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)

To clarify the significance of peptidergic nerves in Hirschsprung's disease (aganglionosis), hypoganglionosis, and neuronal intestinal dysplasia (NID), we investigated enteric nerve responses in colonic tissues obtained from patients with these diseases. Colonic tissue specimens were obtained from 12 patients with aganglionosis, 8 patients with hypoganglionosis, and 6 patients with NID. Colon specimens from 20 patients without constipation were used as controls. A mechanograph was used to evaluate in vitro colonic responses to electrical field stimulation (EFS) of the adrenergic and cholinergic nerve blockers and gastrointestinal hormones. The following results were obtained: (1) Non-adrenergic inhibitory nerves were found to act on the normal human colon and to a lesser extent in colons with hypoganglionosis or NID, but had no effect on the enteric nerves in colons with aganglionosis. (2) Peptidergic neurotransmitters such as VIP, substance P, and neurotensin apparently act in the normal human colon, and to a lesser extent in the colons with hypoganglionosis or NID, but their effect was almost absent in aganglionosis. (3) VIP acts via neural mechanisms, while substance P and neurotensin may act both via nerves and also directly on the bowel smooth muscle. The diminution of action of non-adrenergic inhibitory nerves and peptidergic nerves may be largely related to the impaired motility observed in hypoganglionosis, NID and aganglionosis.
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PMID:Peptidergic nerves in Hirschsprung's disease and its allied disorders. 753 22

The brainstems of children with aqueductal stenosis (AS) and controls were examined histologically and immunohistochemically. In the periaqueductal area of children with AS, there was astrogliosis, loss of neurons (tyrosine-hydroxylase (TH) reactivity) and decreased myelination (myelin basic protein reactivity). In locus coeruleus, there was a decreased neuronal cell density (TH-positive neurons) in those with AS. In other areas of the brainstem (medial reticular formation), there appeared to be more TH and substance P reactive neurons. These alterations (dysplasia of slight degree) in neurons were more remarkable in children with AS with other identified brain anomalies than in those with only AS, judged by specific immunocytochemical identification of neurons. The periaqueductal astrogliosis and delayed/insufficient myelination suggest secondary damage to this region.
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PMID:Periaqueductal microdysplasia in children with congenital aqueductal stenosis. 791 28

After Hirschsprung's disease was ruled out for 25 children who had severe chronic constipation, the authors studied the distribution of immunoreactivity for substance P (SP) and vasoactive intestinal peptide (VIP) in the intestinal wall, using immunofluorescence. SP and VIP immunoreactivity identify excitatory and inhibitory nerve fibres, respectively. Full-thickness rectal biopsy specimens were unsatisfactory, so seromuscular biopsies of the caecum, transverse colon, and sigmoid colon were obtained (by laparoscopy and laparotomy; n = 10 patients). SP-immunoreactive fibres were markedly reduced in seven, with concomitant reduction of VIP-immunoreactive fibres in four. In two other patients, there was no obvious reduction in SP- or VIP-immunoreactive fibres. In a patient who subsequently was found to have multiple endocrine neoplasia type 2b, the myenteric plexus was markedly hyperplastic, with an increase in nerve cells and nerve fibres. VIP-immunoreactive fibres were increased, but SP-immunoreactive fibres were markedly decreased. Surgical options included proximal stoma, Malone operation, and subtotal colectomy with preservation of the rectum. Three children with subtotal colectomy have had improvement over short-term follow-up. The combination of seromuscular laparoscopic biopsies and immunofluorescence demonstration of neuropeptides may identify new variants of intestinal neuronal dysplasia than can be treated successfully with surgery.
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PMID:Intractable constipation with a decrease in substance P-immunoreactive fibres: is it a variant of intestinal neuronal dysplasia? 880 18

