Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Substance P-immunoreactivity and specific substance P binding sites are present in the spinal cord. Receptor autoradiography showed the discrete localization of substance P binding sites in both sensory and motor regions of the spinal cord and functional studies suggested an important role for substance P receptor activation in autonomic outflow, nociception, respiration and somatic motor function. In the current studies, we investigated the cellular localization of substance P binding sites in rat spinal cord using light microscopic autoradiography combined with several lesioning techniques. Unilateral injections of the suicide transport agent, ricin, into the superior cervical ganglion reduced substance P binding and cholinesterase-stained preganglionic sympathetic neurons in the intermediolateral cell column. However, unilateral electrolytic lesions of ventral medullary substance P neurons which project to the intermediolateral cell column did not alter the density of substance P binding in the intermediolateral cell column. Likewise, 6-hydroxydopamine and 5,7-dihydroxytryptamine, which destroy noradrenergic and serotonergic nerve terminals, did not reduce the substance P binding in the intermediolateral cell column. It appears, therefore, that the substance P binding sites are located postsynaptically on preganglionic sympathetic neurons rather than presynaptically on substance P-immunoreactive processes (i.e. as autoreceptors) or on monoamine nerve terminals. Unilateral injections of ricin into the phrenic nerve resulted in the unilateral destruction of phrenic motor neurons in the cervical spinal cord and caused a marked reduction in the substance P binding in the nucleus. Likewise, sciatic nerve injections of ricin caused a loss of associated motor neurons in the lateral portion of the ventral horn of the lumbar spinal cord and a reduction in the substance P binding. Sciatic nerve injections of ricin also destroyed afferent nerves of the associated dorsal root ganglia and increased the density of substance P binding in the dorsal horn. Capsaicin, which destroys small diameter primary sensory neurons, similarly increased the substance P binding in the dorsal horn. These studies show that the cellular localization of substance P binding sites can be determined by analysis of changes in substance P binding to discrete regions of spinal cord after selective lesions of specific groups of neurons. The data show the presence of substance P binding sites on preganglionic sympathetic neurons in the intermediolateral cell column and on somatic motor neurons in the ventral horn, including the phrenic motor nucleus.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Studies on the cellular localization of spinal cord substance P receptors. 243 Feb 31

The purification and kinetic characterization of cholinesterase from blood plasma (pseudocholinesterase; butyrylcholinesterase: EC 3.1.1.8) is described. The hydrolysis of the artificial peptide substrate Lys-Pro-p-nitroanilide served as a model of the second step in degradation of substance P by dipeptidyl peptidase IV. The substrate is hydrolyzed by a gel-electrophoretic homogeneous cholinesterase preparation with a reaction rate of 5.8 mumol/min X mg and a KM value of 0.12 mmol/l. The proteolytic reaction could not be affected with typical cholinesterase inhibitors NaF and dibucain. On the other hand Lys (pNO2-Z)-Pro and a specific suicide substrate (diacylhydroxylamine derivative) inhibit the activity in a manner analogous to dipeptidyl peptidase IV. Though these active site-directed inhibitors also influenced the benzoylcholine hydrolyzing activity of serum cholinesterase, we conclude from the data that dipeptidyl peptidase IV was the true Lys-Pro-p-nitroanilide cleaving activity. Furthermore, the conclusion can also be drawn that hydrolysis of substance P reported by Lockridge 1982 is caused by the contamination that cannot be completely separated from the esterase during the purification method used.
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PMID:Contamination of highly purified human serum cholinesterase by dipeptidyl peptidase IV causing hydrolysis of substance P. 243 Mar 7

Suicide transport of the toxic lectin, ricin, by hypoglossal and vagus neurons resulted in motor neuron loss in the associated nuclei, and reduced the binding of the 125I-Bolton-Hunter labeled substance P in the same nuclei. These data show that substance P receptors are located on the cell bodies of medullary somatic and preganglionic motor neurons of the hypoglossal and vagus nerves, and that suicide transport is a useful technique to determine the cellular localization of binding sites within a nucleus.
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PMID:Suicide transport of ricin demonstrates the presence of substance P receptors on medullary somatic and autonomic motor neurons. 257 56

