Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.37 (CNPase)
 539 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cells resembling oligodendrocytes are sometimes seen within reactive astrocytes in fresh lesions in multiple sclerosis. Using immunostained paraffin and epoxy sections of fresh plaques obtained at autopsy from a series of cases of short clinical duration, it was found that small cells with round nuclei are commonly observed within reactive astrocytes in some hypercellular plaques and that these cells are phenotypically undifferentiated oligodendrocytes, i.e., nonmyelinating cells expressing intensely the oligodendrocyte determinants 2',3'-cyclic nucleotide 3'-phosphohydrolase and the carbohydrate epitope present on the family of cell adhesion molecules recognized by monoclonal antibody HNK-1. They also stain positively for IgG. This unusual astrocyte-oligodendrocyte interaction, which appears to be restricted to nonmyelinating oligodendrocytes in lesions of several weeks' to several months' duration, has not been described during normal oligodendrocyte differentiation or in experimental central remyelinating lesions. It bears some resemblance, however, to a pattern of slow oligodendrocyte destruction seen previously in organotypic perinatal central nervous tissue cultures exposed to multiple sclerosis serum. It is concluded that the evolution of some multiple sclerosis lesions early in the course of the disease is associated with abnormal binding and/or destruction of newly generated oligodendrocytes by reactive astrocytes. These observations raise new questions concerning mechanisms underlying failed remyelination in multiple sclerosis, including the novel possibility of an immune response directed against a developmentally restricted oligodendrocyte antigen.
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PMID:Interaction of astrocytes and newly formed oligodendrocytes in resolving multiple sclerosis lesions. 170 Jan 95

We have hypothesized that oligodendrocyte (OL) surface glycolipids, specifically galactocerebroside and sulfatide, play a role in the regulation of OL development by acting as sensors/transmitters of environment information. In support of this hypothesis we report here a reversible inhibition of OL progenitor cell differentiation by a monoclonal antibody [Ranscht mAb (R-mAb); Ranscht, B., Clapshaw, P. A. & Seifert, W. (1982) Proc. Natl. Acad. Sci. USA 79, 2709-2713] that reacts with these glycolipids. When isolated OL progenitors or mixed primary cultures are grown in the presence of the antibody, myelinogenic development is blocked in a dose-dependent manner at concentrations as low as 2 micrograms of IgG per ml. The inhibited cells express the OL progenitor markers O4 and vimentin but are negative for galactosylcerebroside, sulfatide, 2',3'-cyclic nucleotide 3'-phosphohydrolase, myelin basic protein, and myelin basic protein RNA expression. In contrast, the levels of total cellular protein and the expression of astrocytic glial fibrillary acidic protein in mixed cultures are not affected. Antibody-blocked cells have a distinctive morphology in which long, sparsely branched processes emanate from round cell bodies. Upon removing the perturbing antibody, the cells rapidly resume differentiation. Reverted mixed primary cultures, in which OL progenitors of several sequential developmental stages are present at the time of plating, differentiate more rapidly than control cultures, suggesting that the antibody-induced block results in a synchronization of developmental progression along the OL lineage by accumulating cells at the inhibition point. However, the normal temporal sequence of marker expression is maintained. Control studies with several other antibodies recognizing OL cell surface antigens, including HNK-1, neural cellular adhesion molecule (N-CAM), 1A9, anticholesterol, and O1, did not inhibit development. Since the inhibition occurs in highly enriched populations of OL progenitors, the inhibition does not involve cell-cell interactions between OLs and other cell types but concerns interactions of OLs with themselves, soluble factors, or OL extracellular matrix molecules and adhesion factors that provide essential environmental signals required for normal myelinogenic development.
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PMID:Reversible inhibition of oligodendrocyte progenitor differentiation by a monoclonal antibody against surface galactolipids. 266 57

