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)

The release of previously incorporated [3H]serotonin and its presynaptic modulation were studied in slices of rabbit superior colliculus. Electrical stimulation at frequencies of 0.017-3 Hz greatly increased the outflow of tritiated compounds; this response was almost abolished by tetrodotoxin and in a low calcium medium. Unlabelled serotonin, when added in the presence of nitroquipazine, an inhibitor of high-affinity neuronal serotonin uptake, reduced the electrically evoked overflow of tritium, an effect antagonized by metitepin. Given alone, metitepin caused an increase. The evoked overflow was also decreased by clonidine, and the effect of clonidine was counteracted by phentolamine. Phentolamine itself increased the overflow response. However, this was probably not due to antagonism against an inhibitory effect of endogenous noradrenaline because, first, the selective alpha 2-adrenoceptor antagonist idazoxan did not share with phentolamine the overflow-enhancing effect, second, phentolamine continued to increase the overflow after noradrenergic axons had been destroyed by 6-hydroxydopamine, and third, the facilitatory effects of metitepin and phentolamine were not additive. Phentolamine, like metitepin, antagonized the presynaptic inhibitory effect of serotonin, indicating that it may increase the evoked overflow of tritium by blocking serotonin receptors rather than alpha-adrenoceptors. Ethylketocyclazocine decrease the electrically evoked overflow, and its effect was prevented by naloxone: peptides selective for opioid mu- or delta-receptors caused no change. Nicotine increased the basal outflow of tritium (in the absence of electrical stimulation); the increase was attenuated by hexamethonium and low calcium medium. No or minimal changes in tritium outflow were obtained with beta-adrenoceptor, dopamine receptor, muscarine receptor and GABA receptor ligands or with substance P and glutamate. In conjunction with our previous studies, these results indicate that serotonin is a neurotransmitter in the superior colliculus. Its release is modulated through presynaptic autoreceptors (probably 5-HT1), alpha 2-adrenoceptors, opioid kappa-receptors and nicotine receptors, of which only the autoreceptors receive an endogenous input, at least under the experimental conditions chosen. Each of the three groups of collicular monoamine axons that we have studied recently (cholinergic, noradrenergic, serotoninergic) possesses a specific pattern of presynaptic, release-modulating receptors. A physiological role seems likely only for the alpha 2-autoreceptors at the noradrenergic and the 5-HT1-autoreceptors at the serotoninergic axons.
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PMID:Release and modulation of release of serotonin in rabbit superior colliculus. 255 33

We previously found that quinolinic acid striatal excitotoxin lesions result in a relative sparing of somatostatin and neuropeptide Y neurons. In the present study we examined dose-response effects of excitotoxins acting at the three subtypes of glutamate receptors: N-methyl-D-aspartate (AA1), quisqualate (AA2), and kainic acid (AA3). Concentrations of both somatostatin-like immunoreactivity (SLI) and neuropeptide a Y-like immunoreactivity (NPYLI) were compared with those of substance P-like immunoreactivity (SPLI) and GABA. Kainic acid (AA3), quisqualic acid (AA2), and AMPA (AA2) resulted in dose-dependent reductions in all four neurochemical markers examined, while N-methyl-D,L-aspartate (AA1) and quinolinic acid (AA1) resulted in relative sparing of SLI and NPYLI. At doses of each excitotoxin which resulted in comparable 50% reductions in both GABA and SPLI only N-methyl-D,L-aspartate and quinolinic acid had no significant effect on concentrations of SLI and NPYLI. The relative sparing of somatostatin-neuropeptide Y neurons was confirmed histologically by using histochemical staining for NADPH-diaphorase neurons combined with either Nissl stains, or immunohistochemical staining for enkephalin. Lesions with N-methyl-D-aspartate agonists resulted in preferential sparing of NADPH-diaphorase neurons while these neurons were more vulnerable than other neurons to kainic acid or AMPA. Choline acetyltransferase neurons were relatively spared, as compared with other neurons, by agents acting at all three glutamate receptor subtypes. N-methyl-D,L-aspartate lesions were blocked with MK-801, while there was no effect on quisqualic acid or kainic acid lesions. The relative sparing of somatostatin-neuropeptide Y neurons following striatal excitotoxin lesions with N-methyl-D-aspartate (AA1) agonists probably reflects a paucity of AA1 receptors on these neurons. Since these neurons are also spared in Huntington's disease, excitotoxins acting at the N-methyl-D-aspartate (AA1) site provide an improved neurochemical model of this illness.
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PMID:Differential sparing of somatostatin-neuropeptide Y and cholinergic neurons following striatal excitotoxin lesions. 256 16