In the basal ganglia, centrally active suicide transport agents produce apparently selective lesions of the striatopallidal and striatonigral pathways based on receptor binding and neuropeptide mRNA studies. In the present study we sought to determine the selectivity of suicide transport lesions for specific subsets of striatal neurons. Using immunohistochemical methods, the neostriata of adult rats were examined 10 days after an injection of volkensin into the substantia nigra or an injection of OX7-saporin into the globus pallidus. Ricin, a suicide transport agent active in the peripheral but not the central nervous system, was injected into each target as a control. Adjacent sections were processed for (1) Nissl stain to assess neuronal density, both overall and for large interneurons, (2) NADPH-diaphorase (NADPH-d) histochemistry, to mark medium-sized aspiny interneurons, (3) enkephalin immunocytochemistry, to label striatopallidal neurons, or (4) substance P immunocytochemistry, to label striatonigral neurons. Ricin injections produced no change in the densities of these subsets of striatal cells. In animals receiving volkensin or OX7-saporin injections, analyses of Nissl material revealed that the striata ipsilateral to the toxin injections appeared normal and did not exhibit shrinkage or gliosis; however, a quantitation analysis revealed a moderate decrease in cell density (12-16% loss, P < 0.01). The densities of both large and NADPH-d-containing striatal interneurons were unchanged after lesions in either target. Following nigral injections with volkensin, the density of striatal substance P-labeled cells decreased (26% loss, P < 0.01), while the density of enkephalin-labeled cells did not decrease significantly (11% decrease, P > 0.1). After pallidal injections with OX7-saporin, the density of striatal enkephalin-labeled cells decreased (20% loss, P < 0.01), while that of substance P-labeled cells remained unchanged. These data show that nigral volkensin and pallidal OX7-saporin injections differentially lesion striatonigral and striatopallidal projection neurons and spare striatal interneurons. This study provides further evidence for the selectivity, specificity, and utility of suicide transport agents to study brain structure and function.
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PMID:Differential effects of suicide transport lesions of the striatonigral or striatopallidal pathways on subsets of striatal neurons. 750 60

We have used the suicide transport agent, volkensin, to produce selective lesions of striatal efferent neurons projecting to the substantia nigra in the rat. In order to evaluate potential trans-synaptic effects, we examined cholinergic interneurons intrinsic to the striatum following destruction of striatonigral projection neurons by nigral injection of volkensin. There was no change in the number of large interneurons identified either by Nissl stain or by immunocytochemistry for choline acetyltransferase, indicating that volkensin was not directly toxic to this group of neurons. However, [3H]hemicholinium-3 binding to the choline re-uptake site on the presynaptic cholinergic terminals decreased. No change in [3H]hemicholinium-3 binding was seen after destruction of dopaminergic afferents with 6-hydroxydopamine. Striatonigral afferents to the cholinergic interneurons contain substance P which has been shown to stimulate acetylcholine release. The decrease in [3H]hemicholinium-3 binding may reflect loss of this afferent input. However, striatonigral neurons are an efferent target of the cholinergic interneuron as well, and a presynaptic effect due to loss of target neurons also may contribute.
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PMID:A selective lesion of striatonigral neurons decreases presynaptic binding of [3H]hemicholinium-3 to striatal interneurons. 811 83

Axonally transported toxins can be used to make selective lesions of the nervous system. Collectively, these techniques are termed 'molecular neurosurgery' because they exploit the surface molecular identity of neurons to selectively destroy specific types of neurons. Suicide transport, is anatomically selective but not type-selective. The most widely used suicide transport agents are the toxic lectins (ricin, volkensin) and the immunotoxin, OX7-saporin. The toxic lectins and saporin are ribosome inactivating proteins that irreversibly inhibit protein synthesis. The toxic lectins have binding subunits but saporin requires a targeting vector to gain entrance into cells. Immunolesioning uses monoclonal anti-neuronal antibodies to deliver saporin selectively into neurons that express a particular target surface antigen. Neuropeptide-saporin conjugates selectively destroy neurons expressing the appropriate peptide receptors. Notable experimental uses of these agents include analysis of the function of the cholinergic basal forebrain (192-saporin) and pain research (anti-DBH-saporin, substance P-saporin). It is likely that more immunolesioning and neuropeptide-toxin conjugates will be developed in the near future.
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PMID:Neuronal lesioning with axonally transported toxins. 1107 97

