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)

In this study we utilized the technique of simultaneous immunofluorescent double-labeling to investigate possible coexistence of the putative neurotransmitter thyrotropin-releasing hormone (TRH) with serotonin (5-HT) and with substance P (SP) in the intermediolateral cell column (IML) of rat spinal cord. We observed fibers and terminals immunoreactive for both TRH and 5-HT or TRH and SP in IML. In addition, this technique was used in animals in which we retrogradely labeled, with fluorescent tracer dyes, preganglionic sympathetic neurons within IML from either the adrenal medulla or the proximal cut end of the cervical sympathetic trunk. In these animals, fibers and terminals containing these combinations of neurotransmitters appeared to oppose identified preganglionic sympathetic neurons in IML. These data represent the first direct immunohistochemical demonstration of fibers and terminals in spinal cord which display coexistence of TRH- with either 5-HT- or SP-immunoreactivity. In addition, the proximity of TRH-immunoreactive fibers and terminals to sympathetic preganglionic neurons in IML support a role for TRH in the regulation of central sympathetic outflow.
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PMID:Thyrotropin-releasing hormone in spinal cord: coexistence with serotonin and with substance P in fibers and terminals apposing identified preganglionic sympathetic neurons. 244 8

The distribution and fine structure of 5-hydroxytryptamine-, thyrotropin-releasing hormone- and substance P-immunoreactive synaptic boutons and varicosities were studied in the motor nucleus of the spinal cord segments L7-S1 in the cat, using the peroxidase-antiperoxidase immunohistochemical technique and analysis of ultrathin serial sections. The 5-hydroxytryptamine-, thyrotropin-releasing hormone- and substance P-immunoreactive boutons had a similar ultrastructural appearance as judged from serial section analysis. The boutons could be classified into two types on the basis of their vesicular content, with one type containing a large number of small agranular vesicles together with only a few, if any large granular vesicles, while the other type contained a large number of large granular vesicles in addition to small agranular vesicles. The vesicles were spherical or spherical-to-pleomorphic. Postsynaptic dense bodies (Taxi bodies) were occasionally observed in relation to all three types of immunoreactive boutons, which almost invariably formed synaptic junctions with dendrites. Judged by the calibre of the postsynaptic dendrites, the boutons were preferentially distributed to the proximal dendritic domains of motoneurons. In one case, a substance P-immunoreactive bouton formed an axosomatic synaptic contact. In addition to synaptic boutons, 5-hydroxytryptamine-, thyrotropin-releasing hormone- and substance P-immunoreactive axonal varicosities containing a large number of large granular and small agranular vesicles but lacking any form of conventional synaptic contact were observed. Such varicosities were either directly apposing surrounding neuronal elements or separated from the neurons by thin glial processes. The origin of the immunoreactive boutons was not traced, but it was thought likely that the main source of the boutons was neurons with their cell bodies located in the medullary raphe nuclei.
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PMID:An ultrastructural study of 5-hydroxytryptamine-, thyrotropin-releasing hormone- and substance P-immunoreactive axonal boutons in the motor nucleus of spinal cord segments L7-S1 in the adult cat. 244 39

We have shown previously that intrathecal administration of substance P to the lower thoracic vertebral level increases sympathetic output and increases the adrenal output of catecholamines. As opioid peptides are co-released with catecholamines from the adrenal medullae, experiments were done to determine whether the intrathecal administration of substance P to the eighth thoracic vertebral level would alter reaction time in the tail-flick test. Intrathecal administration of substance P (6.5 nmoles in artificial cerebrospinal fluid) in the awake restrained rat increased the reaction time at 1 and 6 min after injection to about 130-140% of the preadministration values; reaction time returned to preadministration values by 11 min. Similar administration of cerebrospinal fluid was without effect. Administration of 6.5 nmoles of thyrotropin-releasing hormone or oxytocin, peptides which also increase sympathetic output, failed to mimic the effects of substance P. The substance P-induced increase in reaction time was absent in rats which had been medullectomized and in rats pretreated with naloxone (10 mg/kg). Pretreatment with 10 mg/kg of either phentolamine or the quaternary opiate antagonists, nalorphine methochloride and naloxone methobromide, had no effect on the substance P-induced increase in reaction time. These results suggest that substance P given intrathecally to the eighth thoracic vertebral level may activate spinal sympathetic neurons to the adrenal medullae to cause the release of an opioid into the circulation. This circulating opioid may in turn play a role in the regulation of the tail-flick reflex by a centrally-mediated depression.
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PMID:An adrenal-mediated, naloxone-reversible increase in reaction time in the tail-flick test following intrathecal administration of substance P at the lower thoracic spinal level in the rat. 245 44

