The FGF family of extracellular signaling factors has been proposed to play multiple roles in patterning the telencephalon, the precursor to the cerebrum. In this study, unlike previous ones, we effectively abolish FGF signaling in the anterior neural plate via deletion of three FGF receptor (FGFR) genes. Triple FGFR mutant mice exhibit a complete loss of the telencephalon, except the dorsal midline. Disruption of FGF signaling prior to and coincident with telencephalic induction reveals that FGFs promote telencephalic character and are strictly required to keep telencephalic cells alive. Moreover,progressively more severe truncations of the telencephalon are observed in FGFR single, double and triple mutants. Together with previous gain-of-function studies showing induction of Foxg1 expression and mirror-image duplications of the cortex by exogenous FGF8, our loss-of-function results suggest that, rather than independently patterning different areas, FGF ligands and receptors act in concert to mediate organizer activity for the whole telencephalon.
We are grateful to our laboratory members for insightful discussions and comments on the manuscript; to Juha Partanen and Janet Rossant (Fgfr1), Kai Yu and David Ornitz (Fgfr2), and Chu-Xia Deng and Philip Leder (Fgfr3)for mice; and to Sonia Garel, Alex Joyner, John Rubenstein, Gord Fishell,Stewart Anderson, Celine Zimmer and Gregory Dressler for plasmids. This work was supported in part by the James S. McDonnell Foundation for Brain Tumor Research, the Feinberg Foundation for neurofibromatosis research, NIH NIMH70596, and the Alexandrine and Alexander L. Sinsheimer Foundation. Deposited in PMC for release after 12 months.