Fresh lesions in the brain and spinal cord of patients with multiple sclerosis who died shortly after the onset of symptoms were examined immunocytochemically for myelin and oligodendrocyte antigens that are known to be sequentially expressed during normal development. Cells with oligodendrocyte-like morphology that appear in large numbers throughout fresh lesions after acute myelin breakdown and before new myelin formation were found to express galactocerebroside, carbonic anhydrase, and 2',3'-cyclic nucleotide 3'-phosphohydrolase but not myelin-associated glycoprotein or myelin basic protein. They also exhibit intense surface reactivity for a carbohydrate epitope associated with the family of cell adhesion molecules recognized by the monoclonal antibody HNK-1. With the onset of remyelination and the appearance of myelin-associated glycoprotein, myelin basic proteins, CNP, and the HNK-1 epitope is newly formed myelin sheaths, perikaryon CNP and HNK-1 reactivity diminished. A possible oligodendrocyte precursor cell in the form of a large HNK-1 positive glial fibrillary acidic protein negative glial cell was observed among interfascicular oligodendrocytes in white matter bordering these hypercellular plaques. Because a similar progression in the expression of CNP and the HNK-1 epitope occurs during normal oligodendrocyte differentiation, these observations are additional evidence that extensive oligodendrocyte regeneration occurs in some plaques early in the course of the disease. The finding of large numbers of immature oligodendrocytes, presumably expressing many developmentally restricted antigens not normally present in the mature nervous system, in plaques at a particular stage in their evolution may be important in understanding why remyelination eventually fails in multiple sclerosis.
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PMID:Multiple sclerosis. Oligodendrocyte proliferation and differentiation in fresh lesions. 281 Dec 98

Clonal cell line D6P2T, subcloned from an ethylnitrosourea-induced tumor line D6 of the rat peripheral nervous system, has been characterized with particular attention to galactolipid metabolism. Galactosylcerebroside and sulfatide synthesis and expression on the cell surface are highly regulated in D6P2T cells by mechanisms involving serum- and cyclic AMP-mediated pathways. These cells also express 2',3'-cyclic nucleotide 3'-phosphohydrolase (Wolfgram protein W1a) and laminin. In contrast, myelin basic protein and antigen HNK-1 were not detected. Line D6P2T appears to be a semi-differentiated Schwann cell model, which offers interesting possibilities for studies of galactolipid synthesis, transport, and sorting.
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PMID:Regulated galactolipid synthesis and cell surface expression in Schwann cell line D6P2T. 282 98

Olfactory mucosa (OM)-derived olfactory ensheathing cells (OECs) are attractive candidates for autologous cell transplantation-based therapy of nervous system injury. However, defining the regenerative capacity of OM-derived OECs is impeded by the fact that cell cultures used for transplantation may contain significant amounts of contaminating trigeminal nerve Schwann cells that escape identification by sharing in vitro expression of OEC markers. The aim of the present study, therefore, was to quantify contaminating Schwann cells in OEC preparations and to develop a protocol for their specific depletion. Based on the observation that freshly dissociated, but not cultured, OECs and Schwann cells display differential expression of HNK-1 and p75(NTR), magnet-activated cell sorting (MACS) was used to deplete myelinating (HNK-1-positive) and nonmyelinating (p75(NTR)-positive) Schwann cells from primary cell suspensions containing HNK-1-/p75(NTR)-negative OECs. Upregulation of p75(NTR) expression in OECs during culturing allowed their subsequent MACS-based separation from fibroblasts. Immunofluorescence analysis of freshly dissociated OM prior to MACS depletion revealed that 21% of the total and 56% of all CNPase-positive cells, representing both OECs and Schwann cells, expressed the Schwann cell antigens HNK-1 or p75(NTR), indicating that freshly dissociated OM prior to culturing contained as many Schwann cells as OECs, while olfactory bulb (OB) primary cell suspensions revealed lower levels of Schwann cell contamination. Interestingly, neurite growth of neonatal rat dorsal root ganglion (DRG) neurons cocultured with OM-OECs, OB-OECs, and fibular nerve (FN) Schwann cells used as control was significantly higher in the presence of OECs than of Schwann cells. The first report on identification and specific depletion of Schwann cells from OEC preparations provides a solid basis for future efforts to fully define the regenerative potential of nasal mucosa OECs.
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PMID:Toward defining the regenerative potential of olfactory mucosa: establishment of Schwann cell-free adult canine olfactory ensheathing cell preparations suitable for transplantation. 2300 19