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Neural adhesion molecules L1 and CHL1 are survival factors for motoneurons.

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Neural adhesion molecules L1 and CHL1 are survival factors for motoneurons. / Nishimune, H; Bernreuther, Christian; Carroll, P; Chen, S; Schachner, M; Henderson, C E.

In: J NEUROSCI RES, Vol. 80, No. 5, 5, 2005, p. 593-599.

Research output: SCORING: Contribution to journalSCORING: Journal articleResearchpeer-review

Harvard

Nishimune, H, Bernreuther, C, Carroll, P, Chen, S, Schachner, M & Henderson, CE 2005, 'Neural adhesion molecules L1 and CHL1 are survival factors for motoneurons.', J NEUROSCI RES, vol. 80, no. 5, 5, pp. 593-599. <http://www.ncbi.nlm.nih.gov/pubmed/15880726?dopt=Citation>

APA

Nishimune, H., Bernreuther, C., Carroll, P., Chen, S., Schachner, M., & Henderson, C. E. (2005). Neural adhesion molecules L1 and CHL1 are survival factors for motoneurons. J NEUROSCI RES, 80(5), 593-599. [5]. http://www.ncbi.nlm.nih.gov/pubmed/15880726?dopt=Citation

Vancouver

Nishimune H, Bernreuther C, Carroll P, Chen S, Schachner M, Henderson CE. Neural adhesion molecules L1 and CHL1 are survival factors for motoneurons. J NEUROSCI RES. 2005;80(5):593-599. 5.

Bibtex

@article{60525f8ee3b343889fe8ae835383f88d,
title = "Neural adhesion molecules L1 and CHL1 are survival factors for motoneurons.",
abstract = "Many neurotrophic factors with survival activity for motoneurons in vivo were first identified using cultures of purified embryonic motoneurons. The L1 neural cell adhesion molecule has multiple roles in brain development. We showed by in situ hybridization and RT-PCR that L1 mRNA was expressed at significant levels in motoneurons of embryonic and postnatal spinal cord. We therefore cultured purified motoneurons from E14 rat embryos in the absence of trophic factors but with L1-Fc and CHL1-Fc fusion proteins. L1-Fc prevented the death of approximately half of the motoneurons that were saved by BDNF in a dose-dependent manner (EC50 = 10 pM). CHL1-Fc saved the same number of motoneurons as did L1-Fc, whereas P0-Fc had little neurotrophic activity at the same concentrations. Survival induced by L1 and CHL1 was completely inhibited by 20 microM LY294002 and PD98059, indicating that both MEK and PI3K pathways are required for signaling by these molecules. L1 can signal in other cell types through the FGF receptor FGFR1. In cultures of motoneurons, effects of suboptimal concentrations of L1 and suboptimal concentrations of FGF-2 were additive, but the effects of optimal concentrations of FGF-2 (50 ng/ml) were not further increased in the presence of L1-Fc. Thus, in this system, too, FGF and L1 may use similar signaling pathways.",
author = "H Nishimune and Christian Bernreuther and P Carroll and S Chen and M Schachner and Henderson, {C E}",
year = "2005",
language = "Deutsch",
volume = "80",
pages = "593--599",
journal = "J NEUROSCI RES",
issn = "0360-4012",
publisher = "Wiley-Liss Inc.",
number = "5",

}

RIS

TY - JOUR

T1 - Neural adhesion molecules L1 and CHL1 are survival factors for motoneurons.

AU - Nishimune, H

AU - Bernreuther, Christian

AU - Carroll, P

AU - Chen, S

AU - Schachner, M

AU - Henderson, C E

PY - 2005

Y1 - 2005

N2 - Many neurotrophic factors with survival activity for motoneurons in vivo were first identified using cultures of purified embryonic motoneurons. The L1 neural cell adhesion molecule has multiple roles in brain development. We showed by in situ hybridization and RT-PCR that L1 mRNA was expressed at significant levels in motoneurons of embryonic and postnatal spinal cord. We therefore cultured purified motoneurons from E14 rat embryos in the absence of trophic factors but with L1-Fc and CHL1-Fc fusion proteins. L1-Fc prevented the death of approximately half of the motoneurons that were saved by BDNF in a dose-dependent manner (EC50 = 10 pM). CHL1-Fc saved the same number of motoneurons as did L1-Fc, whereas P0-Fc had little neurotrophic activity at the same concentrations. Survival induced by L1 and CHL1 was completely inhibited by 20 microM LY294002 and PD98059, indicating that both MEK and PI3K pathways are required for signaling by these molecules. L1 can signal in other cell types through the FGF receptor FGFR1. In cultures of motoneurons, effects of suboptimal concentrations of L1 and suboptimal concentrations of FGF-2 were additive, but the effects of optimal concentrations of FGF-2 (50 ng/ml) were not further increased in the presence of L1-Fc. Thus, in this system, too, FGF and L1 may use similar signaling pathways.

AB - Many neurotrophic factors with survival activity for motoneurons in vivo were first identified using cultures of purified embryonic motoneurons. The L1 neural cell adhesion molecule has multiple roles in brain development. We showed by in situ hybridization and RT-PCR that L1 mRNA was expressed at significant levels in motoneurons of embryonic and postnatal spinal cord. We therefore cultured purified motoneurons from E14 rat embryos in the absence of trophic factors but with L1-Fc and CHL1-Fc fusion proteins. L1-Fc prevented the death of approximately half of the motoneurons that were saved by BDNF in a dose-dependent manner (EC50 = 10 pM). CHL1-Fc saved the same number of motoneurons as did L1-Fc, whereas P0-Fc had little neurotrophic activity at the same concentrations. Survival induced by L1 and CHL1 was completely inhibited by 20 microM LY294002 and PD98059, indicating that both MEK and PI3K pathways are required for signaling by these molecules. L1 can signal in other cell types through the FGF receptor FGFR1. In cultures of motoneurons, effects of suboptimal concentrations of L1 and suboptimal concentrations of FGF-2 were additive, but the effects of optimal concentrations of FGF-2 (50 ng/ml) were not further increased in the presence of L1-Fc. Thus, in this system, too, FGF and L1 may use similar signaling pathways.

M3 - SCORING: Zeitschriftenaufsatz

VL - 80

SP - 593

EP - 599

JO - J NEUROSCI RES

JF - J NEUROSCI RES

SN - 0360-4012

IS - 5

M1 - 5

ER -