UNIPROT:P20366 - FACTA Search

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Extensive evidence indicates that disruption of cholinergic function is characteristic of aging and Alzheimer's disease (AD), and experimental manipulation of the cholinergic system in laboratory animals suggests age-related cholinergic dysfunction may play an important role in cognitive deterioration associated with aging and AD. Recent research, however, suggests that cholinergic dysfunction does not provide a complete account of age-related cognitive deficits and that age-related changes in cholinergic function typically occur within the context of changes in several other neuromodulatory systems. Evidence reviewed in this paper suggests that interactions between the cholinergic system and several of these neurotransmitters and neuromodulators--including norepinephrine, dopamine, serotonin, GABA, opioid peptides, galanin, substance P, and angiotensin II--may be important in learning and memory. Thus, it is important to consider not only the independent contributions of age-related changes in neuromodulatory systems to cognitive decline, but also the contribution of interactions between these systems to the learning and memory deficits associated with aging and AD.
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PMID:The role of interactions between the cholinergic system and other neuromodulatory systems in learning and memory. 167 82

Although it seems highly likely that mammalian isocortex evolved from a structure resembling reptilian telencephalic cortex, it has been uncertain if this occurred by the laminar differentiation of three-layered reptilian cortex into six-layered mammalian isocortex without the addition of new cell types or by laminar differentiation with the addition of new cell types. To distinguish between these two possibilities, immunohistochemical techniques were used to study turtles to see if the same major neuronal cell types, as defined by neurotransmitter or neuropeptide content, present in mammalian isocortex are also present in the specific part of reptilian cortex thought to be the forerunner of at least parts of isocortex, namely the dorsal cortex. Neurons containing the following substances are the major transmitter-specific types of neurons known to be present in mammalian isocortex: cholecystokinin-8 (CCK8), vasoactive intestinal polypeptide (VIP), acetylcholine, substance P (SP), neuropeptide Y (NPY), somatostatin (SS), LANT6, enkephalin, GABA and glutamate (GLUT). In turtles, only those of the above substances that are found in large numbers of neurons in layers V-VI in mammalian isocortex, irrespective of whether they are also present in layers II-IV (i.e. SP, NPY, SS, LANT6, GABA and GLUT), were present in neurons in dorsal cortex. The neurons containing these substances in dorsal cortex in turtles were generally highly similar in morphology to their counterparts in mammalian isocortex. In contrast, neurons labeled for CCK8, VIP or acetylcholine, which are mainly found in neurons of layers II-IV of mammalian isocortex, were absent or extremely rare in dorsal cortex. The absence or paucity of neurons labeled for these latter substances in dorsal cortex in turtles did not reflect an overall staining failure of the antisera used since the same antisera yielded excellent labeling of neurons, fibers and terminals in many other brain regions in turtles. Thus, dorsal cortex in turtles appears to lack several of the major cell types characteristic of layers II-IV of mammalian isocortex, but possesses a number of the major cell types characteristic of layers V-VI of isocortex. The findings support and extend a previous suggestion by Ebner [1976], based on hodological data, that dorsal cortex in turtles may lack the types of neurons found in the more superficial layers of mammalian isocortex.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A comparison of neurotransmitter-specific and neuropeptide-specific neuronal cell types present in the dorsal cortex in turtles with those present in the isocortex in mammals: implications for the evolution of isocortex. 168 5

1. Each segmental ganglion of the leech Hirudo medicinalis contains 6 touch (T) cells, 4 pressure (P) cells and 4 nociceptive (N) cells. The receptive terminals of these cells innervate the skin in discrete areas. These cells are known to have extrasynaptic receptors. 2. We tested the effect of transmitter substances present in leech CNS on the sensitivity of T and P cells to mechanical stimuli. Substances tested included octopamine, FMRFamide, proctolin, substance P, glutamate, GABA, acetylcholine and serotonin. 3. Only acetylcholine and serotonin had consistent effects. Serotonin (1 x 10(-3) M) increased the number of action potentials of T cells elicited by a standard stimulus. Serotonin (1 x 10(-4) M) and acetylcholine (1 x 10(-3) M) increased the number and frequency of action potentials in P cells.
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PMID:Neuromodulatory effects of acetylcholine and serotonin on the sensitivity of leech mechanoreceptors. 168 9