In order to investigate the causes of abnormal peristalsis of the colon in intestinal neuronal dysplasia (IND), we studied the structure of the myenteric plexus of IND colon using silver-impregnation (Suzuki's method) as well as the innervation of both IND colons and normal colons using immunofluorescence technique with monoclonal antibodies to synaptic vesicles, and antisera to vasoactive intestinal polypeptide (VIP), substance P (SP), methionine-enkephalin (Met-Enk), and gastrin-releasing peptide (GRP). The following results were obtained. 1) In the IND colon, the number of identifiable myenteric ganglia was decreased. In a few cases of IND, irreversible neuron degeneration can be involved in the pathogenesis of IND. 2) In the IND colon, the distribution and fluorescence intensity of synaptic vesicles coincided with those of peptidergic nerve fibers. In the normal colon, synaptic vesicles were much more numerous in the circular muscle layers than in the longitudinal muscle layers, and the fluorescence intensity of those in the circular muscle layers was stronger than that of those in the longitudinal muscle layers. On the other hand, in IND colon, there were fewer synaptic vesicles in the circular muscle layers, and their fluorescence intensity was weak, while there were many synaptic vesicles in the longitudinal muscle layers, and their fluorescence intensity was strong. 3) Morphological abnormalities may exist in synaptic vesicles in the circular muscle layers of the IND colon. 4) Regarding the peptidergic nerve fibers, in the IND colon, innervation of circular muscle layers by Met-Enk-, GRP- and SP-immunoreactive fibers was reduced, and longitudinal muscles were more strongly innervated by immunoreactive fibers than those in the normal colon. 5) Disturbed innervation of non-adrenergic non-cholinergic excitatory nerves may cause the disturbance of muscle contractions in the IND colon. In addition, an imbalance of peptidergic and synaptic vesicle's innervations in both muscle layers may be related to the abnormal peristalsis of IND colon. Also, morphological abnormalities of synaptic vesicles may be concerned with its abnormal peristalsis.
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PMID:Preliminary immunohistochemical new findings in the myenteric plexus of patients with intestinal neuronal dysplasia type B. 908 4

Patients with chronic constipation that fails to respond to treatment remain a challenge for paediatricians and surgeons. Ongoing work in our institution suggests that a number of children with intractable symptoms have slow transit constipation, which has only been described recently in paediatrics. Common features of slow transit are: delayed passage of the first meconium stool beyond 24 h of age, symptoms of severe constipation within a year, or treatment-resistant 'encopresis' at 2-3 years, soft stools despite infrequent bowel actions, and delay in colonic transit on a transit study. A proportion of children with slow transit constipation have an abnormality of intestinal innervation associated with the dysfunctional colonic motility, recognized as intestinal neuronal dysplasia (IND). Intestinal neuronal dysplasia type B, the most common variant of IND, is defined on rectal biopsy by hyperplasia of the submucosal plexus. On laparoscopic colon muscle biopsy, many specimens show reduced numbers of excitatory substance P-immunoreactive nerve fibres in the circular muscle. Functional markers of the nerves allow new diagnostic criteria to be developed which may also allow a more rational approach to treatment. The aetiology remains obscure and the optimal management poorly defined, although subtotal colectomy, proximal colostomy or appendicostomy (for antegrade enemas) have been tried. Once the anatomy and physiology of the colon in children with slow colonic transit is better understood, we will have defined not only a new form of constipation, but also will be able to consider new therapies.
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PMID:Slow transit constipation in children. 1188 3

The enteric nerve plexus in the colon was investigated in rats with chemically induced colonic adenocarcinoma. Tissue specimens from the colons of four group rats, namely controls, treated animals without development of colonic macro- or microscopic changes, rats with dysplasia and lymphoid hyperplasia, and rats with colonic adenocarcinoma were studied using immunocytochemistry, and quantified by computerized image analysis. No morphometeric changes were found in the treated rats regarding the myenteric and submucosal ganglia, with the exception of nitric oxide synthase (NOS), where the number of nerve cell bodies/ganglia was reduced in the myenteric ganglia in rats with both lymphoid hyperplasia and dysplasia, and carcinoma. The relative volume density of protein gene product (PGP) 9.5-immunoreactive (IR) nerve fibres was higher in the muscularis propria in rats with lymphoid hyperplasia and dysplasia, and carcinoma. However the relative volume density of PGP 9.5-IR nerve fibres was higher in the submucosa in rats with carcinoma only. The relative volume density of substance P- and VIP-IR nerve fibres was significantly higher in the muscularis propria in rats with colonic carcinoma. The relative volume density of NOS-IR nerve fibres was significantly decreased in both muscularis propria and submucosa in rats with lymphoid hyperplasia and dysplasia, and carcinoma. These findings imply that regulatory signals of the enteric innervation may be involved in the pathogenesis of colorectal cancer.
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PMID:Changes in the colonic enteric nervous system in rats with chemically induced colon dysplasia and carcinoma. 1254 27

