UNIPROT:P20366 - FACTA Search

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)

Acute intravenous administration of the selective D1 receptor blocker SCH-23390 resulted in an enhanced respiratory motor output as evidenced by the phrenic nerve activity, whereas local perfusion into the region of nucleus tractus solitarii had no effect. The increase in phrenic nerve activity was accompanied by a concomitant increase in the release of substance P in the region of nucleus tractus solitarii as measured by in vivo microdialysis technique. Chronic administration of SCH-23390 via subcutaneously implanted Alzet mini osmotic pumps, significantly decreased the level of preprotachykinin-A mRNA in the region of respiratory relay neurons in nucleus tractus solitarii but was without effect in the ventral medullary surface structure, wherein the central chemoreceptors are thought to be located. A smaller, but significant decrease was also seen in the striatum. The results suggest that chronic treatment with SCH-23390 leads to a disinhibition of an inhibitory dopaminergic input to the neurons in nucleus tractus solitarii from a suprapontine level, which may account for a subsequent inhibition of tachykinin-containing neurons in the nucleus tractus solitarii, the relay station for respiratory reflexes.
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PMID:Chronic treatment with SCH-23390, a selective dopamine D1 receptor blocker decreases preprotachykinin-A mRNA levels in nucleus tractus solitarii of the rabbit: role in respiratory control. 170 40

Striatal projections to the globus pallidus and entopeduncular nucleus are thought to be GABAergic and inhibitory. Thus, striatal lesions might be expected to increase the spontaneous discharge rate of neurons in these nuclei. To test this prediction, we recorded spontaneous single unit activity from awake cats sitting quietly before and 7-160 days after striatal lesions. Striatal lesions were produced by injecting ibotenic acid into the caudate nucleus and putamen. Median, standard deviation, mean, and coefficient of variation of the interspike intervals were calculated for each unit. In globus pallidus the striatal lesion resulted in a significant decrease in median interval length, i.e. an increase in the discharge rate. The prelesion median of 36 ms (S.E.M. = 2.3) decreased 11% to a postlesion value of 32 ms (S.E.M. = 2.1). The lesion also resulted in a significant decrease in the variability of interspike intervals. The coefficient of variation, 1.31 (S.E.M. = 0.08) before the lesion, decreased 25% to 0.97 (S.E.M. = 0.06) after the lesion. In entopeduncular nucleus, the lesion had no statistically significant effect on the rate of activity, but a significant decrease in the variability of activity occurred. The median interval was 33 ms (S.E.M. = 3.3) before the lesion and decreased 2% to 32 ms (S.E.M. = 2.4). The coefficient of variation decreased 48% from 1.44 (S.E.M. = 0.1) to 0.73 (S.E.M. = 0.03). These observations support the hypothesis that loss of GABAergic inputs to the globus pallidus results in disinhibition. The discharge rate in entopeduncular nucleus was not affected by the striatal lesion, suggesting that striatal substance P or subthalamic excitatory inputs may have a role in regulating discharge rate in the entopeduncular nucleus.
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PMID:Effects of excitotoxic striatal lesions on single unit activity in globus pallidus and entopeduncular nucleus of the cat. 281 42

A number of in vitro preparations of the central nervous system have been used to characterize with intracellular recording the cellular actions of four neuropeptides. Carnosine, the putative excitatory neurotransmitter of olfactory nerves, was found to exert little or no effect in the turtle or the frog olfactory bulb, suggesting that this peptide may have other roles, e.g. neurotropic, in this system. Substance P and TRH were found to have some characteristics of a classical excitatory transmitter since they increase membrane conductance and depolarize frog motoneurons by a direct action. However, the slow time course and subthreshold nature of the depolarization may imply that these peptides function in a background manner to set the level of excitability of motoneurons. Finally, the effects of enkephalin on a variety of inhibitory systems have been examined. Enkephalin excites hippocampal pyramidal cells indirectly by blocking both spontaneous and evoked inhibitory potentials. In addition, both feedforward and feedback inhibitory pathways are depressed by enkephalin. All these effects are blocked by naloxone. Blockade of inhibitory pathways by enkephalin appears to be a general phenomenon, since similar depressant effects were seen for dendrodendritic inhibition in olfactory bulb mitral cells as well as for presynaptic inhibition of spinal primary afferents. These results indicate that neuroactive peptides can affect principal neurons by increasing their excitability via either subthreshold excitation or disinhibition.
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PMID:Peptides as putative excitatory neurotransmitters: carnosine, enkephalin, substance P and TRH. 615 51