Treatment with an antagonist at the neurokinin-1 (NK-1) receptor may alleviate depression, however the brain region(s) in which the NK-1 receptor antagonist exerts its therapeutic effect is unknown. [125I]BH-Substance P was used to measure NK-1 receptors postmortem in cytoarchitectonically defined areas of rostral orbitofrontal cortex (Brodmann's area 47) of subjects with major depressive disorder (n = 12, six females) and psychiatrically normal subjects (n = 11, five females). Six subjects with depression died by suicide. Subjects with depression showed decreased binding to NK-1 receptors across all cortical layers (p = 0.024). The pathophysiology of depression, and the reported therapeutic benefit of NK-1 receptor antagonists, may thus involve NK-1 receptors in prefrontal cortex.
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PMID:Neurokinin-1 receptors are decreased in major depressive disorder. 1215 74

Angiotensin-converting enzyme (ACE) inhibitor has mood-elevating effects, and central ACE activity is increased for suicidal patients. In addition, substance P (SP), which is degraded by ACE, has been implicated in the pathogenesis of, and evaluated in the treatment for, major depressive disorder (MDD). The present study has tested the hypothesis that an ACE-gene insertion/deletion (I/D) polymorphism is associated with onset age, clinical manifestations, suicide history, and/or antidepressant response for two groups of MDD patients. No significant differences were demonstrated for onset age (p = 0.520), suicide history (p = 0.823), or baseline, total and cluster scores for Hamilton Depression Rating Scale comparing the three ACE genotypes. Further, previous findings that this ACE polymorphism is associated with therapeutic antidepressant effects were not replicated. The results demonstrate that these ACE variants did not play a major role in the clinical manifestations or antidepressant response for our MDD patients.
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PMID:Association study of angiotensin I-converting enzyme polymorphism and symptomatology and antidepressant response in major depressive disorders. 1220 48

Family studies have provided evidence for familial transmission in suicide in major psychiatric disorders, and in particular affective disorders. Even though they may seem contradictory, linkage studies have suggested several genetic regions implicated in affective disorders. Association studies have mainly focused on genes related to serotonergic and monoaminergic pathways. Other genes involved in GABAergic and substance P pathways have also been studied in association studies. Another way to approach the genetics of affective disorders is the definition of more detailed phenotypes. Suicidal behaviour is one of the more largely studied subphenotypes within affective disorders. Tryptophan hydroxylase and serotonin transporter genes, related to the serotonergic pathway, have been found to be associated to suicidal behaviour, in particular violent suicidal behaviour but need to be replicated before definitive conclusion. Improved methodologies and updated tools in genetic studies will improve in the future our knowledge of affective disorders.
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PMID:Molecular genetics of affective disorders. 1289 Mar 9

The dorsal raphe nucleus (DR) contains serotonin (5-HT) neurons that innervate the cortex and limbic system and through these projections is thought to regulate cognition and behavior. Clinical and pharmacological findings implicate dysfunctions in the DR-5-HT system in affective disorders, including anxiety, depression and suicide. Although the DR is often considered in light of its 5-HT neurons, recent studies underscore the complexity of this nucleus and its heterogeneous nature. Of particular interest, are peptides that are either present within neurons in the DR, innervate DR-5-HT neurons or act upon local circuitry within the DR to indirectly impact on this 5-HT system. These peptides are positioned to fine-tune the activity of selective groups of serotonergic neurons within the DR and thereby 5-HT release in different terminal fields. This review will focus on substance P and corticotropin-releasing factor as two peptides that act independently and interdependently to influence DR-5-HT function. The role of non-serotonergic components of the DR in translating the effect of each of these peptides is discussed. This synthesis refines our views on the regulation of the DR-5-HT system and importantly, gives insight into mechanisms of endogenous control of DR function, the dysregulation of which may contribute to pathophysiology.
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PMID:Peptides that fine-tune the serotonin system. 1562 94


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