The long form of fas apoptotic inhibitory molecule is expressed specifically in neurons and protects them against death receptor-triggered apoptosis

Death receptors (DRs) and their ligands are expressed in developing nervous system. However, neurons are generally resistant to death induction through DRs and rather their activation promotes neuronal outgrowth and branching. These results suppose the existence of DRs antagonists expressed in the n...

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Detalles Bibliográficos
Autores: Segura, Miguel F.|||0000-0003-0916-3618, Solé Serra, Carme|||0000-0003-4543-7401, Pascual Sánchez, Marta|||0000-0002-2621-650X, Moubarak, Rana S.|||0000-0003-2096-1258, Pérez-García, M. Jose|||0000-0001-9014-7986, Gozzelino, Raffaella, Iglesias Guimarais, Victoria, Badiola Benito, Nahuai|||0000-0001-9488-5628, Bayascas Ramírez, José Ramón|||0000-0002-6096-2151, Llecha, Nuria, Rodríguez Álvarez, José|||0000-0001-8582-8082, Soriano García, Eduardo, Yuste, Victor José|||0000-0001-5322-9261, Comella i Carnicé, Joan Xavier|||0000-0002-6218-0786
Tipo de recurso: artículo
Fecha de publicación:2007
País:España
Institución:Universitat Autònoma de Barcelona
Repositorio:Dipòsit Digital de Documents de la UAB
Idioma:inglés
OAI Identifier:oai:ddd.uab.cat:125751
Acceso en línea:https://ddd.uab.cat/record/125751
https://dx.doi.org/urn:doi:10.1523/JNEUROSCI.3462-07.2007
Access Level:acceso abierto
Palabra clave:FAIM
Apoptosis
Fas/CD95
TNF
Neurotrophic factor
Neuron
Apoptosi
Factor neurotròfic
Neurona
Descripción
Sumario:Death receptors (DRs) and their ligands are expressed in developing nervous system. However, neurons are generally resistant to death induction through DRs and rather their activation promotes neuronal outgrowth and branching. These results suppose the existence of DRs antagonists expressed in the nervous system. Fas apoptosis inhibitory molecule (FAIMS ) was first identified as a Fas antagonist in B-cells. Soon after, a longer alternative spliced isoform with unknown function was identified and named FAIML. FAIMS is widely expressed, including the nervous system, and we have shown previously that it promotes neuronal differentiation but it is not an anti-apoptotic molecule in this system. Here, we demonstrate that FAIML is expressed specifically in neurons, and its expression is regulated during the development. Expression could be induced by NGF through the extracellular regulated kinase pathway in PC12(pheochromocytoma cell line) cells. Contrary to FAIMS , FAIML does not increase the neurite outgrowth induced by neurotrophins and does not interfere with nuclear factor ĸB pathway activation as FAIMS does. Cells overexpressing FAIML are resistant to apoptotic cell death induced by DRs such as Fas or tumor necrosis factor R1. Reduction of endogenous expression by small interfering RNA shows that endogenousFAIML protects primary neurons from DR-induced cell death. The detailed analysis of this antagonism shows thatFAIML can bind to Fas receptor and prevent the activation of the initiator caspase-8 induced by Fas. In conclusion, our results indicate that FAIML could be responsible for maintaining initiator caspases inactive after receptor engagement protecting neurons from the cytotoxic action of death ligands.