AI Article Synopsis
- Scientists studied how certain brain cells, called Purkinje cells, change their connections with climbing fibers as they grow.
- * They found that if some special cells called granule cells are damaged during a specific time, it stops these changes from happening properly.
- * This research shows that granule cells are really important for Purkinje cells to connect correctly and grow up healthy in the brain.
Article Abstract
Different afferent synapse populations interact to control the specificity of connections during neuronal circuit maturation. The elimination of all but one climbing-fiber onto each Purkinje cell during the development of the cerebellar cortex is a particularly well studied example of synaptic refinement. The suppression of granule cell precursors by X irradiation during postnatal days 4 to 7 prevents this synaptic refinement, indicating a critical role for granule cells. Several studies of cerebellar development have suggested that synapse elimination has a first phase which is granule cell-independent and a second phase which is granule cell-dependent. In this study, we show that sufficiently-strong irradiation restricted to postnatal days 5 or 6 completely abolishes climbing fiber synaptic refinement, leaving the olivo-cerebellar circuit in its immature configuration in the adult, with up to 5 climbing fibers innervating the Purkinje cell in some cases. This implies that the putative early phase of climbing fiber synapse elimination can be blocked by irradiation-induced granule cell loss if this loss is sufficiently large, and thus indicates that the entire process of climbing fiber synapse elimination requires the presence of an adequate number of granule cells. The specific critical period for this effect appears to be directly related to the timing of Purkinje cell and granule cell development in different cerebellar lobules, indicating a close, spatiotemporal synchrony between granule-cell development and olivo-cerebellar synaptic maturation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6030189 | PMC |
| http://dx.doi.org/10.1038/s41598-018-28398-7 | DOI Listing |
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