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)

Biochemical assays on microdissected samples, denervation studies, subcellular fractionation, and light and electron microscopic autoradiography of high affinity uptake have been performed to study the cellular localization of transmitter candidates in the rat hippocampal formation. High affinity uptake of glutamate and aspartate is localized in the terminals of several excitatory systems, such as the entorhino-dentate fibres (perforant path), mossy fibres (from granular cells) and pyramidal cell axons. Thus, in stratum radiatum and oriens of CA1, 85% of glutamate and asparate uptake and 40% of glutamate and aspartate content are lost after lesions of ipsilateral plus commissural fibres from CA3/CA4. Hippocampal efferents also take up aspartate and glutamate, since these activities are heavily reduced in the lateral septum and mamillary bodies after transection of fimbria and the dorsal fornix. The synthesis (by glutamic acid decarboxylase), content and high affinity uptake of gamma-aminobutyrate (GABA) are not reduced after lesions of these or other projection fibre systems. A localization in intrinsic neurons is confirmed by a selective loss of glutamic acid decarboxylase after local injections of kainic acid. Peak concentrations of the enzyme occur near the pyramidal and granular cell bodies, corresponding to the site of the inhibitory basket cell terminals, and in the outer parts of the molecular layers. Some 85% of glutamic acid decarboxylase is situated in 'nerve ending particles'. Acetylcholine synthesis (by choline acetyltransferase) disappears after lesions of septo-hippocampal fibres. Since 80% of the hippocampal choline acetyltransferase is in 'nerve ending particles', the characteristic topographical distribution of this enzyme should reflect the distribution of cholinergic septo-hippocampal afferents. Serotonin, noradrenaline, dopamine and histamine are located/synthesized in afferent fibre systems. Some monoamine-containing afferents to the hippocampal formation pass via the septal area, others via the amygdala. The hippocampal formation also contains nerve elements reacting with antibodies against neuroactive peptides, such as enkephalin, substance P, somatostatin and gastrin/cholecystokinin.
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PMID:Localization of putative transmitters in the hippocampal formation: with a note on the connections to septum and hypothalamus. 3 19

1. A morphological and physiological comparison was made between embryonically and postnatally derived superior cervical ganglion neurons (SCGN) grown in dissociated cell culture. It was found that while morphologically distinct, the physiological properties of the postnatal neurons were the same as their embryonic counterparts. 2. Intracellular injection of horseradish peroxidase (HPR) demonstrated that SCGN from any age of animal elaborated two basic types of processes, although the pattern of process ramification was unique for each neuron. The two types of proceses were 1) the large, smooth, rapidly tapering; and 2) the thin, nontapering variety, which often contained varicosities along its length. It is suggested that the former are dendritic in function, while the latter act as axons. 3. A difference was noted in somal size and the number of primary processes extended by the embryonic and postnatal neurons, with the latter more closely resembling the in vivo morphology. 4. Resting potentials and action-potential amplitudes of postnatal SCGN were comparable to those found previously for embryonic SCGN in vitro. 5. Iontophoretic application of putative neurotransmitter substances revealed the presence of acetylcholine receptors (AChR) on both embryonic and postnatal SCGN. Picrotoxin-sensitive depolarizing responses to iontophoresed gamma-aminobutyric acid (GABA) was seen on a few embryonic neurons, but not on the older cells. No responses were detected when norepinephrine (NE), glutamate, cAMP, substance P, or dopamine were applied to the SCGN of either age group. 6. Synatpic interaction between postnatal SCGN were found at an earlier in vitro age (12 days) than was the case for embryonic neurons (20 days). 7. Synaptic transmission was found to be chemical in nature. This was shown by 1) a dependence on external Ca2+ concentrations; 2) steplike fluctuations in synpatic potential amplitude, and 3) a variation in potential amplitude with changes in membrane potential. 8. It is concluded that the postnatal SCGN are able to survive in culture even when taken from animals up to 12.5 wk old. The elaboration of processes is in many ways strikingly similar to sympathetic neurons in the animal, and they are able to form functional synaptic interactions.
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PMID:Postnatal rat sympathetic neurons in culture. I. A comparison with embryonic neurons. 3 83