In an attempt to identify a physiological prolactin-releasing factor in the sheep, ovariectomized ewes were given intracarotid injections (10(-8)-10(-7) mol/animal) of thyrotropin-releasing hormone (TRH), vasoactive intestinal polypeptide (VIP), peptide histidine-isoleucine amide (PHI), oxytocin (OT), arginine vasopressin (AVP), substance P (SP), bombesin (BB), neurotensin (NT) and neuropeptide Y (NPY). Administration of TRH, AVP, NT and OT resulted in immediate and significant increases in plasma prolactin concentrations, the greatest stimulatory effect being obtained after TRH; other peptides had no effect in ovariectomized hypothalamo-pituitary intact ewes. AVP, NT and OT failed to release prolactin in ovariectomized ewes. These results suggest that (1) AVP, NT and OT may act via the hypothalamus to regulate prolactin secretion in hypothalamo-pituitary intact ewes; (2) VIP, PHI, SP, BB and NPY appear to have no direct roles at the pituitary level to control prolactin secretion in sheep, and (3) TRH stimulates prolactin secretion in ovariectomized ewes by a direct pituitary action.
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PMID:Effect and site of action of hypothalamic neuropeptides on prolactin release in sheep. 246 Jul 94

The present study was undertaken to investigate the possible effects of Spantide [D-Arg1, D-Trp7,9 Leu11]-substance P, a substance P antagonist, and of somatostatin on spinal cord blood flow. The experiments were performed with the laser-doppler technique on the L1 spinal cord segment exposed by laminectomy. The effect of Spantide was also studied in the rat with the [14C]iodoantipyrine technique. In addition, experiments were performed on rabbit skeletal muscle in vivo after administration of Spantide to the local vasculature. In the experiments on spinal cord, approximately the same doses were employed as those earlier shown to be "neurotoxic". When the vehicle alone (0.9% saline) was administered intrathecally, a slight decrease of brief duration was noted in the blood flow. Spantide, however, caused a dose-dependent decrease, where 2 micrograms caused an immediate drop of the blood flow to approx. 20% of its normal value. A total circulatory arrest was found in several animals. In most cases, the flow was gradually normalized, whereas the effect persisted for up to 60 min in others. Virtually the same effect was exerted by somatostatin. The experiments using the iodoantipyrine technique confirmed the effect of Spantide. Here, the high resolution of this method showed that the gray matter was affected preferentially, with a complete ischemic state or a drastically reduced flow in 4 out of 5 animals 10 min after 2 micrograms of Spantide; one animal was unaffected, and this animal did not show any signs of motor impairment. The vasoconstriction of Spantide was not affected by simultaneous injections with substance P. However, after i.v. pretreatment with thyrotropin-releasing hormone, at a dose that previously has been reported to be protective against the neurodegenerative effects of Spantide, blood flow was markedly increased as compared to Spantide alone. Results from the experiments using intravital microscopy flow studies in the rabbit tenuissimus muscle revealed that Spantide at the doses used had no vasoconstrictor effect in the skeletal muscle of this species. The results suggest that previous demonstrations of motor impairment and "neurotoxic" actions of intrathecally injected substance P antagonists and somatostatin may be related to a marked decrease in spinal cord blood flow. Counteraction of the effect of Spantide by thyrotropin-releasing hormone may be explained by its effect to increase blood flow.
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PMID:Vasoconstrictor effects in spinal cord of the substance P antagonist [D-Arg, D-Trp7,9 Leu11]-substance P (Spantide) and somatostatin and interaction with thyrotropin releasing hormone. 246 90

