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)

This investigation was performed to determine whether antisera raised against microtubule-associated proteins, i.e. MAP1 and MAP2, may constitute an alternative to the silver-impregnation studies for the identification of the distinct morphological enteric neuronal cell types in the porcine small intestine. MAP1-immunostaining seems less suited since it preferentially stains the neuronal somata and axons and hardly permits to observe the dendritic processes. MAP2-immunostaining chiefly visualizes the perikaryal-dendritic domain and the proximal part of the axonal processes in the enteric neurons of the porcine gut. Hence, MAP2-immunostaining enables for the first time the unambiguous immunocytochemical identification of enteric multi(short)dendritic uniaxonal type I neurons. Double labelling techniques using antisera against MAP2 and substance P indicate that part of the type I neurons in the myenteric plexus of the porcine small intestine, which are taking part in an ascending pathway, are substance P-immunoreactive, whereas the substance P/neuromedin U-minineurons in the Meissner's plexus do not stain for MAP2. We may conclude that, although MAP2-immunostaining falls short of the quality achieved with silver-impregnation, the possibility to combine MAP2-immunostaining with neuropeptide immunocytochemistry to study the intestinal neurons has the advantage that part of the enteric neuron types stained with a distinct neurotransmitter or neuromodulator can be classified morphologically.
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PMID:Immunohistochemical visualization of the nervous system in the porcine small intestine using antisera raised against the cytoskeletal proteins MAP1 and MAP2, in combination with neuropeptide immunocytochemistry. 172 68

Pain related to fibromyalgia may consist of a complex interaction of nociceptive, neuropathic, dysregulatory central nervous system and psychosomatic mechanisms. Nociceptor pain is based on the excitation of nervous sensors specialized to signal potentially harmful stimuli, i.e., the nociceptors. Metabolic deficiencies in muscle and neurogenic inflammation induced by the release of substance P and other neuropeptides from the peripheral nerve endings may result in chemical sensitization of nociceptors and an ensuing hyperalgesia particularly present in tender points. Neuropathic pain is due to pathological mechanisms within nerve cells and fibers in the peripheral and central nervous system. Pathophysiology may be related to compression (such as in the carpal tunnel syndrome or a vertebral disk herniation) or regeneration of nerves, resulting in ectopic impulse discharges and disturbances of axonal transport. The ensuing neuronal hyperexcitability and trophic changes induced by a disturbed axonal transport system may be major factors of pain in fibromyalgia. Dysregulatory pain denotes pain maintained by dysfunction of efferent control loops. Thus, if spinal motoneuron output results in excessive tension of postural muscle, nociceptors in muscles, tendons and joints might become more excited. Persistent abnormal spinal reflex transmission due to, e.g., peripheral trauma or inappropriate postural habits may result in a vicious circle between muscle hypertension and pain. Similarly, a defective sympathetic control may result in disturbed microcirculation and nociceptor excitation (e.g., in sympathetic algodystrophy). Many symptoms of pain in fibromyalgia (trigger points, pain referral, pain associated with muscle spasm or neurogenic joint immobilization) can be attributed to abnormal control mechanisms in a complex cybernetic system.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pathophysiological mechanisms of fibromyalgia. 181 May 27

Light and electron microscopic immunohistochemical techniques were used to investigate the central projections and colocalization relationships of a subpopulation of primary afferent neurons that were immunolabelled with an antibody (AB893) against rat liver gap junctions. In lumbar dorsal root ganglia AB893-immunoreactivity was seen in 14.5% of all cells and in both small and large size neurons. Colocalization analysis showed that 78% of all AB893-immunoreactive (AB893-IR) neurons contained calcitonin gene-related peptide, while only 7 to 10% contained the calcium binding proteins parvalbumin or calbindin D28k. Among small type B AB893-IR ganglion cells, it was calculated that over 90% contained fluoride-resistant acid phosphatase, while only 1 to 2% contained substance P or somatostatin. Cytochrome oxidase histochemistry revealed light staining in the vast majority of AB893-IR cells. In the dorsal horn of the spinal cord the antibody labelled fibers in the dorsal root, Lissauer's tract, lamina I and lamina II. Isolated immunoreactive fiber bundles were arranged in sheets spanning most of lamina II. Immunoreactive fibers were depleted from the dorsal horn after dorsal rhizotomy or neonatal capsaicin treatment. Ultrastructural examination showed that AB893-IR fibers were composed of closely associated clusters of 2 to 5 unmyelinated fibers each ranging from 0.1-0.4 microns in diameter. Immunoreactivity was distributed intermittently along the cytoplasmic membrane of axons and en passant sinusoid terminals located centrally within the fiber clusters, as well as along axonal membranes adjacent to the central axon or terminal. The results suggest that the immunoreactive fibers in lamina II of the dorsal horn originate from a subpopulation of AB893-IR neurons that contain FRAP and give rise to unmyelinated axons.
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PMID:Cytochemical relationships and central terminations of a unique population of primary afferent neurons in rat. 193 3

