Studies of adhesion molecules mediating interactions between cells of peripheral nervous system indicate a major role for L1 in mediating sensory neuron growth on Schwann cells in culture.
about
Evidence for the involvement of KIF4 in the anterograde transport of L1-containing vesiclesThe neural cell adhesion molecule N-CAM enhances L1-dependent cell-cell interactions.Colocalization of the homophilic binding site and the neuritogenic activity of the cell adhesion molecule L1 to its second Ig-like domain.The L1 adhesion molecule is a cellular ligand for VLA-5Quantification of N-CAM and N-cadherin expression in axotomized and crushed rat sciatic nerveMisguided axonal projections, neural cell adhesion molecule 180 mRNA upregulation, and altered behavior in mice deficient for the close homolog of L1The close homologue of the neural adhesion molecule L1 (CHL1): patterns of expression and promotion of neurite outgrowth by heterophilic interactionsBinding properties of the neural cell adhesion molecule to different components of the extracellular matrixAlteration of the cell adhesion molecule L1 expression in a specific subset of primary afferent neurons contributes to neuropathic painMatrix RGD ligand density and L1CAM-mediated Schwann cell interactions synergistically enhance neurite outgrowth.Spontaneous association of glial cells with regrowing neurites in mixed cultures of dissociated spiral ganglia.Spatial mapping of juxtacrine axo-glial interactions identifies novel molecules in peripheral myelination.The effect of NGF depletion on the neurotropic influence exerted by the distal stump following nerve transection.Genetic polymorphisms of a novel vascular susceptibility gene, Ninjurin2 (NINJ2), are associated with a decreased risk of Alzheimer's disease.Antibody fragments directed against different portions of the human neural cell adhesion molecule L1 act as inhibitors or activators of L1 function.Function-triggering antibodies to the adhesion molecule L1 enhance recovery after injury of the adult mouse femoral nerve.Extrinsic and intrinsic determinants of nerve regenerationDown-regulation of the axonal polysialic acid-neural cell adhesion molecule expression coincides with the onset of myelination in the human fetal forebrainIdentification of the major proteins that promote neuronal process outgrowth on Schwann cells in vitroFibroblasts that proliferate near denervated synaptic sites in skeletal muscle synthesize the adhesive molecules tenascin(J1), N-CAM, fibronectin, and a heparan sulfate proteoglycanPurified N-cadherin is a potent substrate for the rapid induction of neurite outgrowth.NCAM-dependent neurite outgrowth is inhibited in neurons from Fyn-minus miceSemaphorin3A enhances endocytosis at sites of receptor-F-actin colocalization during growth cone collapse.CD44 enhances neuregulin signaling by Schwann cells.Expression of P30, a protein with adhesive properties, in Schwann cells and neurons of the developing and regenerating peripheral nerve.Astrocyte-derived TGF-beta 2 and NGF differentially regulate neural recognition molecule expression by cultured astrocytes.Different extracellular domains of the neural cell adhesion molecule (N-CAM) are involved in different functionsDo Action Potentials Regulate Myelination?Cell surface recognition and neuron-glia interactions.Glial cells in development. In vivo and in vitro approaches.Tissue engineered constructs for peripheral nerve surgery.Electrical stimulation of schwann cells promotes sustained increases in neurite outgrowth.The genetics of ischaemic stroke.The third fibronectin type III repeat is required for L1 to serve as an optimal substratum for neurite extension.Regeneration in the adult central nervous system: experimental repair strategies.Galectin-3 promotes neural cell adhesion and neurite growth.Neural cell adhesion molecule expression is regulated by Schwann cell-neuron interactions in culture.Neuronal process outgrowth of human sensory neurons on monolayers of cells transfected with cDNAs for five human N-CAM isoforms.J1-160 and J1-180 are oligodendrocyte-secreted nonpermissive substrates for cell adhesionNerve growth factor-hypersecreting Schwann cell grafts augment and guide spinal cord axonal growth and remyelinate central nervous system axons in a phenotypically appropriate manner that correlates with expression of L1.