We have compared the density of nerve fibres in the synovium in club foot with that of specimens obtained from the synovium of the hip at operations for developmental dysplasia. The study focused on the sensory neuropeptides substance P; calcitonin gene-related peptide; protein gene product 9.5, a general marker for mature peripheral nerve fibres; and growth associated protein 43, a neuronal marker for new or regenerating nerve fibres. In order to establish whether there might be any inherent difference we analysed the density of calcitonin gene-related peptide-positive nerve fibres in the hip and ankle joints in young rats. Semi-quantitative analysis showed a significant reduction in the number of sensory and mature nerve fibres in the synovium in club foot compared with the control hips. Calcitonin gene-related peptide (CGRP) positive fibres were reduced by 28%, substance P-positive fibres by 36% and protein gene product 9.5-positive fibres by 52% in club foot. The growth associated protein 43-positive fibres also seemed to be less in six samples of club foot. No difference in the density of CGRP-positive nerve fibres was observed in the synovium between ankle and hip joints in rats. The lack of sensory input may be responsible for the fibrosis and soft-tissue contractures associated with idiopathic club foot.
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PMID:Sensory hypoinnervation in club foot. 1556 31

Acrolein is a chemical used as an intermediate reactive aldehyde in chemical industry. It is used for synthesis of many organic substances, methionine production, and methyl chloride refrigerant. The general population is exposed to acrolein via smoking, second-hand smoke, exposure to wood and plastic smoke. Firefighters and population living or working in areas with heavy automotive traffic may expose to higher level of acrolein via inhalation of smoke or automotive exhaust. Degradation of acrolein in all environmental media occurs rapidly, therefore, environmental accumulation is not expected. Acrolein degrade in 6A days when applied to surface water, and it has not been found as a contaminant in municipal drinking water. Acrolein vapor may cause eye, nasal and respiratory tract irritations in low level exposure. A decrease in breathing rate was reported by volunteers acutely exposed to 0.3A ppm of acrolein. At similar level, mild nasal epithelial dysplasia, necrosis, and focal basal cell metaplasia have been observed in rats. The acrolein effects on gastrointestinal mucosa in the animals include epithelial hyperplasia, ulceration, and hemorrhage. The severity of the effects is dose dependent. Acrolein induces the respiratory, ocular, and gastrointestinal irritations by inducing the release of peptides in nerve terminals innervating these systems. Levels of acrolein between 22 and 249 ppm for 10 min induced a dose-related decrease in substance P (a short-chain polypeptide that functions as a neurotransmitter or neuromodulator).
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PMID:Acrolein health effects. 1902 74

The objectives of this study were to investigate the presence and distribution of substance P and neurokinin 1 receptor in oral premalignant epithelium and their relation with the presence of dysplasia, and to analyze whether the expression of substance P can be considered an early oncogenic event in oral carcinogenesis. substance P and neurokinin 1 receptor expression was immunohistochemically studied in 83 oral carcinomas and adjacent non-tumor epithelia. The presence and degree of epithelial dysplasia was assessed according to WHO criteria. The nuclear, cytoplasmic, and membrane expression of substance P and the cytoplasmic and membrane expression of neurokinin 1 receptor were assessed in tumor and adjacent non-tumor epithelium. Nuclear and cytoplasmic expression of substance P in non-tumor epithelium was significantly associated with the presence of epithelial dysplasia (p<0.001) and carcinoma in situ (p=0.021). Nuclear, cytoplasmic, and membrane expressions of substance P in non-tumor epithelium were significantly (p<0.001) associated with its expression in the corresponding tumor. These findings suggest that substance P plays a role in early oral carcinogenesis by promoting the proliferation and growth of premalignant fields.
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PMID:Substance P and NK-1R expression in oral precancerous epithelium. 1988 83

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