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)

There are only a few studies on the innervation of the human parathyroid glands and the content of neurotransmitters. We therefore studied the occurrence and distribution of peptide-containing and adrenergic nerve fibres and the coexistence pattern of neuromessengers by immunocytochemistry in normal (unaffected) and adenomatous parathyroid glands from patients undergoing surgery for parathyroid adenoma. The unaffected parathyroid glands had a moderate-to-rich supply of nerve fibres and terminals containing two general neuronal markers, protein gene product 9.5 (PGP 9.5) and synaptophysin, neuropeptide Y (NPY) and tyrosine hydroxylase (TH). They were seen close to blood vessels and, occasionally, among the endocrine cells. Only a few nerves contained calcitonin gene-related peptide (CGRP), vasoactive intestinal polypeptide (VIP), substance P (SP) and pituitary adenylate cyclase-activating peptide (PACAP). The general density of innervation, using PGP 9.5 and synaptophysin as markers, varied greatly among the different adenomas examined. This applied also to the density of fibres and terminals containing specific types of messengers. Some of the tumours had a rich supply of TH- and NPY-containing nerve fibres, while others contained only few scattered fibres. The CGRP-containing fibres varied from moderate in number to no detectable fibres. The PACAP-, SP- and VIP-containing fibres were always very few or not detectable. It is not inconceivable that the wide variation in general density of the innervation and frequency of peptide-containing nerves among individual parathyroid adenomas is of significance for their hormone secretory behaviour.
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PMID:Peptide-containing nerve fibres in normal human parathyroid glands and in human parathyroid adenomas. 758 83

Applying double-labelling immunofluorescence, the peptide content of solitary and clustered small intensely fluorescent (SIF) cells, identified by an antiserum to a selective membrane glycoprotein marker, synaptophysin, was correlated with the presence of catecholamines in the rat superior cervical ganglion. Most of synaptophysin-immunoreactive solitary and clustered SIF cells apparently contained dopamine (indicated by tyrosine hydroxylase-TH) but not noradrenaline (indicated by dopamine-beta-hydroxylase-DBH). Frequently, immunoreactivities for substance P or rarely, neuropeptide Y were colocalized in TH-immunolabeled cells of both types. Immunostaining for vasoactive intestinal polypeptide was found only in solitary SIF cells and was visible in TH-immunoreactive, as well as in TH-nonreactive cells. Very few solitary SIF cells were TH- and DBH-immunoreactive. Solitary and clustered SIF cells, as a rule, were encircled by leu-enkephalin-positive fibres which were also met-enkephalin-arg6-phe7-immunoreactive, indicating proenkephalin as precursor. SIF cells were additionally approached by varicose fibres which contained immunoreactivity for calcitonin gene-related peptide (CGRP) but not for enkephalins. As observed by immuno-electronmicroscopy, fibres that were immunostained for leu-enkephalin or CGRP, deeply invaginated into SIF cell somata. In addition to close membrane appositions, CGRP-immunolabeled fibres exhibited efferent synaptic contacts wih elements of SIF cell clusters. SIF cells were non-reactive to enkephalin-antisera in control ganglia and after transection of the postganglionic nerves (axotomy); but both types exhibited leu-enkephalin in preganglionically transected ganglia (decentralization) in which enkephalin-immunoreactive fibre baskets were absent. Synthesis of enkephalin in SIF cells after decentralization was confirmed by in situ hybridization demonstrating intracytoplasmic proenkephalin messenger-RNA. The findings are indicative for a differential neurochemical equipment of SIF cells in the rat superior cervical ganglion, which mainly is independent to a topographical classification. Moreover, they demonstrate the involvement of two neuropeptides in preganglionic SIF cell innervation. Finally, the observations indicate the capacity of SIF cells for proenkephalin-expression in response to preganglionic denervation.
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PMID:Neurochemistry, connectivity and plasticity of small intensely fluorescent (SIF) cells in the rat superior cervical ganglion. 768 94

