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)

Immunoreactivity for the neurofilament protein triplet was investigated in neurons of the dorsal root ganglia of the guinea-pig by using a battery of antibodies. In unfixed tissue, nearly all neurons in these ganglia demonstrated some degree of neurofilament protein triplet immunoreactivity. Large neurons generally displayed intense immunoreactivity, whereas most small to medium-sized neurons showed faint to moderate immunoreactivity. Double-labelling immunofluorescence demonstrated that most antibodies to the individual subunits of the neurofilament protein triplet had the same distribution and intensity of labelling in sensory neurons. Increasing durations of tissue fixation in aldehyde solutions selectively diminished neurofilament protein triplet immunoreactivity in small to medium-sized neurons. Double-labelling with neurofilament protein triplet antibodies in combination with antibodies to other neuronal markers, such as neuron-specific enolase, substance P and tyrosine hydroxylase, showed that tissue processing conditions affect the degree of co-localization of immunoreactivity to the neurofilament protein triplet and to these other neuronal markers. These results indicate that, with a judicious manipulation of the duration of tissue fixation, neurofilament protein triplet immunoreactivity can be used in combination with other neuronal markers to distinguish groups of neurons according to their size and chemical coding.
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PMID:Neurofilament protein triplet immunoreactivity in the dorsal root ganglia of the guinea-pig. 171 54

The cutaneous nerves of rat, cat, guinea pig, pig, and man were studied by immunocytochemistry to compare the staining potency of general neural markers and to investigate the density of nerves containing peptides. Antiserum to protein gene product 9.5 (PGP 9.5) stained more nerves than antisera to neurofilaments, neuron-specific enolase (NSE), and synaptophysin or histochemistry for acetylcholinesterase (AChE). Peptidergic axons showed species variation in density of distribution and were most abundant in pig and fewest in man. However, the specific peptides in nerves innervating the various structures were consistent between species. Nerve fibers immunoreactive for calcitonin gene-related peptide (CGRP) and/or vasoactive intestinal polypeptide (VIP) predominated in all the species; those immunoreactive to tachykinins (substance P and neurokinin A [NKA]) and neuropeptide tyrosine (NPY) were less abundant. Neonatal capsaicin, at the doses employed in this study, destroyed approximately 70% of CGRP- and tachykinin-immunoreactive sensory axons; whereas 6-hydroxydopamine (6-OHDA) at the doses employed resulted in a complete loss of NPY and tyrosine hydroxylase (TH) immunoreactivity without affecting VIP, CGRP, and tachykinins. Thus, this study confirms that antiserum to PGP 9.5 is the most suitable and practical marker for the demonstration of cutaneous nerves. Species differences exist in the density of peptidergic innervation, but apparently not for specific peptides. Not all sensory axons immunoreactive for CGRP and substance P/NKA are capsaicin-sensitive. However, all sympathetic TH- and NPY-immunoreactive axons are totally responsive to 6-OHDA; but no change was seen in VIP-immunoreactive axons, suggesting some demarcation of cutaneous adrenergic and cholinergic sympathetic fibers.
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PMID:An immunocytochemical study of cutaneous innervation and the distribution of neuropeptides and protein gene product 9.5 in man and commonly employed laboratory animals. 171 91

Comparative immunocytochemical studies concerning the presence of a neurotransmitter (substance P), and a marker of neuroendocrine cells (neuron-specific enolase), in the Leydig cells of 3 mammalian species (golden hamster, guinea pig, and rat) were carried out on tissue sections and cell cultures. Substance P(SP)-like immunoreactivity (-LI) was found to be present in both fetal and adult generation of Leydig cells in hamster and guinea pig, while neuron-specific enolase (NSE)-LI was detected in Leydig cells of the 3 species at all stages studied: fetal, neonatal and adult. In primary cultures of Leydig cells isolated from adult hamster testes, SP- and NSE-LI was also established. This result was considered as an indirect evidence for the synthesis of the substances under study by the steroidogenic cells of the testis. A comparison of these results with data obtained in vivo suggests that Leydig cells may be related to the APUD- or the diffuse neuroendocrine system.
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PMID:Substance P- and neuron-specific enolase-like immunoreactivity of rodent Leydig cells in tissue section and cell culture. 172 82

Using the peroxidase anti-peroxidase immunocytochemical technique, neuron-specific enolase (NSE)-like immunoreactivity (NSE-LI) was revealed in Leydig cells of adult human testes at the light microscopic level. Differences in the NSE staining intensity were observed between the individual Leydig cells, separate cell groups within a testis and between the testes of individual patients. Together with the already established substance P-like immunoreactivity (SP-LI), the results obtained provided further evidence for the possible neuroectodermal origin of human Leydig cells and their presumable relation to the APUD- or the Diffuse Neuroendocrine System (DNES).
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PMID:Neuron-specific enolase-like immunoreactivity in human Leydig cells. 177 41

