Migration Behavior of Granule Cell Neurons in Cerebellar Cultures I. A PKH26 Labeling Study in Microexplant and Organotypic Cultures: mouse cerebellar granule cell/microexplant culture/organotypic explant culture/PKH26/migration

Abstract

Granule cells were dissociated from early postnatal mouse cerebella and labeled with a fluorescent dye probe PKH26. Small number of the labeled cells were mixed with cerebellar cortical microexplant cultures or transplanted into cerebellar cortical organotypic explants, and their time‐dependent morphological changes during cultures were examined with fluorescence microscopy. Granule cell neurons first extended asymmetrical short bipolar processes in both cultures, and migrated actively in microexplant cultures. After elongation of symmetrically bipolar long and thin neurites, they sprouted short thick processes from cell bodies and migrated perpendicular to neurite bundles that were devoid of glia in microexplant cultures, or migrated vertically inward into the internal granular layer in the organotypic explant. During such migrations, they extended short thick processes in front and thin processes behind the cell body. The latter processes were connected to thin long neurites with T‐ or Y‐shaped junctions in both cultures. Finally, they extended many short thick processes from cell bodies in both cultures. Such behaviors of granule cell neurons in microexplant cultures were, thus, similar to those in organotypic explant cultures despite of the absence of Bergmann glial cells. These migration patterns may be closely related to migration of granule cells in histogenesis of the cerebellar cortex. Copyright © 1994, Wiley Blackwell. All rights reserved