The effect of an injection of substance P into the subarachnoid space was studied on a motor and a sensory response elicited by supramaximal stimulation of the sural nerve in spinal rats. Substance P 10 micrograms depressed the reflex activation in the electromyogram recorded from the ipsilateral tibialis anterior muscle; the depression was significant 5 and 10 min after the injection. Substance P 10 micrograms reduced the activity in ascending axons of the spinal cord evoked by stimulation of afferent C fibres; the effect developed slowly, lasted longer than 60 min and was abolished by an i.v. injection of nalaoxone 0.2 mg/kg. Only half the number of ascending axons tested showed a depression by substance P, and the administration of a higher dose (50 micrograms) did not produce an effect in a greater number of axons. Substance P did not influence the activity evoked in ascending axons by stimulation of afferent A beta and A delta fibres. The depression by substance P of ascending nocieceptive activity was antagonized by an i.v. injection of naloxone 0.2 mg/kg. When naloxone 0.2 mg/ng i.v. was administered alone, it increased the activity in ascending axons activated by afferent C fibre stimulation. It is concluded that (i) substance P depresses spinal nociceptive activity without the intermediation of endorphinergic neurons, and (ii) naloxone antagonizes tonic inhibition of the spinal nociceptive system mediated by endogenous opioid peptides and, by facilitating excitatory transmission through disinhibition, neutralizes the depression produced by substance P.
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PMID:Intrathecal substance P depresses spinal motor and sensory responses to stimulation of nociceptive afferents--antagonism by naloxone. 618 Mar 30

In this article I have examined various aspects of the complex spatio-temporal patterning of peptidergic signaling that lead to synchronized development of neural events for the preovulatory LHRH discharge on proestrus. Undoubtedly, the integration of these events is orchestrated by both ovarian steroids, E2 and P. Evidence accumulated in recent years has failed to affirm the perceived notion that E2 is an adequate peripheral signal for the timely, robust discharge of LHRH on proestrus. The current understanding is shaped by the thesis that the concerted central actions of E2 and P are mediated by a host of regulatory peptides produced locally in the hypothalamus, and steroids, in general, augment the production and release of both inhibitory and excitatory peptides in a timely fashion to facilitate the preovulatory LHRH discharge. Since these peptidergic pathways appear mandatory for signal transfer, considerable recent research has been devoted first to identifying the signals that selectively participate in the induction of preovulatory LHRH (LH) surge, and then to trace the route of signal transmission that ultimately leads to LHRH hypersecretion on the afternoon of proestrus (Fig. 1). The peptidergic pathways that propagate and transmit impulses for the preovulatory LHRH discharge reside in the SCN-MPN-MPOA-ARC-ME neural complex (Fig. 1). The timely initiation of these impulses is entrained to the photo-periodic input reaching the SCN by the retino-hypothalamic tract. The evidence is already in place to show that further information processing is transduced in the MPN; however, the nature of neurochemical signaling between the two sites remains to be deciphered. The available evidence favors a mandatory participation of inhibitory (EOP and NPK) and excitatory (NPY, GAL, NT, and AII) messenger molecules within the SCN-MPN-MPOA-ARC-ME complex (Fig. 1). It is possible that the relevant information from the SCN-MPN is conveyed caudally to the ARC in order to initiate a chain of events for disinhibition/excitation of the NPY-EOP network and to affect LHRH neurosecretion at the perikaryal level in the MPOA and at axon terminals in the ME. Also, either concurrently or on a time-delayed basis, the relevant information from the MPN may be relayed to the MPOA via the local peptidergic network comprised of NT, EOP, NPK, and GAL. This transmission may initially be critical for elicitation of antecedent neurosecretory events in the ME and to ultimately evoke the preovulatory LHRH surge.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mandatory neuropeptide-steroid signaling for the preovulatory luteinizing hormone-releasing hormone discharge. 826 4