The distribution of nerve cell bodies and fibres in the canine stomach was investigated using antibodies to the general neuronal marker, neuron-specific enolase. Prominent ganglia containing many reactive nerve cells were found in the myenteric plexus of the gastric corpus and antrum. Nerve cells were absent from the submucosa of the corpus and were extremely rare in the antrum. Removal of areas of longitudinal muscle and myenteric plexus from the corpus (myectomy), with 7 days allowed for axon degeneration, resulted in the loss of fibres reactive for galanin, gastrin-releasing peptide, substance P and vasoactive intestinal peptide from both the circular muscle and mucosa in the area covered by the lesion. Combined vagotomy and sympathetic denervation did not significantly affect these fibres, but did cause fibres reactive for calcitonin gene-related peptide to degenerate. It is concluded that the myenteric plexus of the gastric corpus, like the myenteric plexus of the small intestine and colon, is the source of nerve fibres innervating the circular muscle, but, in contrast to other regions of the gastrointestinal tract, myenteric ganglia, not submucous ganglia, are the major, or sole, source of the intrinsic innervation of the mucosa.
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PMID:Evidence that myenteric neurons of the gastric corpus project to both the mucosa and the external muscle: myectomy operations on the canine stomach. 181 78

This study describes the immunocytochemical distribution of five neuropeptides (calcitonin gene-related peptide [CGRP], enkephalin, galanin, somatostatin, and substance P), three neuronal markers (neurofilament triplet proteins, neuron-specific enolase [NSE], and protein gene product 9.5), and two synaptic-vesicle-associated proteins (synapsin I and synaptophysin) in the spinal cord and dorsal root ganglia of adult and newborn dogs. CGRP and substance P were the only peptides detectable at birth in the spinal cord; they were present within a small number of immunoreactive fibers concentrated in laminae I-II. CGRP immunoreactivity was also observed in motoneurons and in dorsal root ganglion cells. In adult animals, all peptides under study were localized to varicose fibers forming rich plexuses within laminae I-III and, to a lesser extent, lamina X and the intermediolateral cell columns. Some dorsal root ganglion neurons were CGRP- and/or substance P-immunoreactive. The other antigens were present in the spinal cord and dorsal root ganglia of both adult and newborn animals, with the exception of NSE, which, at birth, was not detectable in spinal cord neurons. Moreover, synapsin I/synaptophysin immunoreactivity, at birth, was restricted to laminae I-II, while in adult dogs, immunostaining was observed in terminal-like elements throughout the spinal neuropil. These results suggest that in the dog spinal cord and dorsal root ganglia, peptide-containing pathways complete their development during postnatal life, together with the full expression of NSE and synapsin I/synaptophysin immunoreactivities. In adulthood, peptide distribution is similar to that described in other mammals, although a relative absence of immunoreactive cell bodies was observed in the spinal cord.
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PMID:Distribution of five peptides, three general neuroendocrine markers, and two synaptic-vesicle-associated proteins in the spinal cord and dorsal root ganglia of the adult and newborn dog: an immunocytochemical study. 186 58

Cytologic criteria for distinguishing endocrine from exocrine carcinomas of the pancreas have not been previously elucidated. A case is presented in which the diagnosis of neuroendocrine carcinoma was made on fine needle aspirates of a pancreatic mass and hepatic metastases in a 33-year-old female. Cytologically, the aspirated tumor resembled an intermediate-cell neuroendocrine carcinoma of the lung rather than the usual duct-cell adenocarcinoma of the pancreas. Histologic sections of the subsequently resected primary pancreatic mass revealed a neuroendocrine carcinoma of an intermediate-cell type. Ultrastructurally, the characteristic interlacing cytoplasmic processes with scanty granules were seen. Immunoreactive neuron-specific enolase (NSE), leuenkephalin, substance P and somatostatin were present in the tumor cells in Bouin's-fixed cell blocks of the aspirate; neuron-specific enolase, somatostatin and gastrin were detected in the paraffin-embedded sections of the resected tumor. This variant of pancreatic carcinoma merits recognition as a cytologically distinct group, which shares many of the features described in its bronchopulmonary and gastrointestinal counterparts.
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PMID:Neuroendocrine carcinoma of the pancreas diagnosed by aspiration cytology. A case report. 240 7