Recently, several systems of neuropeptides have been demonstrated to have anticonvulsant action in some forms of epilepsy to some extent. However, considerably less knowledge has been taken to their involvement in convulsive disorders either with regard to the development, expression or control of seizures. In this study, therefore, we examined the influence of amygdaloid kindling, an experimental model of temporal lobe epilepsy, on thyrotropin-releasing hormone (TRH), somatostatin (SS), cholecystokinin (CCK) and substance P (SP) content in the amygdala/piriform cortex and hippocampus. Male Sprague-Dawley rats were implanted bipolar electrodes into the left amygdala under pentobarbital anesthesia. Daily kindling stimulation was made to the left amygdala with 1 sec, 60 Hz, 400 microA, until 5 consecutive fully kindled generalized convulsive seizures were elicited. Subsequently, amygdaloid kindled rats were decapitated 30 min, 24 hrs, 48 hrs, 7 days and 21 days after the last amygdaloid stimulation, and the amygdala/piriform cortex and hippocampus were dissected. Control animals only received chronic electrodes, but no stimulation was delivered. The immunoreactivity of TRH, SS, CCK and SP was examined by methods of specific radioimmunoassay. The TRH content in these two brain regions significantly increased 24 hrs after the last kindled convulsion. This increase became maximal 48 hrs after the last convulsion: about 3-fold and 4-fold of the control in the amygdala/piriform cortex and hippocampus, respectively. Such increases in the TRH content tended to persist for 7 days, but returned to the control level 21 days after the last convulsion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Effect of amygdaloid kindling on thyrotropin-releasing hormone, somatostatin, cholecystokinin and substance P contents of the amygdala/piriform cortex and hippocampus of rats]. 246 12

The purpose of the present study was to quantify the extent to which several peptides and serotonin coexist with substance P or somatostatin in selected lumbar dorsal root ganglia of the cat. The technique for the simultaneous visualization of two antigens by immunofluorescence was used to investigate the coexistence of neuropeptides in the lumbar dorsal root ganglia of colchicine-treated cats. Perikarya immunoreactive for calcitonin gene-related peptide, galanin, leu-enkephalin, somatostatin, and substance P were visualized in both the lumbar 5 and 6 dorsal root ganglia. In contrast, no immunoreactivity was observed for adipokinetic hormone, bombesin, dynorphin A, met-enkephalin, oxytocin, tyrosine hydroxylase, thyrotropin-releasing hormone, vasopressin, vasoactive intestinal peptide, or serotonin in either ganglion examined. Substance P coexisted with calcitonin-gene-related peptide, somatostatin, and leu-enkephalin. Somatostatin was colocalized with calcitonin gene-related peptide, leu-enkephalin, and substance P but coexisted with galanin minimally. The cell area of immunoreactive perikarya was also examined. Data concerning the cross-sectional area of immunoreactive cells indicated that somatostatin-immunoreactive perikarya were generally the largest population observed (up to approximately 6,000 microns2). Somatostatin and calcitonin gene-related peptide, as well as substance P and calcitonin gene-related peptide, coexisted in populations of cell bodies that had a smaller size (less than 2,000 microns2). These results suggest that certain peptides which coexist in the dorsal root ganglia may provide histochemical markers for functional groups of primary afferent neurons.
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PMID:Lumbar dorsal root ganglia of the cat: a quantitative study of peptide immunoreactivity and cell size. 247 1

