FGFR3 overactivation in the brain is responsible for memory impairments in Crouzon syndrome mouse model.
Cornille M, Moriceau S, Khonsari RH, Heuzé Y, Loisay L, Boitez V, Morice A, Arnaud E, Collet C, Bensidhoum M, Kaci N, Boddaert N, Paternoster G, Rauschendorfer T, Werner S, Mansour SL, Di Rocco F, Oury F, Legeai-Mallet L.
Source :
J Exp Med
Pmid / DOI:
35254402
Abstract
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.