Aluminum-induced neurofibrillary degeneration in rabbits is known to affect particular populations of neurons. The neurotransmitter alterations which accompany aluminum neurofibrillary degeneration were examined in order to assess how closely they mimic those of Alzheimer's disease. There was a significant reduction in choline acetyltransferase activity in entorhinal cortex and hippocampus as well as significant reductions in cortical concentrations of serotonin and norepinephrine in the aluminum-treated rabbits. Significant reductions in glutamate, aspartate and taurine were found in frontoparietal and posterior parietal cortex. Concentrations of GABA were unchanged in cerebral cortex. Both substance P and cholecystokinin immunoreactivity were significantly reduced in entorhinal cortex but there were no significant changes in somatostatin, neuropeptide Y and vasoactive intestinal polypeptide. The five neuropeptides were unaffected in striatum, thalamus, cerebellum and brainstem. Neurochemical changes were found in the regions with the most neurofibrillary degeneration while regions with little or no neurofibrillary degeneration were unaffected. The reductions in choline acetyltransferase activity, serotinin and noradrenaline suggest that some neuronal populations preferentially affected in Alzheimer's disease are also affected by aluminum-induced neurofibrillary degeneration; however, the cortical somatostatin deficit which is a feature of Alzheimer's disease is not replicated in the aluminum model.
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PMID:Neurochemical characteristics of aluminum-induced neurofibrillary degeneration in rabbits. 256 53

Immunohistochemical techniques were used to survey the distribution of several conventional transmitters, receptors, and neuropeptides in the pigeon nucleus of the basal optic root (nBOR), a component of the accessory optic system. Amongst the conventional neurotransmitters/modulators, the most intense labeling of fibers/terminals within the nBOR was obtained with antisera directed against glutamic acid decarboxylase (GAD) and serotonin (5-HT). Moderately dense fiber plexuses were seen to label with antibodies directed against tyrosine hydroxylase (TH) and choline acetyltransferase (ChAT). GAD-like immunoreactivity (GAD-LI) was found in many small and medium-sized perikarya within the nBOR. Some of the medium-sized cells were occasionally positive for ChAT-LI. Cell body and dendritic staining was also commonly seen with the two tested antisera against receptors-anti-GABA-A receptor and anti-nicotinic acetylcholine receptor. The antisera directed against various neuropeptides produced only fiber labeling within the nBOR. The densest fiber plexus staining was observed with antiserum against neuropeptide Y (NPY-LI), while intermediate fiber densities were seen for substance P (SP-LI) and cholecystokinin (CCK-LI). A few varicose fibers were labeled with antisera against neurotensin (NT), leucine-enkephalin (L-ENK), and the vasoactive intestinal polypeptide (VIP). Unilateral enucleation produced an almost complete elimination of TH-LI in the contralateral nBOR. SP-LI and CCK-LI were also decreased after enucleation. No apparent changes were seen for all other substances. These results indicate that a wide variety of chemically-specific systems arborize within the nBOR. Three of the immunohistochemically defined fiber systems (TH-LI, SP-LI, and CCK-LI fibers) were reduced after removal of the retina, which may indicate the presence of these substances in retinal ganglion cells. In contrast, the fibers exhibiting ChAT-LI, GAD-LI, 5-HT-LI, NPY-LI, NT-LI, L-ENK-LI, and VIP-LI appear to be of nonretinal origin. Two different populations of nBOR neurons exhibited GAD-LI and ChAT-LI. However, these two populations together constituted only about 20% of the nBOR neurons.
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PMID:Neurotransmitters, receptors, and neuropeptides in the accessory optic system: an immunohistochemical survey in the pigeon (Columba livia). 257 70

