Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.5 (5'-nucleotidase)
 3,167 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A procedure is described for isolating two membrane fractions from rabbit spinal-cord white matter enriched with 5'-nucleotidase, a nonspecific plasma membrane marker, 2',3'-cyclic nucleotide phosphohydrolase, an oligodendroglial plasma membrane marker, and acetylcholinesterase, an axonal plasma membrane marker. While the two membrane fractions exhibited similar enrichments with respect to cyclic nucleotide phosphohydrolase, enrichments of 5'-nucleotidase and acetylcholinesterase were significantly greater in the heavier membrane fraction. Selected enzyme markers for cyto- and mitochondrial membranes were not detected. Moreover, gray matter did not yield homologous membrane fractions in the gradient when subjected to the identical procedure, indicating that the two membrane fractions were unique to white matter. While electronmicroscopic examination revealed that both membrane fractions were comtaminated with myelin, the heavier fraction was least contaminated and exhibited a fair degree of homogeneity with respect to single membrane vesicular profiles. It was concluded that both membrane fractions were enriched with oligodendroglial and axonal plasma membranes, with the heavier fraction containing significantly more axolemma.
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PMID:Isolation of non-myelin plasma membranes unique to white matter. 19 99

Transection of the facial nerve causes proliferation of microglial cells in the facial nucleus. The miroglial cells can be seen in perineuronal and perivascular positions. A high activity of 5'-nucleotidase is demonstrated cytochemically in the plasma membranes of these cells. The increase of enzymatic sites for the production of adenosine during axonal reaction might be of functional significance for the regenerating motor neuron.
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PMID:5'-Nucleotidase of microglial cells in the facial nucleus during axonal reaction. 72 17

Stereotaxic lesioning of the entorhinal cortex leads to an anterograde axonal degeneration in the molecular layer of the dentate gyrus. As revealed by immunocytochemical and histochemical methods, lesion of the entorhinal cortex induced a proliferation of microglia and an increased expression of established microglial activation markers within the deafferented zone. Reactive microglial cells were detected as early as 24 h after the lesion. The microglial reaction showed a maximum around day 3 post-lesion and disappeared by day 8 post-lesion. Reactive microglia were strongly positive for the B4-isolectin from Griffonia simplicifolia (GSI-B4), expressed high levels of CR3 complement receptor and 5'-nucleotidase, but lacked CD4 and MHC class I and II antigens. In addition, microglial cells were identified using MUC 102, a new monoclonal antibody against rat microglia. At the ultrastructural level, reactive microglial cells were consistently seen to phagocytose degenerating terminals. Our data suggest that (1) axonal degeneration represents a sufficient stimulus for inducing microglial activation and proliferation in the deafferented dentate gyrus; (2) these activated microglial cells are characterized by immunophenotypes different from those observed in other types of CNS injury; (3) the early microglial reaction precedes the well-documented astrocyte reaction in the dentate gyrus; and (4) the timed interaction of microglia and astrocytes could be important for regulating regenerative sprouting processes in the mature CNS.
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PMID:Lesion of the rat entorhinal cortex leads to a rapid microglial reaction in the dentate gyrus. A light and electron microscopical study. 178 57

Distribution of the binding sites for [3H]diprenorphine, a non-selective opiate ligand, was studied in membrane fractions from longitudinal muscle/myenteric plexus and circular muscle containing deep muscular plexus. [3H]saxitoxin was used as a marker for neuronal plasma membranes and 5'-nucleotidase as a marker for smooth muscle plasma membranes. Saxitoxin binding correlated strongly with diprenorphine binding, but 5'-nucleotidase correlated poorly with diprenorphine or saxitoxin binding in these fractions. Opiate binding sites in membranes of myenteric and deep muscular plexus were of high affinity (Kd = 0.12 and 0.18 nM, respectively) with maximum binding capacity of 400 and 500 fmol/mg protein, respectively. Competition experiments using subtype-selective opiate ligands indicated that all three subtypes of opiate receptors were present in the same ratio of 40-45% mu-subtypes, 40-45% delta-subtypes, and 10-15% kappa-subtypes on both plexuses. Opiate receptors of canine small intestine, therefore, are located primarily or exclusively on nerves with similar distributions in nerve membranes containing only axonal varicosities (deep muscular plexus) as in those containing neurons, dendrites, and varicosities (myenteric plexus).
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PMID:Distribution of opioid receptors in canine small intestine: implications for function. 254 2