These studies explore the distribution of putative neuroactive peptides in the human olfactory bulb. Localization of synaptophysin-, serotonin-, cholecystokinin-, substance P-, and somatostatin-like staining was examined by immunocytochemical protocols. The results provide new insights into the composition and laminar segregation of subpopulations of neurons and neuronal processes in the human olfactory bulb. The prominent synaptophysin-like immunoreactivity observed in the glomeruli of the human olfactory bulb is consistent with the notion that the density of synapses, and hence the density of synaptic vesicles, is highest in the glomeruli. Serotonin-like immunoreactivity suggested a variable innervation of glomeruli ranging from a dense tangled ball of fibers within the glomerulus to a sparse innervation by a single immunoreactive fiber. There was no evidence of serotonin-like immunoreactive cell bodies in either the olfactory bulb proper, anterior olfactory nucleus, or proximal regions of the lateral olfactory tract. Cholecystokinin-like immunoreactivity was limited to fibers found largely in the juxtaglomerular region of the glomerular layer. In the deeper layers of the olfactory bulb, cholecystokinin-like immunoreactive fibers did not show any of branching or arborization that was evident in the juxtaglomerular region. Substance P-like immunoreactivity was seen in varicose fibers distributed in all of the human olfactory bulb laminae. In addition, stained multipolar neurons were found in the area of the anterior olfactory nucleus. Somatostatin-like immunoreactivity was similar to that of substance P in that a plexus of stained fibers was found in all laminae of the olfactory bulb. Also, somatostatin-like immunoreactive cell bodies were found in the area of the anterior olfactory nucleus. However, as compared to substance P, somatostatin had a less dense plexus of immunoreactive fibers in the olfactory bulb. These results increase our understanding of the fundamental organization of the human olfactory system. The current data, coupled with prior studies, provide a foundation from which to study the cellular pathology of diseases with known olfactory system sequelae such as Alzheimer's, Parkinson's, and schizophrenia.
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PMID:Immunohistochemical analyses of the human olfactory bulb. 769 Mar 71

A number of neuroendocrine and neuronal markers were demonstrated in Leydig cells of the testes of 18 men aged between 20 and 81 years. Tissue sections were divided into five groups, i.e. carcinoma of the prostate (control cases; n = 4), seminoma (n = 8), anti-androgen therapy (n = 3), oestradiol therapy (n = 2) and cryptorchidism (n = 1). The following substances were immunocytochemically tested: the monoamine synthesizing enzymes tyrosine hydroxylase, aromatic L-amino acid decarboxylase, dopamine-beta-hydroxylase and phenylethanolamine-N-methyltransferase, the indolamine serotonin, the calcium-binding proteins parvalbumin, calbindin and S-100 protein, the microtubule associated protein-2, as well as neurofilament protein 200, synaptophysin, neuron specific enolase, substance P and chromogranin A + B. All these substances were found in Leydig cells of all sections independently of the pathological changes of the testes. Compared with the control cases, all the other groups showed a significantly weaker immunoreactivity for all markers. The uniformity of staining among the different antibodies allows the deduction that these neuroactive peptides may belong to a basic equipment of Leydig cells probably stabilizing their function in an autocrine manner. On the other hand, Leydig cells themselves seem to be a stable structural component of the testis, which are not essentially involved in the pathogenesis of the disturbances mentioned above.
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PMID:Neuroendocrine marker substances in human Leydig cells--changes by disturbances of testicular function. 790 79

The innervation of the capsule of the guinea pig spleen was studied by light microscopy using an indirect fluorescent-labelled antibody technique, as well as by electron microscopy. A dense network of nerve fibres immunoreactive to the general neuronal marker, protein gene product 9.5 was observed in tangential sections through the capsule corresponding to the subcapsular compartment. The PGP 9.5-immunoreactivity in the fibres appeared to a large extent to be colocalised with tyrosine hydroxylase and neuropeptide Y (NPY) immunoreactivities as well as with synaptophysin immunoreactivity. Only very occasional fibres with substance P or calcitonin-gene-related peptide immunoreactivity were observed in tangential sections of the capsular region. By electron microscopy unmyelinated nerve fibres in the capsule were found to contain a large number of small dense-cored as well as clear vesicles and large dense-cored vesicles in varicose parts of the axons. The axolemma of the varicose regions was often naked, devoid of Schwann cells, and sometimes appeared denser than the nonspecialised parts of the membrane. These naked regions were observed in single sections to be apposed to splenic cells with variable intervals of extracellular space and interposed basal lamina material. Another type of contact was characterised by a very close association with splenic cells with no basal lamina interposed between the plasma membranes of the axon and the splenic cell. An intimate ultrastructural relationship was often also seen between varicose vesicle-containing axons and neighbouring axons in the nerve fibre bundles. The results show that the splenic capsule and its immediate neighbouring regions are innervated by catecholaminergic, NPY-containing fibres, which appear to establish different types of relations with the splenic cells as well as with one another.
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PMID:The innervation of the splenic capsule in the guinea pig: an immunohistochemical and ultrastructural study. 796 Nov 33