The first part of this chapter demonstrates that the C1 adrenergic neurons have high mitochondrial content and a close proximity to capillaries and glia suggestive of a high metabolic activity and a possible chemosensory function. Adrenergic terminals arising primarily from these neurons (1) can influence sympathetic nerve discharge through direct contacts on sympathetic preganglionic neurons in the IML of the spinal cord; and (2) are one of the more prevalent synaptic inputs to the principally noradrenergic neurons in the locus coeruleus. In both the IML and locus coeruleus, adrenergic terminals may be either excitatory (asymmetric synapses) or inhibitory (symmetric synapses) depending on their distribution on the post-synaptic target. The second part of this chapter shows that C1 adrenergic neurons in the RVL are modulated by synaptic associations with a variety of transmitter systems (see schematic Fig. 8). Specifically, C1 adrenergic neurons receive (1) major inhibitory input (symmetric synapses) from GABA-ergic and opioid terminals as well as from unidentified (unlabelled) transmitter-containing terminals; (2) major excitatory input (asymmetric synapses) from terminals containing substance P as well as other unidentified terminals and (3) minor inputs from cholinergic, adrenergic and noradrenergic pathways. Moreover, cholinergic terminals in the RVL form symmetric synapses mainly on unidentified transmitter-containing neurons rather than the C1 neurons suggesting that the reported cardiovascular effects of cholinergic agents in the RVL are most likely mediated via inhibitory interneurons. Within the RVL, adrenergic and noradrenergic terminals innervate cholinergic and opioid neurons. Thus, these results not only provide direct evidence that a number of transmitters modulate the activity of C1 adrenergic neurons, but also suggest new directions for studies of functional interactions involving catecholaminergic regulation of other transmitter-containing neurons within the RVL.
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PMID:Adrenergic neurons in the rostral ventrolateral medulla: ultrastructure and synaptic relations with other transmitter-identified neurons. 269 22

In Parkinson's disease the progressive loss of nigrostriatal dopamine neurons leads to striatal dopamine deficiency and correlates with the severity of parkinsonian disability. The findings concerning dopamine receptors both in vitro and in vivo are not consistent, possibly reflecting differences in patient populations, but the presynaptic defect in dopaminergic neurotransmission is greater than that seen in postsynaptic receptor binding studies. The cholinergic neurons in the extrapyramidal nuclei are relatively well preserved, but subcortico-cortical and -hippocampal cholinergic neurons degenerate in relation to the degree of dementia. The decreased GABA receptor binding in the parkinsonian substantia nigra possibly reflects the loss of nigral dopamine neurons, since nigral GABA receptors are located on these neurons. Of the various neuropeptides, the concentration of met- and leu-enkephalin seems to be reduced in the striatum. In the substantia nigra the concentration of substance P decreases, together with the met-enkephalin and cholecystokinin levels. The concentration of somatostatin decreases in the frontal cortex and hippocampus of demented patients. With the exception of the association between cortical somatostatin deficiency and intellectual deterioration, the role of the neuropeptides in the pathophysiology and clinical features of Parkinson's disease are not yet fully understood.
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PMID:Chemical neurotransmission in the parkinsonian brain. 282 31

The study of neurotransmitter receptors aids in the understanding of the normal anatomy, pharmacology, therapeutics and pathophysiology of disease processes involving the basal ganglia. Receptors may be studied in vitro by homogenate binding experiments, enzyme analysis or quantitative autoradiography and in vivo with positron emission tomography. In the substantia nigra (SN), receptors have been identified for somatostatin, neurotensin, substance P, glycine, benzodiazepine and GABA, opiates, dopamine, angiotensin converting enzyme (ACE) and serotonin. The striatum has receptors for dopamine, GABA and benzodiazepines, acetylcholine, opiates, substance P, glutamate and cholecystokinin. GABA and benzodiazepine receptors are also located in the globus pallidus. In Parkinson's disease, striatal dopamine D-2 receptors are elevated in patients that have not received L-DOPA therapy. This supersensitivity is reversed with agonist therapy. Muscarinic binding to cholinergic receptors seems to correlate with dopamine receptors. Delta opiate receptors are increased in the caudate and mu binding is reduced in the striatum. In the SN of patients with Parkinson's disease, there is reduced binding of somatostatin, neurotensin, mu and kappa opiates, benzodiazepine and GABA and glycine. In Huntington's disease, there is reduced binding of GABA and benzodiazepines, dopamine, acetylcholine, glutamate and CCK. There is increased binding of GABA in both the SN and globus pallidus. Glycine binding is increased in the substantia nigra and ACE is reduced.
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PMID:Receptors in the basal ganglia. 282 9