Cranial and spinal sensory ganglia of the guinea-pig were investigated by means of histochemistry and biochemistry for the presence of catecholamines and catecholamine-synthesizing enzymes. Sensory neurons exhibiting immunoreactivity to the rate-limiting enzyme of catecholamine synthesis, tyrosine hydroxylase (TH), were detected by immunohistochemistry in lumbo-sacral dorsal root ganglia, the nodose ganglion and the petrosal/jugular ganglion complex. The carotid body was identified as a target of TH-like-immunoreactive (TH-LI) neurons by the use of combined retrograde tracing and immunohistochemistry. Double-labelling immunofluorescence revealed that most TH-LI neurons also contained somatostatin-LI, but TH-LI did not coexist with either calcitonin gene-related peptide- or substance P-LI. TH-LI neurons did not react with antibodies to other enzymes involved in catecholamine synthesis, i.e., aromatic amino acid decarboxylase (AADC), dopamine-beta-hydroxylase (D beta H), and phenylethanolamine-N-methyl-transferase (PNMT). Petrosal neurons as well as their endings in the carotid body lacked dopamine- and L-DOPA-LI. Sensory neurons did not display glyoxylic acid-induced catecholamine fluorescence. Ganglia containing TH-LI neurons were kept in short-term organ culture after crushing their roots and the exiting nerve in order to enrich intra-axonal transmitter content at the ganglionic side of the crush. However, even under these conditions, catecholamine fluorescence was not detected in axons projecting peripherally or centrally from the ganglia. Sympathetic noradrenergic nerves entered the ganglia and terminated within them. Accordingly, biochemical analyses of guinea-pig sensory ganglia revealed noradrenaline but no dopamine. In conclusion, catecholamines within guinea-pig sensory ganglia are confined to sympathetic nerves, which fulfill presently unknown functions. The TH-LI neurons themselves, however, lack any additional sign of catecholamine synthesis, and the presence of enzymatically active TH within these neurons is questionable.
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PMID:Catecholamines and catecholamine-synthesizing enzymes in guinea-pig sensory ganglia. 197 3

The changes in gene expression and protein synthesis induced in neurons by axotomy usually lead to increased production of axon constituents and decreased production of molecules related to neurotransmission. Exceptions to this generalization occur, however, and it is unclear whether the injury itself changes the pattern of synthesis or whether individual mechanisms regulate the synthesis of the various axonal components. We used in situ hybridization histochemistry and immunocytochemistry to compare the changes in L4 and L5 rat dorsal root ganglion neuron levels of preprotachykinin mRNA and tachykinin peptides caused by sciatic nerve injury with those caused by dorsal root injury. Both lesions elicit regeneration, although only the axotomized peripheral processes re-establish functional contact with their targets. In the contralateral, intact dorsal root ganglia approximately 17% of neurons contained detectable levels of both mRNAs and peptides. Sciatic nerve section decreased by 70% the number of neurons labeled for preprotachykinin mRNA at three days post-operatively. Not all cells in the ganglion are axotomized by the sciatic nerve lesion; grain counts over the cells spared by the lesion showed an increased level of labeling, possibly a result of collateral sprouting by these spared cells. By two weeks, the number of cells labeled for preprotachykinin mRNA had decreased to 80% of control levels. The numbers of neurons labeled for tachykinin peptides decreased more slowly and reached approximately 50% of control numbers at two weeks. By six months post-operatively, when regeneration is largely complete, the number of neurons containing both mRNAs and peptides returned to normal. In contrast, dorsal root section did not elicit a decrease in the number of neurons labeled either for the mRNAs or the peptides at any of the post-operative intervals examined. These results indicate that axotomy is not the stimulus that elicits changes in the expression of genes coding for tachykinins. Evidence is considered indicating that interruption of the supply of peripherally derived nerve growth factor may be responsible for the changes in gene expression for tachykinins after axotomy.
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PMID:Expression of beta-preprotachykinin mRNA and tachykinins in rat dorsal root ganglion cells following peripheral or central axotomy. 209 25