Primary cultures of Schwann cells were labeled by indirect immunofluorescence using an antibody directed against 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase). Schwann cells which had been maintained in culture for 8 weeks were labeled with this antibody. Immunoblot analysis of Schwann cell homogenates revealed a single band with a molecular weight of 54,000 daltons which corresponded to a single immunoreactive polypeptide present in myelin prepared from rat sciatic nerve. The subcellular localization of CNPase was examined by fractionation of cultured Schwann cell homogenates with linear sucrose gradients. The distribution of CNPase paralleled that of 5'-nucleotidase, a putative marker for plasma membranes. These results suggest that CNPase is localized on the plasma membranes of Schwann cells and is expressed by the cells in the absence of an axonal stimulus.
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PMID:Localization of 2',3'-cyclic nucleotide 3'-phosphodiesterase on cultured Schwann cells. 298 27

The amyloid precursor protein may be processed by several different pathways, one of which produces the amyloid beta-peptide betaA4 present in the amyloid plaques characteristic of Alzheimer's disease. A recent report suggested that axonal-amyloid precursor protein is present in a membrane fraction "with caveolae-like properties." In the present study we have isolated detergent-insoluble, caveolae-like membranes from both mouse cerebellum and the human neuroblastoma cell line SH-SY5Y. Detergent-insoluble membranes from mouse cerebellum retained nearly all of the glycosylphosphatidylinositol-anchored proteins--alkaline phosphatase, 5'-nucleotidase, and the F3 protein--while excluding the majority of the plasmalemmal marker protein alkaline phosphodiesterase I. Although the inositol trisphosphate receptor was highly enriched in this detergent-insoluble fraction, neither amyloid precursor protein nor clathrin immunoreactivity could be detected. Similar results were obtained with SH-SY5Y cells, where 5'-nucleotidase activity was enriched at least 30-fold in the detergent-insoluble membranes, but no amyloid precursor protein or clathrin immunoreactivity could be detected. Caveolin could not be detected in microsomal membranes from either mouse cerebellum or SH-SY5Y cells. These observations suggest that amyloid precursor protein is not normally present in detergent-insoluble, caveolae-like membrane microdomains.
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PMID:The amyloid precursor protein is not enriched in caveolae-like, detergent-insoluble membrane microdomains. 934 65

Purinergic signaling is involved in pain generation and modulation in the nociceptive sensory nervous system. Adenosine triphosphate (ATP) induces pain via activation of ionotropic P2X receptors while adenosine mediates analgesia via activation of metabotropic P1 receptors. These purinergic signaling are determined by ecto-nucleotidases that control ATP degradation and adenosine generation. Using enzymatic histochemistry, we detected ecto-AMPase activity in dental pulp, trigeminal ganglia (TG) neurons, and their nerve fibers. Using immunofluorescence staining, we confirmed the expression of ecto-5'-nucleotidase (CD73) in trigeminal nociceptive neurons and their axonal fibers, including the nociceptive nerve fibers projecting into the brainstem. In addition, we detected the existence of CD73 and ecto-AMPase activity in the nociceptive lamina of the trigeminal subnucleus caudalis (TSNC) in the brainstem. Furthermore, we demonstrated that incubation with specific anti-CD73 serum significantly reduced the ecto-AMPase activity in the nociceptive lamina in the brainstem. Our results indicate that CD73 might participate in nociceptive modulation by affecting extracellular adenosine generation in the trigeminal nociceptive pathway. Disruption of TG neuronal ecto-nucleotidase expression and axonal terminal localization under certain circumstances such as chronic inflammation, oxidant stress, local constriction, and injury in trigeminal nerves may contribute to the pathogenesis of orofacial neuropathic pain.
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PMID:CD73 Controls Extracellular Adenosine Generation in the Trigeminal Nociceptive Nerves. 2853 Apr 70