MAP5 expression in proliferating neuroblasts.

MAP5, a microtubule-associated protein present in immature neurons, was found to be expressed in the embryonic mouse telencephalic ventricular zone (VZ). Since the VZ contains proliferating neuroblasts, the source of most of the neurons of the cerebral cortex, this observation raised the possibility that MAP5 is expressed by proliferating neuronal progenitors. MAP5-positive mitotic cells were observed at the ventricular surface, a finding consistent with progenitors expressing MAP5 prior to their last division. This possibility was investigated using dissociated, cortical cells in vitro by measuring the expression of MAP5 and the neuroepithelial marker nestin, together with the incorporation of bromodeoxyuridine (BrdU), a thymidine analogue that labels the DNA of proliferating cells in the S-phase of the cell cycle. All of the proliferating cells expressed nestin. A population of MAP5-positive cells was also found to incorporate BrdU; some cells expressed MAP5 within 30 min of BrdU labeling. The results suggest that uncommitted neuroblasts express only nestin, with expression of MAP5 occurring near the time the cell commits to become a postmitotic neuron after the next cell division. Subsequently, cells expressing both MAP5 and nestin leave the cell cycle and exit the VZ, lose nestin, and differentiate into neurons. Since some cells expressed MAP5 during or shortly after S-phase but before mitosis, MAP5 may be the earliest marker to identify neuronal progenitors that will become post-mitotic neurons following their next mitosis. Copyright 1999 Published by Elsevier Science B.V.