1. The pharmacological profile of a tachykinin antagonist, [D-Arg1, D-Trp7,9, Leu11] substance P (spantide), was studied on motoneurones of the isolated spinal cord of the newborn rat. For this purpose, potentials were recorded from a lumbar ventral root extracellularly and drugs were bath-applied in the presence of tetrodotoxin (TTX). 2. Neurokinin A (NKA), a NK2-receptor selective agonist, induced concentration-dependent depolarizations, which were antagonized by spantide. Analyses of concentration-response curves suggested a competitive type antagonism with a pA2 of 6.5. 3. Depolarizations induced by acetyl-Arg6-septide, a NK1-receptor selective agonist, were also antagonized by spantide with a pA2 of 6.5. 4. Spantide (0.5-16 microM) had no depolarizing action on the ventral root in the presence of TTX. 5. Spantide antagonized the depolarizing action of substance P (SP) when SP was applied at low concentrations (0.1-0.3 microM) or by short duration pulses in artificial cerebrospinal fluid containing TTX, but much higher concentrations of spantide (4-10 microM) were needed to exert an antagonistic action against SP than against acetyl-Arg6-septide or NKA. 6. Thyrotrophin-releasing hormone, L-glutamate, GABA, and noradrenaline, also induced depolarizations of the ventral root in the presence of TTX but the responses to these agonists were not depressed by spantide (16 microM). 7. These results suggest that there is a subtype of tachykinin receptors on neonatal rat spinal motoneurones to which NKA, acetyl-Arg6-septide and spantide bind competitively with high affinity. The present results also suggest the existence on rat motoneurones of another class or other classes of tachykinin receptors that are less sensitive to the antagonistic action of spantide.
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PMID:Pharmacological profile of a tachykinin antagonist, spantide, as examined on rat spinal motoneurones. 169 96

The volume-evoked micturition reflex (VEMR) is under the control of a complex vesico-spino-bulbo-spino-vesical reflex arc. When functional this system provides for the storage and retention of urine and its subsequent efficient expulsion by virtue of a joint contraction of the bladder and synergic relaxation of the urethral sphincter. Transection of the spinal cord results in an initial disruption of this organization (areflexia) followed by a time-dependent change in the characteristics of the functioning of this reflex system. The growth of knowledge of the pharmacology of spinal systems has yielded considerable information on the potential spinal neurotransmitter systems and their associated receptors. Given the possible role of such systems in mediating and modulating the VEMR, a reasonable approach has been to investigate the effects of spinally administered agonists and antagonists in unanaesthetized animals in which the VEMR can be examined. Thus, it appears that the initial state of bladder distension is signalled by larger (A type) afferent fibres. After spinal injury and the loss of this supraspinal control, smaller unmyelinated C fibres play a predominant role in controlling this reflex. On stimulation these C fibres release peptides (VIP, CCK, substance P, CGRP) and excitatory amino acids (glutamate). Studies in this laboratory have shown that whereas administration of these peptides is without effect in normal intact rats, the antagonists for glutamate and VIP receptors (but not CCK) produce a dose-dependent increase in spontaneous bladder contractions with a corresponding decrease in the volume required to evoke a VEMR. Other spinal systems, such as those for opioids and GABA, are known to exert modulatory effects upon spinal somatomotor reflex arcs. In the spinal cord these agonists (mu/delta and GABAA/B) produce discrete changes in the VEMR in intact and spinally transected animals. Thus these studies may provide insight into the coordinated mechanisms which govern the VEMR and may also allow the development of pharmacological approaches to managing the dysfunctional bladder.
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PMID:The spinal pharmacology of urinary function: studies on urinary continence in the unanaesthetized rat. 169 10

