6533b7d0fe1ef96bd125a453

RESEARCH PRODUCT

A Mutually Stimulating Loop Involving Emx2 and Canonical Wnt Signalling Specifically Promotes Expansion of Occipital Cortex and Hippocampus

Jm SoriaStefano PiccoloMaria PanneseLuca MuzioAntonello Mallamaci

subject

Cognitive NeuroscienceEMX2HippocampusSettore BIO/11 - Biologia MolecolareProneural genescell cycle genesBiologyHippocampusMiceCellular and Molecular NeuroscienceCortex (anatomy)medicineAnimalsWnt signallingHomeodomain ProteinsNeuronsproneural genesStem CellsGene Expression Regulation DevelopmentalCell DifferentiationCell cycleareal sizingCell Cycle GeneMice Mutant StrainsWnt Proteinsmedicine.anatomical_structureCerebral cortexEmx2Occipital LobeOccipital lobeareal sizing; Emx2; Wnt signalling; cell cycle genes; proneural genesNeuroscienceCell DivisionSignal TransductionTranscription Factors

description

The correct size of the different areas composing the mature cerebral cortex depends on the proper early allocation of cortical progenitors to their distinctive areal fates, as well as on appropriate subsequent tuning of their area-specific proliferation--differentiation profiles. Whereas much is known about the genetics of the former process, the molecular mechanisms regulating proliferation and differentiation rates within distinctive cortical proto-areas are still largely obscure. Here we show that a mutual stimulating loop, involving Emx2 and canonical Wnt signalling, specifically promotes expansion of the occipito-hippocampal anlage. Collapse of this loop occurring in Emx2 2/2 mutants leads progenitors within this region to slow down DNA synthesis and exit prematurely from the cell cycle, due to misregulation of cell cycle-, proneural- and lateral inhibition-molecular machineries, and eventually results in dramatic and selective size-reduction of occipital cortex and hippocampus. Reactivation of canonical Wnt signalling in the same mutants rescues a subset of molecular abnormalities and corrects differentiation rates of occipito-hippocampal progenitors.

yearjournalcountryeditionlanguage
2005-01-01Cerebral Cortex
https://doi.org/10.1093/cercor/bhi077