulation of affective behavior and related pathologic conditions. Recent studies in mice clearly demonstrate that both the genetic disruption and acute pharmacologic blockade of the NK1R result in marked reduction in anxiety-like behavior and stress-related responses. In parallel with these behavioral effects, physiologic changes, such as an increased firing rate of 5-hydroxytryptamine (5-HT) neurons in the dorsal raphe nuclei and a desensitization of presynaptic 5-HT1A inhibitory autoreceptors, were observed. These findings provide further evidence for the regulatory role of the SP-NK1R system in modulation of affective behavior and indicate that its effects are mediated, at least in part, via the serotonergic system. Future studies will attempt to delineate the interaction between the SP-NK1R system and various neurotransmitter pathways in greater detail and to address the specific role(s) of this system in different brain regions.
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PMID:Behavioral and physiologic effects of genetic or pharmacologic inactivation of the substance P receptor (NK1). 1256 38


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