The striatonigral pathway contains several neurotransmitters which may regulate the activity of the nigrostriatal dopamine projection in the rat. This was investigated by measuring extracellular dopamine levels in the striatum, using microdialysis, after injections of GABA (300 nmol/0.2 microliters), dynorphin A (0.5 nmol/0.2 microliters), substance P (0.07 mnol/0.2 microliters) or neurokinin A (0.09 nmol/0.2 microliters) into the ipsilateral substantia nigra, pars reticulata (SNR). Intranigral injections of GABA or dynorphin A inhibited, while intranigral injections of substance P or neurokinin A stimulated dopamine levels in the ipsilateral striatum. In rats with ibotenic acid lesions (2.5 micrograms/0.5 microliters) in the SNR, intranigral injections of GABA or dynorphin A inhibited, while intranigral injections of substance P or neurokinin A stimulated dopamine levels in the ipsilateral striatum. These responses were not significantly different than those in unlesioned rats. Analysis of the intranigral lesion with in situ hybridization revealed a heavy loss of glutamic acid decarboxylase mRNA expression in the SNR and a significant loss of tyrosine hydroxylase (TH) mRNA expression in the SNC. Immunohistochemical analysis revealed a disappearance of TH-Like immunoreactivity (LI) im dendrites in the SNR, a considerable loss of TH-LI cell bodies in the SNC and a restricted loss of neuropeptide K-LI in the SNR around the tip of the injection cannula. Furthermore, lesioned rats rotated ipsilateral to the lesion after apomorphine (1 mg/kg, s.c.), indicating that the basal ganglia output mediated via the SNR GABA neurons was impaired on the lesioned side. Analysis of the striatum revealed that a dense TH-LI fiber network could still be seen on the lesioned side. Furthermore, basal and amphetamine stimulated extracellular dopamine levels in the striatum on the lesioned side were not significantly depleted. This indicates that the ascending nigrostriatal dopamine projection was functionally intact on the lesioned side. These findings indicate that intranigral GABA, dynorphin A, substance P and neurokinin A modulation of ipsilateral striatal dopamine release is mediated via direct action on the nigrostriatal projection. Thus, it is suggested that the striatonigral pathway, which contains GABA, dynorphin, substance P and neurokinin A, exerts a direct regulatory effect on the activity of the nigrostriatal dopamine projection.
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PMID:Striatonigral GABA, dynorphin, substance P and neurokinin A modulation of nigrostriatal dopamine release: evidence for direct regulatory mechanisms. 170 47

The glycinergic system in goldfish retina was studied by immunocytochemical localization of glycine antiserum at the light-microscopical level. Numerous amacrine cells, a type of interplexiform cell, interstitial cell, and displaced amacrine cell were glycine-immunoreactive (IR). Amacrine cells, accounting for 97% of the glycine-IR neurons, were of four types based solely on their level of dendritic stratification: stratified amacrine cells of the first, third, and fifth sublayers and bistratified amacrine cells of the first and fifth sublayers. Double-labeling experiments were carried out to determine possible co-localization of glycine-IR with GABA-IR, serotonin-IR, substance P-IR and somatostatin-IR. No evidence for co-localization of glycine-IR with these other transmitter substances was found, despite reports of co-localization of these substances in retinas of other species. Glycinergic neurons in goldfish retina appear to consist of a heterogeneous population of at least seven morphologically distinct subtypes that are also neurochemically distinct in regard to GABA, serotonin, substance P, and somatostatin. Since dendritic stratification in the inner plexiform layer is correlated with ON-, OFF-response types, we suggest that the subtypes of glycine-IR amacrine cells play different roles in the encoding of visual information.
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PMID:Multiple subtypes of glycine-immunoreactive neurons in the goldfish retina: single- and double-label studies. 170 19