The rat pancreatic acinar tumor cell line, AR42J, is widely used to study pancreatic acinar cell biology and biochemistry. In addition to the well-documented exocrine cell features, we have identified by immunofluorescence and by electron microscopy the co-expression of small neuroendocrine (NE) vesicles using the NE vesicle-specific markers synaptophysin and "protein S.V.2." AR24J cells store [3H]GABA, which is secreted upon potassium depolarization in a calcium-dependent manner. In addition, we found the expression of the receptor for the neurotransmitter substance P by using a receptor-specific cDNA probe. Glucocorticoid treatment, which profoundly inhibits cellular growth and induces differentiation, results in a rapid decrease of substance P receptor (SPR) gene expression as assessed by Northern blot analysis. Intracellular Ca2+ mobilization was then determined in response to substance P in control cells and glucocorticoid-pretreated cells by dual wavelength spectrophotometry using fura-2 in single cells. Glucocorticoid-mediated down-regulation of substance P receptors resulted in a dose- and time-dependent decrease of the intracellular Ca2+ mobilization stimulated by substance P. In summary, these data indicate that AR42J cells display an amphicrine phenotype with two differentially regulated secretory pathways; during glucocorticoid-induced differentiation, the cells become less sensitive to substance P stimulation as a consequence of reduced gene expression of the substance P receptor.
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PMID:Rat pancreatic AR42J cells. Amphicrine cells as an in vitro model to study peptide hormone receptor regulation. 797 89

A number of marker substances for neuronal and neuroendocrine cells have been demonstrated in the cytoplasm of the interstitial Leydig cells of human testes using basic immunocytochemical methods and some of their modifications. We were able to reveal immunoreactivity for enzymes involved in the synthesis of the catecholamines dopamine and noradrenaline (tyrosine hydroxylase, aromatic L-amino acid decarboxylase, dopamine-beta-hydroxylase), for the indolamine 5-hydroxytryptamine (serotonin), as well as for a number of well-known neuronal markers such as the neurofilament protein 200, synaptophysin, chromogranin A + B, the neural cell-adhesion molecule (N-CAM), the microtubule-associated protein (MAP-2), and the calcium-binding proteins: S-100, calbindin and parvalbumin. Immunoreactivity for these substances was found in the majority of the interstitial cells although differences in the staining intensity among the individual Leydig cells and among Leydig cells from different patients were observed. At the electron-microscopic level the Leydig cell cytoplasm was seen to contain microtubules, intermediate- and microfilaments as well as clear (40-60 nm) and dense-core (100-300 nm) vesicles, providing a morphological correlate for some of the immunocytochemical results. Although individual marker substances are not absolutely specific for nerve and neuroendocrine cells, the results obtained, together with the already established neuron-specific enolase-, substance P-, methionine-enkephalin- and proopiomelanocortin (POMC)-derived peptide-like immunoreactivity, provide strong evidence for the neuroendocrine (paraneuronal, APUD-like) nature of the Leydig cells of the human testis.
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PMID:The Leydig cell of the human testis--a new member of the diffuse neuroendocrine system. 847 1

The neuroendocrine nature of a subset of Leydig cells has already been established. The present investigation deals with neuroendocrine characteristics of Leydig tumour cells. A number of neuroendocrine and neuronal markers were demonstrated in Leydig cell tumours of 7 men aged 25-41 years. The following substances were immunocytochemically tested in Leydig tumour cells: the monoamine-synthesizing enzymes tyrosine hydroxylase and aromatic L-amino acid decarboxylase, the indoleamine serotonin, the calcium-binding protein parvalbumin, the microtubule associated protein-2, neurofilament protein 200, synaptophysin, neuron specific enolase, substance P and neuronal nitric oxide synthase (NOS). Compared to the normal interstitial cells beyond the tumours, all neoplastic cells showed a significantly weaker immunoreactivity for nerve cell markers as well as for testosterone and cyclic guanosine monophosphate (cGMP), which is usually accumulated by nitric oxide (NO). This provides evidence for a certain dedifferentiation of Leydig tumour cells. However, these results suggest that tumourous development of Leydig cells does not include loss of neuronal phenotype. Moreover, on the assumption that 'neuronal' Leydig cells exist beside 'non-neuronal' ones in normal testicular tissue, we propose the hypothesis that 'neuronal' Leydig cells can transform to tumour cells.
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PMID:Neuroendocrine characteristics of human Leydig cell tumours. 859 7