P2860
Q27863665-EAD2BBA8-7073-42F1-9A6B-D213D4551D5EQ27865264-3459F3DB-C945-4904-AD72-BC64B1AE7041Q27865292-0AC70D10-CE32-4F95-BF39-9AE13A9D7370Q28512954-9DB7F00C-722F-4285-8E8B-7253A3BF861BQ28575701-A4EBEA43-AC20-44C4-B0BF-57918BB526C8Q28585131-7CD3CBA3-1191-4A9E-86D7-CD739309C166Q28593383-84ED7AC2-D264-41E5-A1DB-0EE48ED22372Q28646479-56E0FB80-A257-48C8-A4EC-265AE4D1B667Q28757567-1F005410-6B55-4AED-8F87-365923DD8D13Q30361762-9B30F179-78B0-477B-AD3B-FBE71D867DF3Q30481055-31DF383A-D756-4482-B00A-27906AAF54B8Q30664998-08287E34-FA93-4F29-A92D-EFE4607D1EF9Q33880108-968CD748-DDA0-4C46-8925-50A863A57043Q33932945-CE363170-8DAE-467F-93DF-575B3C3B2976Q34526121-65FA4D18-1725-4553-9442-99F97FD6DA5BQ35416961-8BD1F5AD-B591-41BF-908E-B0E7B5DAD52EQ35654115-122F773E-DD2C-4E87-A056-0E327BB3D125Q36155149-F08F30B3-5AC9-4ECB-AE32-274BB37845E1Q36219053-313D6C76-5A84-4246-A037-44BFCF3343A8Q36220612-6AD4F77E-F42B-44F1-9DFC-0C76BD8DBAD1Q36222783-C5827BD7-1AC9-4C3A-9342-3562845CF798Q36234811-EC352AD5-F351-492B-9780-8276C37B004BQ36328339-D07D5EE8-A7A0-47F2-9080-4B8B207EC67EQ36328663-F6182743-F355-40B7-922D-2279FB541065Q36529390-65AE04C2-319C-4BD0-9C1E-2B76BC5B2678Q36530354-FA0BB4CD-669B-4E71-B734-284A44617B90Q36531563-0048E9DA-E5DD-427F-B5AF-A9A4FAE1BFA9Q36638522-1AEC4668-B8B7-46C1-8CCA-79D8DB9F90D1Q36951456-F02D01E7-2916-48C3-B5E0-3BF5C25C3694Q36951698-1D4C3616-443C-4426-B566-6E5F0D220885Q37419334-C2B9AD24-98ED-4756-95A4-E02CCD90EE1DQ37587981-FF2066F0-0C1A-4DD9-AC4B-61B645E11907Q37696582-898A9320-109B-4DDE-BFB4-B9BC521DB610Q40872566-8704E6FD-EC3B-44BB-86F9-FF54E70EABCDQ40876200-E1F0687D-4151-44F8-8E52-F49ECDFF5AC6Q40990002-D9DEF358-FE47-4A5D-9BBE-C5C00A23980EQ41577438-476BF6AD-F113-4A62-98DF-09BE17E51C6DQ41583555-71E00912-7D63-4FBC-9E70-DC71D77B073FQ41586984-EA8D6615-CB0B-4975-B248-5D24A86722B2Q41691715-0599B105-8A57-4CCA-904F-DF4DA855A96A
P2860
Studies of adhesion molecules mediating interactions between cells of peripheral nervous system indicate a major role for L1 in mediating sensory neuron growth on Schwann cells in culture.
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
1988年论文
@zh
1988年论文
@zh-cn
name
Studies of adhesion molecules ...... h on Schwann cells in culture.
@en
type
label
Studies of adhesion molecules ...... h on Schwann cells in culture.
@en
prefLabel
Studies of adhesion molecules ...... h on Schwann cells in culture.
@en
P2860
P356
P1476
Studies of adhesion molecules ...... h on Schwann cells in culture.
@en
P2093
Seilheimer B
P2860
P304
P356
10.1083/JCB.107.1.341
P407
P577
1988-07-01T00:00:00Z