Programmed Cell Death of Embryonic Motoneurons Triggered through the Fas Death Receptor

doi:10.1083/jcb.147.5.1049

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© The Rockefeller University Press, 0021-9525/1999/11/1049/ $5.00
The Journal of Cell Biology, Volume 147, Number 5, November 29, 1999 1049-1062

Original Article

Programmed Cell Death of Embryonic Motoneurons Triggered through the Fas Death Receptor

Cédric Raoul^a, Christopher E. Henderson^a, and Brigitte Pettmann^a
^a Institut National de la Santé et de la Recherche Médicale U.382, Developmental Biology Institute of Marseille (Centre National de la Recherche Scientifique, Institut National de la Santé et de la Recherche Médicale, Université de la Mediterranee, AP Marseille), Campus de Luminy-Case 907, 13288 Marseille Cedex 09, France

Correspondence to: Christopher E. Henderson, U.382, Campus de Luminy-Case 907, 13288 Marseille Cedex 09, France. Tel:(33) 4 91 26 97 60 Fax:(33) 4 91 26 97 57 E-mail:chris{at}ibdm.univ-mrs.fr.

About 50% of spinal motoneurons undergo programmed cell death(PCD) after target contact, but little is known about how thisprocess is initiated. Embryonic motoneurons coexpress the deathreceptor Fas and its ligand FasL at the stage at which PCD isabout to begin. In the absence of trophic factors, many motoneuronsdie in culture within 2 d. Most (75%) of these were saved byFas-Fc receptor body, which blocks interactions between Fasand FasL, or by the caspase-8 inhibitor tetrapeptide IETD. Therefore,activation of Fas by endogenous FasL underlies cell death inducedby trophic deprivation. In the presence of neurotrophic factors,exogenous Fas activators such as soluble FasL or anti-Fas antibodiestriggered PCD of 40–50% of purified motoneurons over thefollowing 3–5 d; this treatment led to activation of caspase-3,and was blocked by IETD. Sensitivity to Fas activation is regulated:motoneurons cultured for 3 d with neurotrophic factors becamecompletely resistant. Levels of Fas expressed by motoneuronsvaried little, but FasL was upregulated in the absence of neurotrophicfactors. Motoneurons resistant to Fas activation expressed highlevels of FLICE-inhibitory protein (FLIP), an endogenous inhibitorof caspase-8 activation. Our results suggest that Fas can actas a driving force for motoneuron PCD, and raise the possibilitythat active triggering of PCD may contribute to motoneuron lossduring normal development and/or in pathological situations.

Key Words: motoneuron, Fas ligand, APO-1/CD95, neuron killing, caspases

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