The Alteration of Avian Retinal Microglia Induced by Optic Nerve Transection.
- Author:
Gye Sun JEON
1
;
Cheol LEE
;
Je Hoon SEO
;
Tae Cheon KANG
;
Douk Ho HWANG
;
Choong Ik CHA
;
Sa Sun CHO
Author Information
1. Department of Anatomy, MRC Neuroscience Research Institute, Korea.
- Publication Type:Original Article
- Keywords:
microglia;
Optic nerve transection;
avian retina;
QH1-immunohistochemistry
- MeSH:
Adult;
Astrocytes;
Axons;
Brain;
Ganglion Cysts;
Humans;
Microglia*;
Neuroglia;
Neurons;
Optic Nerve Injuries*;
Optic Nerve*;
Phagocytosis;
Quail;
Retina;
Retinaldehyde*
- From:Korean Journal of Anatomy
2000;33(3):255-261
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Retina, a part of CNS, has served valuable and accessible tissue for elucidating the cellular properties of neurons and glia due to its similarity to brain. Unlike mammalian counterpart, avian retina is devoid of vessels and astrocytes. However little is known about glial reaction to neuronal injuries in this species. Therefore, this study was performed to investigate the microglial responses in the quail retina following neuronal injuries. The retinae from normal and optic nerve transected adult quails were studied immunohistochemically with anti-QH1, a marker known to be specific for microglia. In the normal retina, QH1-labeled microglial cells displayed typical feature of ramified (resting) form and were localized mainly in the inner plexiform layer. After optic nerve transection (ONT) morphology of microglial cells changed from the ramified to the amoeboid form. This feature of microglial cells maintained throughout the post operational periods until 28 days after ONT. Particularly, at 14 and 21 days after ONT amoeboid microglia displayed cell bodies with stout and bushy processes, suggesting active phagocytosis. The distribution pattern of microglia also changed in accord to ganglion cell degeneration: they gradually moved to layers of ganglion cells and optic nerve fibers where ganglion cell bodies and axons were under degeneration. This change of microglial distribution was most prominent at 14 days of ONT. The result of this study is generally consistent with that reported in mammalian counterpart and this similarity between the avascular avian retina and the vascularized mammalian counterpart suggests that processes of microglial activation, such as migration and phagocytosis, can occur in the vessel-free CNS tissue.