Tachykinins inhibit salt appetite when applied intracranially in a number of brain regions and may function as endogenous inhibitors of sodium intake. To test the hypothesis that induced increases in salt appetite might involve disinhibition via a reduction in endogenous tachykinin expression, we used a semi-quantitative in situ hybridization analysis to investigate changes in brain areas expressing preprotachykinin-A (PPT-A) and preprotachykinin-B (PPT-B) mRNAs of rats after 1 day of sodium depletion (1d Na dep). PPT-A mRNA levels were detected in neurons of the olfactory tubercle (Tu), the nucleus of the olfactory tubercle (LOT), the dorsal and ventral caudate-putamen (d-CPu and v-CPu), the bed nucleus of the stria terminalis (BNST), the medial preoptic area (mPOA), the habenula (Hb) and the postero-dorsal part of the amygdala (MePD). PPT-B mRNA levels were measured in fundus striati (FStr), d-CPu, v-CPu, BNST, mPOA, dorsomedial hypothalamic nucleus (DMD), arcuate nucleus (Arc), central amygdaloid nucleus (CeL), basolateral amygdaloid nucleus (BLV), LOT, Hb and basal nucleus of Meynert (B). 1d Na dep reduced by 33-61% the mean number of PPT-A grains/cell in Tu, LOT, d-CPu, BNST, mPOA, Hb and MePD compared to control animals. Levels of PPT-B mRNA were not reduced as much by 1d Na dep, although statistically significant reductions of 26, 34 and 17% were found in v-CPu, BNST and B, respectively. These findings, therefore, support the hypothesis that endogenous tachykinins exert an inhibitory influence over sodium appetite.
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PMID:In situ hybridization analysis of preprotachykinin-A and -B mRNA levels in short-term sodium depletion. 938 74

Sensitization is manifested as an increased response of neurones to a variety of inputs following intense or noxious stimuli. It is one of the simplest forms of learning and synaptic plasticity and it represents an important feature of nociception. In the spinal cord, repeated stimulation (at constant strength) of dorsal root afferents including nociceptive C fibres can elicit a progressive increase in the number of action potentials generated by motoneurones and interneurones. This phenomenon is termed "action potential windup" and is used as a cellular model of pain sensitization developing at the level of the central nervous system. Understanding the mechanisms responsible for windup generation might allow clarification of the cellular mechanisms of pain signalling and development of new strategies for pain treatment. Action potential windup is observed in a minority of cells only, indicating that certain cell-specific mechanisms are responsible for its generation. The most reliable index to predict windup generation is the rate at which the membrane potential is depolarized during repetitive stimulation. This phenomenon has been proposed to be due to gradual recruitment of NMDA receptor activity, to summation of slow excitatory potentials mediated by substance P (and related peptides) or to facilitation of slow calcium channels by metabotropic glutamate receptors. Little is known about the role of synaptic inhibition in windup, although it should not be underestimated. Each theory per se is unable to account for all the experimental observations. Since NMDA receptors are involved in many forms of synaptic plasticity, additional mechanisms such as summation of slow peptidergic potentials, facilitation of slow Ca2+ currents and disinhibition are proposed as necessary to impart specificity to pain-induced sensitization. These additional mechanisms might be species specific and change during development or chronic pain states.
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PMID:Sensitization of pain pathways in the spinal cord: cellular mechanisms. 948 3

We examined two possible mechanisms of neuropathic pain: contribution of adjacent intact nerves and decrease in presynaptic inhibition at the central terminal of the injured primary afferent. To this end, we examined the effects of unilateral L5 spinal nerve ligation, which causes mechanical allodynia and heat hyperalgesia in the ipsilateral hind paw, on gene expression in L4 and L5 dorsal root ganglion (DRG) neurons using in situ hybridization (ISH). Specifically, we examined changes in the expression of messenger RNAs (mRNAs) for neuropeptides which have been reported to be up- or down-regulated in the axotomized DRG neurons and for gamma-aminobutyric acid (GABA)A receptor (GABA(A)-R) subunits which contribute to presynaptic inhibition at the primary afferent terminals. Seven days following ligation, ISH demonstrated an increase in signal intensity for calcitonin gene-related peptide (CGRP) mRNA in the subpopulation of small-to medium-sized L4 DRG neurons ipsilateral to the ligation which were not directly injured as compared to the contralateral side, although the overall percentages and the size distribution of positively labelled neurons for CGRP mRNA were not different between the bilateral L4 DRGs. This suggests that the L4 DRG neurons which express CGRP mRNA constitutively up-regulated the gene expression and the functional importance of these neurons has increased following L5 spinal nerve ligation. However, the mRNAs for other neuropeptides such as preprotachykinin (PPT), vasoactive intestinal polypeptide (VIP), neuropeptide Y (NPY), and galanin (GAL), were not different between the bilateral L4 DRGs. The mRNA for the GABA(A)-Rgamma2 subunit was significantly down-regulated in the medium- to large-sized L5 DRG neurons ipsilateral to the ligation as compared to the contralateral side. GABA(A)-Ralpha2 subunit mRNA also decreased in the ipsilateral L5 DRG neurons but did not reach statistical significance. There was no difference in mRNAs between the bilateral L4 DRGs. These data suggest that the presynaptic disinhibition of the ipsilateral L5 primary afferent terminals may be explained at least partly by the down-regulation of GABA(A)-R following L5 spinal nerve ligation. Thus, both the up-regulation of CGRP in adjacent intact nerves and the decrease in presynaptic inhibition at the central terminal of the injured primary afferent could cause the hyper-excitability of dorsal horn neurons and contribute to the molecular mechanisms of this neuropathic pain model.
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PMID:Change in mRNAs for neuropeptides and the GABA(A) receptor in dorsal root ganglion neurons in a rat experimental neuropathic pain model. 982 8

