Proliferation of cerebellar precursor cells is negatively regulated by nitric oxide in newborn rat
E Ciani, V Calvanese, C Crochemore… - Journal of Cell …, 2006 - journals.biologists.com
Journal of Cell Science, 2006•journals.biologists.com
The diffusible messenger, nitric oxide plays multiple roles in neuroprotection,
neurodegeneration and brain plasticity. Its involvement in neurogenesis has been disputed,
on the basis of results on models in vivo and in culture. We report here that pharmacological
blockade of nitric oxide production in rat pups resulted, during a restricted time window of
the first three postnatal days, in increased cerebellar proliferation rate, as assessed through
tritiated thymidine or BrdU incorporation into DNA. This was accompanied by increased …
neurodegeneration and brain plasticity. Its involvement in neurogenesis has been disputed,
on the basis of results on models in vivo and in culture. We report here that pharmacological
blockade of nitric oxide production in rat pups resulted, during a restricted time window of
the first three postnatal days, in increased cerebellar proliferation rate, as assessed through
tritiated thymidine or BrdU incorporation into DNA. This was accompanied by increased …
The diffusible messenger, nitric oxide plays multiple roles in neuroprotection, neurodegeneration and brain plasticity. Its involvement in neurogenesis has been disputed, on the basis of results on models in vivo and in culture. We report here that pharmacological blockade of nitric oxide production in rat pups resulted, during a restricted time window of the first three postnatal days, in increased cerebellar proliferation rate, as assessed through tritiated thymidine or BrdU incorporation into DNA. This was accompanied by increased expression of Myc, a transcription factor essential for cerebellar development, and of the cell cycle regulating gene, cyclin D1. These effects were mediated downstream by the nitric oxide-dependent second messenger, cGMP. Schedules of pharmacological NO deprivation targeted to later developmental stages (from postnatal day 3 to 7), no longer increased proliferation, probably because of partial escape of the cGMP level from nitric oxide control. Though limited to a brief temporal window, the proliferative effect of neonatal nitric oxide deprivation could be traced into adulthood. Indeed, the number of BrdU-labeled surviving cells, most of which were of neuronal phenotype, was larger in the cerebellum of 60-day-old rats that had been subjected to NO deprivation during the first three postnatal days than in control rats. Experiments on cell cultures from neonatal cerebellum confirmed that nitric oxide deprivation stimulated proliferation of cerebellar precursor cells and that this effect was not additive with the proliferative action of sonic hedgehog peptide. The finding that nitric oxide deprivation during early cerebellar neurogenesis, stimulates a brief increase in cell proliferation may contribute to a better understanding of the controversial role of nitric oxide in brain development.
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