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Filopodia and growth cones in the vertically migrating granule cells of the postnatal mouse cerebellum

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Abstract 

The details of the morphology of vertically migrating granule cells were examined semiquantitatively in the postnatal mouse cerebellum by a Golgi method, with special reference to the growth cone-related structures such as filopodia and lamellipodia. The first sign of inward migration was extension of short, vertical filopodium-like processes from the sides of the perikarya of tangentially oriented granule cells, followed by a change of orientation of cell bodies to the vertical axis showing a T-shaped morphology. The T-shaped migratory cells formed sprouted filopodia (side spikes) from their vertical leading processes and perikarya at right angles to the vertical axis. More than three-quarters of the migratory cells extended the side spikes. The presence of such side spikes was confirmed with laser scanning confocal microscopy of granule cells labeled with 1,1′, dioctadecyl-3,3,3′,3-tetramethylindocarbocyanine perchlorate and also with transmission electron microscopy (TEM). In addition, about one-fourth of migratory cells extended lamellipodia of web-like forms along the stem or at the tip of the leading process, some of which showed a typical growth cone. Several morphological variations of vertical granule cells were also observed. Furthermore, TEM observation confirmed that side spikes from migratory cells made direct contact with parallel fibers. The present results suggest that, during vertical migration, growth cone-related structures of the leading processes of granule cells adhere to and probably recognize tangentially oriented parallel fibers. Therefore, the mechanisms of the vertical guidance and migration of granule cells in the cerebellar cortex seem to be multiple, involving not only parallel contact guidance by the Bergmann glia fibers but also perpendicular contact guidance by the parallel fibers. These parallel and perpendicular geometric cues surrounding the granule cells seem to have produced the varying morphology of vertically migrating granule cells.

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Received: 11 December 1996 / Accepted: 22 April 1997

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Ono, K., Shokunbi, T., Nagata, I. et al. Filopodia and growth cones in the vertically migrating granule cells of the postnatal mouse cerebellum. Exp Brain Res 117, 17–29 (1997). https://doi.org/10.1007/PL00005787

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  • DOI: https://doi.org/10.1007/PL00005787

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