Dopamine has been shown to effect pancreatic flow, protein output and amylase secretion in a variety of species. However, there is conflicting evidence regarding the role of dopamine on amylase release in vitro. Specific studies were conducted to evaluate the effect of dopamine and to compare its effects with other substances on basal- and secretagogue-stimulated amylase secretion in a guinea pig dispersed pancreatic acinar cells preparation. Dopamine (10(-6) M) induced a small, but significant (P less than 0.05) increase of amylase secretion. Established secretagogues (10(-6) M) including bombesin, cholecystokinin-octapeptide (CCK-8) and carbachol as anticipated induced significantly larger responses. Other substances tested (10(-6) M) including thyrotropin-releasing hormone (TRH) and muscimol were without effect. Complete dose-response studies (10(-11)-10(-3) M) in the presence of bombesin, CCK-8 and carbachol revealed that dopamine does not affect amylase release in response to these secretagogues. These findings suggest that dopamine is a weak stimulant of amylase secretion in vitro, and that it may therefore play a minor role in regulation of pancreatic enzyme secretion. Several factors including vascular, hormonal and neural have been implicated in regulation of pancreatic exocrine secretion. In particular, autonomic nervous system activity, notably cholinergic, has been shown to affect the secretory status of the pancreatic acinar cell. In addition, several biologically active peptides including bombesin, cholecystokinin (CCK), secretin, vasoactive intestinal peptide (VIP), substance P, gastrin and stimulation of cholinergic (muscarinic) receptors with carbachol have been shown to stimulate pancreatic enzyme secretion both in vivo and in vitro. Certain controversy regarding the role of the sympathetic nervous system in regulation of pancreatic exocrine secretion does exist. For example, several studies with agonists and antagonists of noradrenergic and dopaminergic receptor subtypes suggest a stimulatory effect on pancreatic fluid, electrolyte and enzyme secretion. However, these responses are species-specific and variations inherent to the model have been described. Dopamine administration has been shown to stimulate pancreatic bicarbonate and enzyme secretion in a variety of species including mice, dogs, and man. Radioligand binding studies with 3H-dopamine have revealed the presence of high- and low-affinity dopamine binding sites in dog pancreatic acinar cells. Stimulation of these receptors has been correlated with dose-dependent increases in intracellular cAMP levels.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effect of dopamine on amylase secretion from guinea pig pancreatic acinar cells in vitro. 247 35

We studied the trophic effects of various neuropeptides, including substance P (SP), thyrotropin-releasing hormone (TRH), neurotensin (NT) and bombesin (BN) on explanted cultures of ventral spinal cord from 13- to 14-day-old rat embryos. In groups, receiving one type of drug only, there was a significant neurite-promoting effect (NPE) in SP, TRH and BN-treated cultures. At a concentration of 10(-12) M the most potent effect was shown by SP. However, BN had the most potent action at concentrations greater than 10(-10) M. It also became clear that there were maximum and minimum effective concentrations for these 3 neuropeptides. NT had no NPE at any concentration. There was no additional NPE when any two or all four of these neuropeptides were given simultaneously. Our results demonstrate that BN, SP, and TRH have a trophic effect on ventral spinal cord in cultures, and may contribute to a therapeutic strategy in amyotrophic lateral sclerosis.
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PMID:Trophic effect of various neuropeptides on the cultured ventral spinal cord of rat embryo. 247 30

The CNS cell groups that innervate the sympathoadrenal preganglionic neurons of rats were identified by a transneuronal viral cell body labeling technique combined with neurotransmitter immunohistochemistry. Pseudorabies virus was injected into the adrenal gland. This resulted in retrograde viral infections of the ipsilateral sympathetic preganglionic neurons (T4-T13) and caused retrograde transneuronal cell body infections in 5 areas of the brain: the caudal raphe nuclei, ventromedial medulla, rostral ventrolateral medulla, A5 cell group, and paraventricular hypothalamic nucleus (PVH). In the spinal cord, the segmental distribution of virally infected neurons was the same as the retrograde cell body labeling observed following Fluoro-gold injections in the adrenal gland except there was almost a 300% increase in the number of cells labeled and a shift in cell group distribution. These results imply there are local interneurons that regulate the sympathoadrenal preganglionic neurons. In the medulla oblongata, serotonin (5-HT)-, substance P (SP)-, thyrotropin-releasing hormone-, Met-enkephalin-, and somatostatin-immunoreactive neurons of the raphe pallidus and raphe obscurus nuclei and the ventromedial medulla were infected. In the ventromedial and rostral ventrolateral medulla, immunoreactive phenylethanolamine-N-methyltransferase, SP, neuropeptide Y, somatostatin, and enkephalin neurons were infected. The A5 noradrenergic cells were labeled, as were some somatostatin-immunoreactive neurons in this area. In the were infected. The A5 noradrenergic cells were labeled, as were some somatostatin-immunoreactive neurons in this area. In the hypothalamus, tyrosine hydroxylase- and SP-immunoreactive neurons of the dorsal parvocellular PVH were infected. Only a few immunoreactive vasopressin, oxytocin, Met-enkephalin, neurotensin, and somatostatin PVH neurons were labeled.
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PMID:CNS cell groups regulating the sympathetic outflow to adrenal gland as revealed by transneuronal cell body labeling with pseudorabies virus. 254 65


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