The role of oxygen radicals in capsaicin-induced bronchoconstriction was investigated using scavengers of the radicals. A total of 48 guinea pigs weighing 293 +/- 7 g were employed in this study, which consisted of two phases. In phase 1, 35 anesthetized paralyzed animals were divided into five groups: group 1A, control (n = 6); group 1B, chronic dimethylthiourea (DMTU, n = 12); group 1C, acute DMTU (n = 6); group 1D, superoxide dismutase (n = 4); and group 1E, catalase (n = 7). All animals were injected with capsaicin (16 micrograms/kg iv), and changes in respiratory compliance and maximal expiratory flow rate were used as indicators of bronchoconstriction. The capsaicin injection caused a marked airway spasm that was significantly ameliorated by chronic DMTU pretreatment, but no amelioration was noted with the other treatments. An additional study for group 1C was performed using a double dose of DMTU. Again no amelioration was found. In phase 2, 13 animals were divided into two groups: group 2A, substance P (SP, n = 7) and group 2B, chronic DMTU + SP (n = 6). There was no significant difference in SP-induced bronchoconstriction between animals in these two groups. These data suggest that capsaicin-induced airway constriction is modulated by oxygen radicals which may augment mainly on the biosynthesis and/or axonal transport of tachykinins.
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PMID:Oxygen radicals in capsaicin-induced bronchoconstriction. 210 20

The increased expression of vasoactive intestinal polypeptide (VIP) in injured peripheral neurons was studied. In contrast to substance P, there was a marked increase, and maintained fast axonal transport, of VIP in rat sciatic nerve after peripheral axotomy. Local capsaicin application to the nerve trunk failed to inhibit the injury-induced VIP increase, and capsaicin even increased VIP levels when applied locally to uninjured nerves. Pharmacological sympathectomy showed that some of the peripheral VIP increase may occur in post-ganglionic sympathetic fibres. The VIP increase after injury appeared unaffected in the mf mutant rat, in spite of its loss of lumbar dorsal root ganglion cells. VIP-staining fibres in the epi- and peri-neurium and perivascular plexuses of sciatic nerve showed an increase in number in parallel with the changes of the nerve VIP content. These findings suggest that sensory and sympathetic nerve fibres expressing VIP after injury play a role in the regulation of blood flow to nerves, and in the pathophysiological processes in nerve and dorsal spinal cord which follow peripheral nerve injury.
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PMID:Studies of vasoactive intestinal polypeptide expression in injured peripheral neurons using capsaicin, sympathectomy and mf mutant rats. 212 38

The amyloid beta protein is deposited in the brains of patients with Alzheimer's disease but its pathogenic role is unknown. In culture, the amyloid beta protein was neurotrophic to undifferentiated hippocampal neurons at low concentrations and neurotoxic to mature neurons at higher concentrations. In differentiated neurons, amyloid beta protein caused dendritic and axonal retraction followed by neuronal death. A portion of the amyloid beta protein (amino acids 25 to 35) mediated both the trophic and toxic effects and was homologous to the tachykinin neuropeptide family. The effects of the amyloid beta protein were mimicked by tachykinin antagonists and completely reversed by specific tachykinin agonists. Thus, the amyloid beta protein could function as a neurotrophic factor for differentiating neurons, but at high concentrations in mature neurons, as in Alzheimer's disease, could cause neuronal degeneration.
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PMID:Neurotrophic and neurotoxic effects of amyloid beta protein: reversal by tachykinin neuropeptides. 221 31