Subependymal giant cell astrocytoma (SEGA) is the most common neoplastic process involving the brain in patients with tuberous sclerosis complex (TSC). Morphologically, these tumors exhibit a wide range of cytoarchitecture with spindle and epithelioid cells resembling astrocytes, and also large, occasionally giant cells, some of which have a distinctly ganglion-like appearance. Unresolved questions regarding SEGAs center on: (a) their cytogenesis, i.e., whether they are derived from single or multiple precursors; and (b) their differentiating capacity along glial or neuronal lines. We sought to determine whether SEGAs represent truly mixed tumors or whether they consist of a single population of cells with a capacity for divergent differentiation. Twenty SEGAs were assessed for immunophenotypic features of either neuronal or glial differentiation or both. Only tumors from patients with a clinically confirmed diagnosis of TSC were included. Immunoreactivity for glial fibrillary acidic protein (GFAP) and/or S-100 protein was considered indicative of a glial phenotype, whereas the presence of neuronal differentiation was assessed by staining for cytoskeletal proteins [neurofilament epitopes, class III Beta-tubulin, microtubule-associated protein 2 (MAP2), synaptophysin], neurosecretory substances [serotonin, cholecystokinin, Beta-endorphin, substance P, somatostatin, metenkephalin, neuropeptide Y, vasoactive intestinal polypeptide (VIP), and for the 28-kDa neuron-associated calcium binding protein calbindin. Of the tumors examined, 18 exhibited both glial and neuronal epitopes, the staining pattern being variable. In 19 tumors, the constituent spindle, polygonal and giant or ganglion-like cells showed variable immunoreactivity for GFAP and S-100 proteins both within the cell body and processes. Neuron-associated cytoskeletal proteins were present in 18 cases. Class III Beta-tubulin immunoreactivity was demonstrated in 17 tumors, both within the bodies of all three cell types and to varying degrees within their processes. Neurofilament protein and calbindin staining was present in 8 tumors, with reactivity for the former being distributed in a phosphorylation-dependent manner. MAP2 was detected in a few cells of two tumors. Immunoreactivity for neuropeptides was observed in 17 lesions. Somatostatin and metenkephalin staining was noted in 10 tumors (50%) being present particularly within polygonal cells. Neuropeptide Y, serotonin and Beta-endorphin reactivity was found in 6 (30%), 5 (25%), and 4 tumors (20%), respectively; Beta-endorphin was lacking in giant cells, whereas neuropeptide Y and serotonin were seen within their cell bodies. Substance P and VIP were evident in only occasional polygonal cells of 2 (10%) and 1 tumor (5%), respectively. Stains for cholecystokinin were negative. The observation of immunoreactivity for both glial- and neuron-associated epitopes within tumor cells of the same morphology suggests that SEGAs represent proliferations of cell lineages with the capacity to undergo divergent glioneuronal as well as neuroendocrine differentiation to a greater extent than do other mixed glial-neuronal neoplasms.
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PMID:Immunohistochemical characterization of subependymal giant cell astrocytomas. 892 13

The parathyroid glands of the adult rat harbor a number of neuroendocrine markers, biologically active peptides and "classical" neuromessengers in addition to parathyroid hormone (PTH). Their appearance during parathyroid development is, however, not known. In the present study we have examined several neuroendocrine markers and neuromessengers in the parathyroid glands of the developing rat [embryonic stage 21(E21), newborn, 1, 2, 3, 4 week old, and adult rats] using immunocytochemistry. Chromogranin A- and PTH-mRNA were also examined by in situ hybridization and the mRNA levels were quantitated by computerized image analysis. Protein gene product 9.5- and synaptophysin-containing nerve fibers appeared already before birth and then gradually increased in number postnatally, and at the age of 4 weeks the nerve fibers were moderate in number to numerous. Nerve fibers containing calcitonin gene-related peptide, neuropeptide Y and vasoactive intestinal polypeptide also increased gradually in number, while galanin-, substance P- and tyrosine hydroxylase-containing fibers remained few throughout development. The glandular cells expressed chromogranin A, pancreastatin and PTH already before birth. The levels of chromogranin A- and PTH-mRNA were low at E21 and increased markedly at birth; chromogranin A mRNA levels had increased even more at 1 week postnatally. Three to 4 weeks after birth the levels of PTH- and chromogranin A mRNA again increased, then stabilized at a slightly lower level in the adult rat. Our findings demonstrate that the parathyroid glands of rat are already innervated and express PTH and chromogranin A before birth and that the density of peptide-containing nerve fibers changes during development. The stepwise increases of PTH- and chromogranin A mRNAs during development indicate marked changes in parathyroid activity occurring at birth and at weaning.
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PMID:Developmental expression of neuronal and endocrine markers in the parathyroid glands of the rat. 919 26


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