BRAIN AND BLOOD PRESSURE IN EXPERIMENTAL ANIMALS: Our experiments in models of experimental hypertension in the rabbit in the early 1970s demonstrated that increased activity of bulbospinal pressor neurons containing noradrenaline or serotonin mediated the elevated arterial blood pressure. Other workers had demonstrated decreased activity of noradrenergic neurons in the medulla. Accordingly, I proposed the hypothesis that the hypertension in these models arose from 'disinhibition', due to unrestrained activity of descending pressor pathways, released from the inhibitory influences present in normal animals. Over the next 15-20 years, experiments from our group and from other laboratories demonstrated that there were two distinct bulbospinal pressor pathways descending from the rostral ventral medulla, one containing adrenaline, neuropeptide Y and glutamate, and the other containing serotonin, substance P and glutamate. It has also been established that the key depressor area is in the caudal ventrolateral medulla and that the main inhibitory input, restraining the activity of the bulbospinal pressor pathways, is a short gamma-aminobutyric acid (GABA) projection ascending from the caudal ventrolateral medulla to the rostral ventral medulla. More recent experiments in the spontaneously hypertensive rat (SHR) using the immediate-early gene c-fos as a marker of neuronal activity, have demonstrated that impaired activity of this short inhibitory GABA pathway in the SHR disinhibits the bulbospinal pressor pathway, thus contributing to the hypertension in this model. BLOOD PRESSURE AND STROKE IN HUMANS: The risks of primary stroke and of secondary or recurrent stroke are both directly related to the level of blood pressure and clinical trials have clearly demonstrated that lowering blood pressure markedly reduces the incidence of primary stroke. The Perindopril Protection Against Recurrent Stroke Study (PROGRESS) was launched to test the hypothesis that lowering the blood pressure in subjects who have already had a stroke or a transient ischaemic attack will also reduce the risk of stroke. A major unresolved issue for practising clinicians is how to manage the raised blood pressure that is so common in the acute phase of stroke. Accordingly, the PROGRESS investigators are planning another major multinational trial to assess the benefits and risks of lowering blood pressure in the first 3 days after the onset of a stroke.
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PMID:Volhard Lecture. Brain, blood pressure and stroke. 988 69

Isolated myenteric ganglion networks were used in a perifusion protocol to characterize the response of interstitial adenosine levels to changes in prevailing PO2. The biological activity of such adenosine was assessed using inhibition of release of substance P (SP) as a functional measure of adenosine activity, and the effect of altered O2 tension on both spontaneous and elevated extracellular K+ concentration-evoked SP release from networks was determined over a range of PO2 values from hypoxic (PO2 = 54 mmHg) to hyperoxic (PO2 = 566 mmHg). Release of SP was found to be sensitive to PO2, and a linear graded relationship was obtained. Perifusion in the additional presence of the adenosine A1-receptor-selective antagonist 1,3-dipropyl-8-cyclopentylxanthine (DPCPX) revealed considerable adenosinergic inhibition with an inverse exponential relationship and hyperoxic threshold PO2. Disinhibition of evoked SP release by DPCPX in the absence of TTX was double that observed in its presence, indicating a neural source for some of the adenosine released during hypoxia. A postulated neuroprotective role for adenosine is consistent with the demonstrated relationship between interstitial adenosine and prevailing O2 tension.
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PMID:Endogenous interstitial adenosine in isolated myenteric neural networks varies inversely with prevailing PO2. 1019 30

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