The patterns of co-existence of neuropeptides in cranial autonomic neurons of guinea-pigs have been examined with quantitative double-labelling immunofluorescence and retrograde axonal tracing using Fast Blue. Within the sphenopalatine, otic, sublingual and submandibular ganglia, and a prominent intracranial ganglion associated with the glossopharyngeal nerve, most neurons contained immunoreactivity of vasoactive intestinal peptide, neuropeptide Y, enkephalin and substance P in combinations that were correlated with their projections. Hair follicles in the facial skin formed a major target of sphenopalatine ganglion cells. The combinations of peptides co-existing in these neurons depended upon the region of the skin where the follicles were located. The parotid gland was innervated by neurons with cell bodies in the otic ganglion or the intracranial ganglion. Most of these neurons contained immunoreactivity to all four peptides. The sublingual gland was innervated by local ganglion cells usually containing immunoreactivity to neuropeptide Y, vasoactive intestinal peptide and substance P. The submandibular gland was innervated by local ganglion cells containing enkephalin immunoreactivity and low levels of immunoreactivity to neuropeptide Y. Presumptive vasodilator neurons, containing immunoreactivity to vasoactive intestinal peptide but no other peptide examined here, comprised less than 10% of cranial autonomic ganglion cells. These results demonstrate that the patterns of co-existence of neuropeptides in cranial autonomic neurons show a high degree of target specificity. The discovery that hair follicles form a major parasympathetic target implies a broader range of actions of cranial autonomic neurons than has been suspected until now.
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PMID:Target-related patterns of co-existence of neuropeptide Y, vasoactive intestinal peptide, enkephalin and substance P in cranial parasympathetic neurons innervating the facial skin and exocrine glands of guinea-pigs. 226 23

We have examined the location of basal forebrain cells projecting to the region of the nuclei gemini in the caudolateral hypothalamus of the rat using retrograde transport of wheatgerm agglutinin-horseradish peroxidase. Since many tracer-positive neurons were identified in ventral pallidal areas known to project to the mediodorsal nucleus of the thalamus, we also prepared several animals with wheatgerm agglutinin-horseradish peroxidase injections in mediodorsal thalamus. Many of the sections from both groups of animals were subsequently prepared for the demonstration of ventral pallidal regions, using either substance P or glutamate decarboxylase as a pallidal marker. Some animals received injections of different retrogradely transported fluorescent tracers in the mediodorsal thalamus and the nuclei gemini for the purpose of studying potential axon collateralization. The large gemini-projecting cells are diffusely scattered within the medial forebrain bundle area, from the caudal margin of the nucleus of the horizontal limb of the diagonal band to the rostral tip of the olfactory tubercle, and with a concentration of cells in the lateral part of the medial forebrain bundle region. Gemini-projecting cells were not found in the olfactory tubercle proper, including the islands of Calleja complexes, or in the ventral pallidal areas located dorsal to the medial forebrain bundle area underneath the lateral extension of the anterior commissure. Gemini-projecting cells within ventral pallidal areas were observed only in regions where the longitudinal fascicles of the medial forebrain bundle interdigitate with the rostroventral extension of the ventral pallidum. Anterogradely-labeled fiber plexuses in the region of the nuclei gemini were observed following injection of Phaseolus vulgaris-leucoagglutinin or Fluoro-Ruby into the forebrain regions containing retrogradely-labeled neurons following nuclei gemini injections of wheatgerm agglutinin-horseradish peroxidase. We found no evidence of cells with axonal projections to both mediodorsal thalamus and nuclei gemini. The gemini-projecting cells are generally large, triangular and plump, and the electron microscopic picture of gemini-projecting neurons is the same regardless of whether the cells are located in pallidal or non-pallidal areas.
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PMID:The basal forebrain projection to the region of the nuclei gemini in the rat; a combined light and electron microscopic study employing horseradish peroxidase, fluorescent tracers and Phaseolus vulgaris-leucoagglutinin. 235 48


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