The influence of alpha-chymotrypsin and diazepam on the phasic (mainly direct) and tonic (indirect, probably substance P-mediated) components of intestinal cholinergic contractions, induced by the GABA-A receptor agonist 3-aminopropane sulphonic acid (3-APS), was investigated in the guinea-pig ileum. alpha-Chymotrypsin, at a concentration (20 U/ml) not affecting submaximal Ach (0.1 microM) contractions, preferentially depressed the tonic component of the 3-APS (30 microM)-induced response. A brief exposure (10 or 60 sec) to diazepam (0.1 microM) potentiated both the phasic and the tonic contractions evoked by low (10, 30 microM) 3-APS concentrations. This potentiation was prevented by bicuculline (30 microM), hyoscine (1 microM) and flumazenil (1, 3 microM). These results provide further support for an involvement of a peptide neurotransmitter on GABA-A receptor-mediated cholinergic response in the ileum. The modulation of this response by diazepam is probably exerted through recognition sites resembling the "central type" benzodiazepine receptors.
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PMID:Cholinergic contractions induced by GABA-A receptor activation in the guinea-pig ileum are inhibited by alpha-chymotrypsin and potentiated by diazepam. 285 13

The striatum receives massive dopaminergic projections from neurons in the ventral tegmental area, the substantia nigra and the retro-rubral cell group. Dopaminergic neurons in the arcuate nucleus and periventricular hypothalamic nuclei project to the median eminence and the neuro-intermediate lobe of the pituitary gland. The anterior lobe of the pituitary gland is not innervated by dopaminergic neurons, but receives dopamine via a vascular route from the median eminence. Two categories of dopamine receptors (D-1 and D-2) can be identified on the basis of the ability of various drugs to discriminate between these two entities. Dopamine stimulates both D-1 and D-2 receptors. The affinity of dopamine for the D-2 receptor is approximately 1000 times higher than for the D-1 receptor. Dopamine is involved in synaptic as well as non-synaptic communication. Examples of non-synaptic communication via D-2 receptors are the dopamine induced inhibition of prolactin release from the anterior pituitary gland and most likely the D-2 receptor mediated inhibition of the release of acetylcholine in the striatum. Examples of synaptic communication have been found in the striatum where (with ultrastructural techniques) synaptic contacts between dopaminergic nerve terminals and elements from cells containing GABA, substance P or enkephalin have been demonstrated. It is tempting to speculate that synaptic and non-synaptic communication occurs via D-1 and D-2 receptors respectively.
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PMID:Localization and pharmacology of some dopamine receptor complexes in the striatum and the pituitary gland: synaptic and son-synaptic communication. 285 85

Neurotransmitter abnormalities in the basal ganglia of individual "choreic" patients (9 cases of Huntington's disease-HD and 3 cases of dentatorubropallidoluysian atrophy-DRPLA) and 14 normal controls were investigated. Choline acetyltransferase activity in the striatum was decreased in approximately half the "choreic" patients. GABA concentration in the substantia nigra or in the globus pallidus was decreased in all "choreic" cases except one case of DRPLA. Substance P concentration was also reduced in the same nuclei as GABA except in one case of HD. These findings imply: cholinergic, GABAergic or substance P-related markers found in the basal ganglia of HD are not disease-specific but also found in the other "choreic" disorder, i.e. DRPLA; most prominent biochemical changes in HD would be a decrease of GABA in the basal ganglia. Correlation analysis of the markers in the basal ganglia and the striatal neurone densities of "choreic" patients (5 cases of HD and 3 cases of DRPLA) and 7 normal controls yielded positive correlation between GABA concentration in the substantia nigra and the globus pallidus, and the neuronal cell density in "small" cells in the striatum of normal control and HD. Positive correlation between substance P concentration and the striatal neurone density was only found in the substantia nigra. Choline acetyltransferase activity in the striatum was found to be positively correlated with the density of "large" cells in the striatum rather than that of "small" cells. In DRPLA there was no direct correlation between the values of the markers in the basal ganglia and the striatal neurone density. The decrease of transmitter markers without striatal cell loss in this particular choreic disorder could be regarded as a sequence of "biochemical degeneration" of striatal neurones. Based on these findings, the underlying mechanisms of choreic involuntary movements were briefly discussed.
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PMID:Studies on neurotransmitter markers and striatal neuronal cell density in Huntington's disease and dentatorubropallidoluysian atrophy. 286 38


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