期刊
JOURNAL OF NEUROTRAUMA
卷 26, 期 12, 页码 2145-2155出版社
MARY ANN LIEBERT, INC
DOI: 10.1089/neu.2009.0894
关键词
calcium-binding proteins; epileptogenesis; GABA interneurons; human traumatic brain injury
资金
- Colciencias [1106-04-16329]
- Fundacao de amparo a Pesquisa do estado de Sao Paulo (FAPESP) [2007/50261-4]
- FAPESP-Cinapce [2005/56447-7]
- Conselho Nacional de Desenvolvimento cientifico e Technologico Programa Sud-Americano de Apoyoa a las actividades deCooperacion en Ciencia y technologia (CNPq-PROSUL) Brazil [490660/2007-0]
Traumatic brain injury (TBI) produces several cellular changes, such as gliosis, axonal and dendritic plasticity, and inhibition-excitation imbalance, as well as cell death, which can initiate epileptogenesis. It has been demonstrated that dysfunction of the inhibitory components of the cerebral cortex after injury may cause status epilepticus in experimental models; we proposed to analyze the response of cortical interneurons and astrocytes after TBI in humans. Twelve contusion samples were evaluated, identifying the expression of glial fibrillary acidic protein (GFAP) and calcium-binding proteins (CaBPs). The study was made in sectors with and without preserved cytoarchitecture evaluated with NeuN immunoreactivity (IR). In sectors with total loss of NeuN-IR the results showed a remarkable loss of CaBP-IR both in neuropil and somata. In sectors with conserved cytoarchitecture less drastic changes in CaBP-IR were detected. These changes include a decrease in the amount of parvalbumin (PV-IR) neurons in layer II, an increase of calbindin (CB-IR) neurons in layers III and V, and an increase in calretinin (CR-IR) neurons in layer II. We also observed glial fibrillary acidic protein immunoreactivity (GFAP-IR) in the white matter, in the gray-white matter transition, and around the sectors with NeuN-IR total loss. These findings may reflect dynamic activity as a consequence of the lesion that is associated with changes in the excitatory circuits of neighboring hyperactivated glutamatergic neurons, possibly due to the primary impact, or secondary events such as hypoxia-ischemia. Temporal evolution of these changes may be the substrate linking severe cortical contusion and the resulting epileptogenic activity observed in some patients.
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