1. Effects of L-alpha-aminoadipic acid on neurons and glia of the rat brain striatum
- Author
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A. V. Stavrovskaya, A.S. Guschina, D. N. Voronkov, Yu. V. Dikalova, R. M. Khudoerkov, and A. S. Ol’shanskiy
- Subjects
Cancer Research ,Microglia ,biology ,Chemistry ,Neurodegeneration ,Glutamate receptor ,Cell Biology ,medicine.disease ,Pathology and Forensic Medicine ,Glial scar ,Cell biology ,medicine.anatomical_structure ,nervous system ,Gliosis ,Glutamine synthetase ,medicine ,biology.protein ,Molecular Medicine ,medicine.symptom ,NeuN ,Astrocyte - Abstract
Introduction. Few published studies have examined the role of glia-neuron interactions in neurodegen-eration. In this regard, the search for new experimental models is important. L-alpha-aminoadipic acid (L-AA), being a structural analogue of glutamate with a selective toxic effect on astroglia, is of particular interest. However, morphological and neurochemical changes caused by L-AA still remain unclear. The aim of the study was to characterize immunomorphological changes of glia and neurons in the striata of rats after L-AA administration. Materials and methods. On days 3 and 12 after L-AA stereotaxic administration, we studied astrocytic pro-teins localization using immunofluorescence methods: GFAP, vimentin, glutamine synthetase, along with oligodendroglia (by cyclonucleotidphosphatase expression), microglia (IBA1 Ca-binding protein), neuronal nuclear protein NeuN, and the astroglia proliferative activity (based on Ki67 localization). Results. We detected astrocyte death and a decrease in glutamine synthetase immunoreactivity in the le-sioned area, but no changes in the microglia reaction and the L-AA effect on neurons and oligodendroglia. The astrocyte loss was replenished by proliferation and migration of newly formed immature astrocytes, and a glial scar formed on day 12 after the surgery. Conclusion. L-AA administration, which causes the death of striatum astrocytes in the injection area, can serve as a convenient model for studying reactive changes in astroglia and astrocytic dysfunction while revealing the pathogenetic patterns of neurodegenerative processes. Keywords: astrocytes, striatum, L-alpha-aminoadipic acid, gliosis, glial toxin
- Published
- 2021
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