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FGFR3 overactivation in the brain is responsible for memory impairments in Crouzon syndrome mouse model.

The Journal of experimental medicine (2022-03-08)
Maxence Cornille, Stéphanie Moriceau, Roman H Khonsari, Yann Heuzé, Léa Loisay, Valérie Boitez, Anne Morice, Eric Arnaud, Corinne Collet, Morad Bensidhoum, Nabil Kaci, Nathalie Boddaert, Giovanna Paternoster, Theresa Rauschendorfer, Sabine Werner, Suzanne L Mansour, Federico Di Rocco, Franck Oury, Laurence Legeai-Mallet
RESUMEN

Crouzon syndrome with acanthosis nigricans (CAN, a rare type of craniosynostosis characterized by premature suture fusion and neurological impairments) has been linked to a gain-of-function mutation (p.Ala391Glu) in fibroblast growth factor receptor 3 (FGFR3). To characterize the CAN mutation's impact on the skull and on brain functions, we developed the first mouse model (Fgfr3A385E/+) of this syndrome. Surprisingly, Fgfr3A385E/+ mice did not exhibit craniosynostosis but did show severe memory impairments, a structurally abnormal hippocampus, low activity-dependent synaptic plasticity, and overactivation of MAPK/ERK and Akt signaling pathways in the hippocampus. Systemic or brain-specific pharmacological inhibition of FGFR3 overactivation by BGJ398 injections rescued the memory impairments observed in Fgfr3A385E/+ mice. The present study is the first to have demonstrated cognitive impairments associated with brain FGFR3 overactivation, independently of skull abnormalities. Our results provide a better understanding of FGFR3's functional role and the impact of its gain-of-function mutation on brain functions. The modulation of FGFR3 signaling might be of value for treating the neurological disorders associated with craniosynostosis.

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Anti-Fibroblast Growth Factor Receptor-3, Cytoplasmic antibody produced in rabbit, affinity isolated antibody, buffered aqueous solution