Neuroscience

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Researchers at Cold Spring Harbor Laboratory (CSHL) have solved an important piece of one of neuroscience’s outstanding puzzles: how progenitor cells in the developing mammalian brain reproduce themselves while also giving birth to neurons that will populate the emerging cerebral cortex, the seat of cognition and executive function in the mature brain. CSHL Professor Linda Van Aelst, Ph.D., and colleagues set out to solve a particular mystery concerning radial glial cells, or RGCs, which are progenitors of pyramidal neurons, the most common type of excitatory nerve cell in the mature mammalian cortex. In genetically manipulated mice, Van Aelst’s team demonstrated that a protein called DOCK7 plays a central regulatory role in the process that determines how and when an RGC “decides” either to proliferate, i.e., make more progenitor cells like itself, or give rise to cells that will mature, or “differentiate,” into pyramidal neurons.  The findings are reported in the September 2012 issue of Nature Neuroscience

Researchers at Cold Spring Harbor Laboratory (CSHL) have solved an important piece of one of neuroscience’s outstanding puzzles: how progenitor cells in the developing mammalian brain reproduce themselves while also giving birth to neurons that will populate the emerging cerebral cortex, the seat of cognition and executive function in the mature brain.

CSHL Professor Linda Van Aelst, Ph.D., and colleagues set out to solve a particular mystery concerning radial glial cells, or RGCs, which are progenitors of pyramidal neurons, the most common type of excitatory nerve cell in the mature mammalian cortex.

In genetically manipulated mice, Van Aelst’s team demonstrated that a protein called DOCK7 plays a central regulatory role in the process that determines how and when an RGC “decides” either to proliferate, i.e., make more progenitor cells like itself, or give rise to cells that will mature, or “differentiate,” into pyramidal neurons.  The findings are reported in the September 2012 issue of Nature Neuroscience

Filed under progenitor cells brain DOCK7 protein neuron interkinetic nuclear migration TACC3 neuroscience science

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