Non-hairy and hairy human skin were investigated with the use of the indirect immunohistochemical technique employing antisera to different neuronal and non-neuronal structural proteins and neurotransmitter candidates. Fibers immunoreactive to antisera against neurofilaments, neuron-specific enolase, myelin basic protein, protein S-100, substance P, neurokinin A, neuropeptide Y, tyrosine hydroxylase and vasoactive intestinal polypeptide hydroxylase and vasoactive intestinal polypeptide (VIP) were detected in the skin with specific distributional patterns. Neurofilament-, neuron-specific enolase-, myelin basic protein-, protein S-100, neuropeptide Y-, tyrosine hydroxylase- and vasoactive intestinal polypeptide (VIP)-like immunoreactivities were found in or in association with sensory nerves; moreover, neuron-specific enolase-, myelin basic protein-, protein S-100, neuropeptide Y-, tyrosine hydroxylase- and vasoactive intestinal polypeptide (VIP)-like immunoreactivities occurred in or in association with autonomic nerves. It was concluded that antiserum against neurofilaments labels sensory nerve fibers exclusively, whereas neuron-specific enolase-, myelin basic protein- and protein S-100-like immunoreactivities are found in or in association with both sensory and autonomic nerves. Substance P- and neurokinin A-like immunoreactivities were observed only in sensory nerve fibers, and neuropeptide Y- and tyrosine hydroxylase-like immunoreactivities occurred only in autonomic nerve fibers, whereas vasoactive intestinal polypeptide (VIP)-like immunoreactivities was seen predominantly in autonomic nerves, but also in some sensory nerve fibers.
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PMID:Sensory and autonomic innervation of non-hairy and hairy human skin. An immunohistochemical study. 241 23

The concomitant occurrence of neuropeptide-reactive endometrial carcinoma and ileal carcinoid tumor represents an observation that has been unreported until now. We have seen two patients with this rare combination of tumors. The endometrial carcinomas in these cases manifested focal immunoreactivity for neuron-specific enolase; in addition, one contained rare cells showing positive staining for gastrin, and the other displayed focal content of substance P. The carcinoid tumors seen in each case demonstrated immunocytochemical positivity for neuron-specific enolase and vasoactive intestinal polypeptide, and one also exhibited immunoreactivity for gastrin. Whether this association of neoplasms represents a syndromic complex or a coincidence is a matter of speculation at present.
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PMID:Concomitant neuropeptide-producing endometrial carcinomas and ileal carcinoid tumors. 242 Jan 66

The gastrointestinal and respiratory tracts contain numerous regulatory peptides produced by and released from specialised epithelial cells and the organ innervation. This complex system of endocrine cells and nerves is generally called "the diffuse neuroendocrine system". Markers are now available which permit the visualisation of the diffuse neuroendocrine system or its individual components. These include antibodies to neuron-specific enolase, chromogranin, neurofilament triplet proteins, the brain protein S100 and antibodies to a variety of regulatory peptides. Peptides present in the gut and lung innervation include: vasoactive intestinal polypeptide (VIP), peptide histidine isoleucine (PHI), galanin, substance P, calcitonin gene-related peptide (CGRP), neuropeptide tyrosine (NPY), somatostatin and cholecystokinin (the latter two are also localised to endocrine cells of the gut). Bombesin-immunoreactivity is found in nerves in the gut and in endocrine cells of the foetal/neonatal lung. Neuropeptides of the gut and lung originate either from local neurons (e.g. VIP, PHI, galanin) or extrinsic neurons localised in sensory ganglia (e.g. substance P and CGRP) or the sympathetic chain (e.g. NPY). Recent studies point to the involvement of regulatory peptides in diseases of the gut and lung. These, together with detailed distribution studies, provide supportive data on the putative role of the peptides in the control of normal bowel and respiratory functions. The gastrointestinal and respiratory tracts were within the systems investigated by Feyrter during his original observations on the existence of specialised epithelial cells with a putative regulatory function (Feyrter, 1938). These "endocrine/paracrine" cells were found to be scattered in epithelial organs throughout the body. In fact, endocrine cells of the respiratory tract are frequently referred to as "Feyrter's cells". The term "regulatory peptides" was introduced as a generic term (Polak and Bloom, 1983) after the finding that active peptides are produced both by cells of the diffuse endocrine or APUD (amine precursor uptake and decarboxylation) system (Pearse, 1983) and autonomic/sensory nerves. These peptides are released into the circulation from endocrine cells or locally from nerve terminals or paracrine cells. The concept of "gut/brain" peptides was dispelled after the findings that the respiratory tract was provided abundantly with numerous active peptides produced by and released from mucosal endocrine cells and/or the innervation.
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PMID:Regulatory peptides of the gastrointestinal and respiratory tracts. 242 59


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