Immunocytochemical studies of the vestibular nuclei (VN) were done in the squirrel monkey and cat using polyclonal antisera. Brain stem sections were processed using the Avidin-Biotin peroxidase complex with diaminobenzidine as the chromagen. Choline acetyltransferase immunoreactivity (ChAT-IR) was most prevalent in the caudal medial (MVN), inferior (IVN) and peripheral superior (SVN) VN. Nearly all cells of groups x and z were ChAT-positive. None of the giant cells of the lateral vestibular nucleus (LVN) was ChAT-IR. Glutamate immunoreactivity (GLU-IR) was abundant in all VN and in cells of the vestibular ganglion (VG). Gamma-aminobutyric acid immunoreactivity (GABA-IR), was found in cells of rostral MVN, cell group y and in granules about giant cells in dorsal LVN. Substance P immunoreactive (SP-IR) was present in a small cells in MVN, IVN and the VG and in granules surrounding all large cells in LVN in both monkey and cat; SP-IR granules were most intense in ventral LVN in the monkey. Some cells in the dorsal parts of the fastigial nucleus (FN) were outlined by SP-IR granules in both species. Leucine-enkephalin immunoreactivity (ENK-IR) was identified only in granules surrounding cells of group x in the monkey. GLU was the only immunoreactive substance found in the giant cells of LVN. The disposition of ChAT-IR in the VN suggested participation in commissural systems, as well as projections to spinal cord and/or cerebellum. Small GABA-IR neurons in MVN probably represented both commissural and projection neurons; GABA-IR granules about cells in dorsal LVN and some cells in MVN and SVN appeared to represent Purkinje cell (PC) terminals. SP-IR granules surrounding cells in ventral LVN appeared to represent terminals of small SP-positive VG cells. The source of SP-IR granules around cells in dorsal LVN and some cells in FN and SVN remains unknown, but these fibers may originate from portions of the reticular formation known to contain large numbers of SP-positive neurons.
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PMID:Immunocytochemical features of the vestibular nuclei in the monkey and cat. 170 74

Two largely separate populations of neuropeptide-containing striatonigral projection neurons have been distinguished in pigeons, one population whose neurons contain substance P (SP) and dynorphin (DYN) and a second population whose neurons contain enkephalin (ENK) (Reiner, '86a; Anderson and Reiner, '90a). In the present study, we investigated the abundance of these two types of neurons relative to all striatonigral projection neurons by combining retrograde labeling by the fluorescent dye fluorogold with immunofluorescence labeling for SP and ENK. Pigeons received large intranigral injections of fluorogold to retrogradely label the striatonigral projection neurons, and several days later they were treated with colchicine (32 hours before transcardial perfusion). Adjacent series of sections through the basal ganglia were labeled for SP and ENK using immunofluorescence techniques. The tissue was examined using fluorescence microscopy and the percentages of retrogradely labeled neurons containing either SP or ENK were quantified. We found that 85-95% of the fluorogold-labeled striatonigral neurons were SP+, whereas only 1-4% were ENK+. Thus the majority of striatonigral projection neurons in pigeons appear to contain SP, whereas a small percentage contain ENK. Only a small percentage of striatonigral neurons did not contain either. Since striatal projection neurons also contain GABA (Reiner, '86b), the present results suggest that a high percentage of striatonigral projection neurons coexpress SP, DYN and GABA, whereas a small fraction coexpress ENK and GABA. The available data are consistent with the conclusion that this is true in reptilian and mammalian species as well.
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PMID:Striatonigral projection neurons: a retrograde labeling study of the percentages that contain substance P or enkephalin in pigeons. 170 24

In the present work we examined the effect of the neutralization of endogenous substance P by the administration of an anti-substance P serum (ASPS) on GABA concentration in the anterior pituitary in hyperprolactinemic conditions induced by 5-hydroxytryptophan or by grafting anterior pituitaries. ASPS reduced the increase in the anterior pituitary GABA concentration induced by hyperprolactinemia. In vitro experiments showed that substance P inhibited K(+)-evoked GABA efflux from hypothalamic fragments and decreased GABA concentration in the anterior pituitary but ASPS increased it. Our results demonstrate that substance P modifies hypothalamic GABA release and anterior pituitary GABA concentration and suggest that an interaction exists between substance P and GABA.
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PMID:Substance P affects the GABAergic system in the hypothalamo-pituitary axis. 170 34

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