The isolated, hemisected spinal cord of the frog has been used to examine the action of peptides on frogs motoneurons. Both sucrose gap recording from the ventral roots and intracellular microelectrode recording were used. Substance P (SP), thyrotropin-releasing hormone (TRH), neurotensin and bombesin all had a depolarizing action. The responses to neurotensin and bombesin were blocked by tetrodotoxin suggesting that their action was indirectly mediated through interneurons. SP and TRH had a direct depolarizing action on motoneurons. SP was slightly more active and TRH slightly less active than glutamate. The responses to both peptides had a slower time course than the responses to glutamate. The maximum depolarizations produced by the peptides rarely surpassed the firing threshold of the motoneurons. However, their excitability was increased, since subthreshold synaptic potentials and responses to current injection surpassed threshold during the peptide responses. In approximately half of the cells tested, a small decrease in membrane resistance could be detected during the peptide responses. These results suggest that if SP and TRH were released from synapses impinging on frog motoneurons they would exert a background excitatory action.
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PMID:The action of thyrotropin-releasing hormone, substance P and related peptides on frog spinal motoneurons. 10 26

The possibility that L-glutamate is the excitatory transmitter at the Drosophila larval neuromuscular junction and the ionic basis of its action on the muscle membrane are examined. 2. Iontophoretically applied L-glutamate causes muscle depolarization (L-glutamate potential) if and only if the L-glutamate pipette is within a few mum of the nerve ending. D-glutamate, substance P, ACh and GABA are ineffective. 3. Bath-applied L-glutamate produces similar changes in the time course and amplitude of miniature excitatory junctional potential (m.e.j.p.), excitatory junctional potential (e.j.p.) and the L-glutamate potential. 4. Neuromuscular transmission and excitation-contraction coupling are operative in a haemolymph-like solution containing 1 mM L-glutamate. 5. The reversal potentials of the e.j.p. and the L-glutamate potential are identical to each other, changing similarly with changes in the ionic compositions of the external medium (twelve solutions). 6. The ionic dependence of the reversal potentials is predicted from an extended constant-field equation using a ratio of sodium:potassium permeabilities of PNa/PK=1-3, and a ratio of magnesium:potassium permeabilities of PMg/PK=4-7. 7. It is concluded that L-glutamate is, or is an agonist of, the excitatory transmitter at certain Drosophila larval neuromuscular junctions.
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PMID:L-glutamate as an excitatory transmitter at the Drosophila larval neuromuscular junction. 18 87

1. The actions of microelectrophoretically administered substance P on Renshaw cells in pentobarbitone anaesthetized cats were investigated. 2. The effects on spontaneous and synaptic firing and interactions with a number of other agents including acetylcholine, acetyl-beta-methylcholine, acidic amino acids, morphine, dihydro-beta-erythroidine and strychnine were studied in attempts to elucidate the mechanism of action of substance P. 3. Substance P usually selectively depressed the excitation by ACh, and also reduced submaximal synaptically evoked discharges which activate nicotinic receptors, but failed to modify excitation caused either by acetyl-beta-methylcholine, which activates muscarinic receptors, or excitation caused by glutamate or homocysteate. Substance P also depressed excitation by morphine which acted via the nicotinic receptors. 4. The inhibitory effect was not blocked by strychinine and was considered to be unlikely to be due to interaction between the polypeptide and either glycine or GABA receptors. 5. On some cells substance P caused excitation which was blocked by dihydro-beta-erythroidine. Mixed excitatory-inhibitory effects were observed on some of these neurones. 6. The results are discussed in relation to the possibility that substance P could function as a synaptic inhibitory mediator with an unusual selectivity of action.
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PMID:Substance P and Renshaw cells: a new concept of inhibitory synaptic interactions. 20 46

The specificity of the neurodepressant actions of D-alpha-aminoadipate, alpha,epsilon-diaminopimelic acid, HA-966 (HAP) and Mg2+ has been investigated. On the isolated spinal cord of the neonatal rat, ventral root depolarizations produced by kainate, substance P, carbachol and noradrenaline were relatively unaffected by the same concentrations (0.25--1 mM) of the agents as those which reduced synaptic activity and ventral root depolarizations produced by N-methyl-D-aspartate (especially), L-aspartate and L-glutamate. The same or higher concentrations of the agents did not affect excitatory transmission in the isolated rat superior cervical ganglion. It is proposed that the agents specifically block synaptic transmission mediated by an excitatory amino acid.
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PMID:Specific antagonism of excitant amino acids in the isolated spinal cord of the neonatal rat. 21 25

