GFAP and PCNA Marking in the cerebellum of masu salmon’s (Oncorhynchus masou) juvenile after mechanical injury

The objective of this work was to study proliferation processes and the role of glia and neural stem cells in the event of injurious action on cerebellum of masu salmon’s (Oncorhynchus masou) juvenile. Using the immunoperoxidase staining of the glial fibrillary acidic protein (GFAP) and proliferating cells nuclear antigen (PCNA), processes of proliferation and gliogenesis after mechanical trauma of cerebellum of cherry salmon’s (Oncorhynchus masou) juvenile were studied. After the trauma, the intensity of proliferation and migration processes varies in different zones. Proliferation processes decrease after the trauma in lateral and basal zones, and migration increases. In the dorsal zone, on the contrary, migration processes significantly decrease and proliferation increases. In the dorsal matrix zone of a cerebellum, intense cell proliferation was detected. In the dorsal, lateral, and basal zone of the molecular layer of cerebellum after traumatic damage, neurogenic niches containing PCNA and cells, as well as a heterogeneous population of PCNA-cells, were identified. At the location of neurogenic niches, fibers of radial glia and small single intensely or moderately labeled GFAP cells were discovered. As a result of damaging action, GFAP+ fibers of radial glia, which form differently directed radially oriented bundles, appeared in the dorsal matrix zone. Such structural formations have not been discovered in intact animals. We suppose that, after the trauma, structural reconstruction connected with partial spatial reorientation of the radial glia fibers and formation of specific directions for cells formed in this zone occurs in the dorsal matrix zone. As a result of the trauma, in masu salmon’s cerebellum, elements of the radial glia, including both cells possessing typical morphology and cell fragments presented as long radially oriented processes or cell body containing initial fragments of radial fibers, appeared.