The activity of single, physiologically identified neurones has been recorded both extra- and intracellularly in the 6th and 7th lumbar segments of the pentobarbitone-anaesthetized cat. In the majority of dorsal horn neurones studies (laminae 4 and 5 of Rexed) microiontophoretically applied synthetic substance P and the active fragment, substance P (4--11), were found to cause a slow and prolonged increase of the spontaneous firing rate and/or an enhancement of L-glutamate induced activity. Intracellular studies revealed that substance P caused a reversible depolarization of both dorsal horn neurones and motoneurones without a detectable alteration of the membrane resistance, antidromic action potential or postsynaptic potentials. These results are compatible with a possible role of substance P in sensory transmission in the spinal cord of the cat.
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PMID:Effects of substance P on neurones in the dorsal horn of the spinal cord of the cat. 21 93

Mouse spinal neurons grown in tissue culture were used to examine the membrane mechanisms of action of the peptide substance P. Two functionally distinct actions were observed, one being a rapidly desensitizing excitation, and the other being a dose-dependent, reversible depression of excitatory responses to the putative amino acid neurotransmitter glutamate. These effects on excitability suggest that substance P may play more than one role in intercellular communication in the nervous system.
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PMID:Substance P: evidence for diverse roles in neuronal function from cultured mouse spinal neurons. 22 64

Glutamic acid decarboxylase (GAD, EC 4.1.1.15), the enzyme which catalyzes the alpha-decarboxylation of L-glutamate to form the neurotransmitter gamma-aminobutyric acid (GABA), was localized immunocytochemically in rat neostriatum, pallidum and entopeduncular nucleus. A large amount of GAD-positive reaction product was observed in both the pallidum and entopeduncular nucleus in light microscopic preparations and was localized ultrastructurally to axon terminalis that surrounded dendrites and large somata. In the neostriatum the relative numbers of GAD-positive axons terminals per unit area were substantially less than in the pallidum. GAD-positive terminals predominantly formed symmetric synapses with somata, dendrites and spines, but a small number of them formed asymmetric synapses with either dendrites or spines. The presence of GAD within these terminals is consistent with results of other investigations which have indicated that the striatopallidal and striatoentopeduncular pathways as well as neostriatal local circuit neurons and/or collaterals from neostriatal projection neurons, use GABA as a neurotransmitter. GAD-positive reaction product was also localized within the somata and dendrites of neostriatal and pallidal neurons in colchicine-injected preparations. The GAD-positive somata in the pallidum were medium-sized neurons and since such cells project to the substantia nigra, our results are in agreement with those from other studies which demonstrate a GABAergic, pallidonigral pathway. In the neostriatum, GAD-positive somata were identified light microscopically as medium-sized neurons with either round or fusiform shapes. Electron microscopic examinations also showed GAD-positive reaction product within the perikaryal and dendritic cytoplasm of these neurons, as well as in dendritic spines. These findings are in accord with the results of studies which have indicated that medium-sized, spinous neurons of the neostriatum give rise to a GABAergic, striatonigral pathway. The significance of GAD localization within these neostriatal neurons is discussed in relation to recent findings which show that substance P is contained within this same class of striatonigral projection neuron.
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PMID:The GABA neurons and their axon terminals in rat corpus striatum as demonstrated by GAD immunocytochemistry. 22 67

1 Behavioural and biochemical effects of substance P (SP, 1 to 10 mug) administered in a small volume to discrete areas of the rat's brain were studied by means of a refined microinjection technique.2 SP injected unilaterally into the zona reticulata of the substantia nigra elicited dose-dependent contraversive circling and an increase in dopamine turnover in the ipsilateral striatum. SP applied to the zona compacta or zona lateralis, or to the medial lemniscus, evoked ipsiversive turning with a fall in dopamine turnover and a rise in 5-hydroxytryptamine (5-HT) turnover in the corresponding striatum.3 In both cases the onset of turning was immediate, reached a peak at about 5 min and lasted for 10 min. Both types of behaviour were blocked by haloperidol and exaggerated by nialamide.4 Unilateral injections of SP given into the crus cerebri, zona incerta, caudate nucleus, putamen or globus pallidus did not modify the animal's behaviour.5 In rats pretreated with apomorphine or amphetamine, SP induced contraversive circling which was followed by locomotion in the opposite direction.6 Turning responses to a second dose of SP were diminished at 3 h and reproducible at 24 h after the first injection.7 Bacitracin (50 ng) injected into the zona reticulata caused ipsiversive turning. Larger intranigral doses of bacitracin (10 mug), as with intracisternal SP (10 mug), evoked ;barrel rotation'.8 No changes in the free concentrations of aspartate, glutamate, gamma-aminobutyric acid, glycine or alanine were detected in any brain region following an intracisternal injection of 10 mug SP, although glutamine levels were elevated throughout the brain 30 to 60 min later.
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PMID:Effects of substance P injected into the substantia nigra. 42 15

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