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P2X7 signaling promotes microsphere embolism-triggered microglia activation by maintaining elevation of Fas ligand.
Lu, Ying-mei; Tao, Rong-rong; Huang, Ji-yun; Li, Li-tao; Liao, Mei-hua; Li, Xiao-ming; Fukunaga, Kohji; Hong, Ze-Hui; Han, Feng.
Afiliación
  • Lu YM; Department of Neurobiology, Key Laboratory of Medical Neurobiology of Ministry of Health of China, Zhejiang University School of Medicine, Hangzhou, China.
J Neuroinflammation ; 9: 172, 2012 Jul 12.
Article en En | MEDLINE | ID: mdl-22789015
BACKGROUND: The cerebral microvascular occlusion elicits microvascular injury which mimics the different degrees of stroke severity observed in patients, but the mechanisms underlying these embolic injuries are far from understood. The Fas ligand (FasL)-Fas system has been implicated in a number of pathogenic states. Here, we examined the contribution of microglia-derived FasL to brain inflammatory injury, with a focus on the potential to suppress the FasL increase by inhibition of the P2X(7)-FasL signaling with pharmacological or genetic approaches during ischemia. METHODS: The cerebral microvascular occlusion was induced by microsphere injection in experimental animals. Morphological changes in microglial cells were studied immunohistochemically. The biochemical analyses were used to examine the intracellular changes of P2X(7)/FasL signaling. The BV-2 cells and primary microglia from mice genetically deficient in P2X(7) were used to further establish a linkage between microglia activation and FasL overproduction. RESULTS: The FasL expression was continuously elevated and was spatiotemporally related to microglia activation following microsphere embolism. Notably, P2X(7) expression concomitantly increased in microglia and presented a distribution pattern that was similar to that of FasL in ED1-positive cells at pathological process of microsphere embolism. Interestingly, FasL generation in cultured microglia cells subjected to oxygen-glucose deprivation-treated neuron-conditioned medium was prevented by the silencing of P2X(7). Furthermore, FasL induced the migration of BV-2 microglia, whereas the neutralization of FasL with a blocking antibody was highly effective in inhibiting ischemia-induced microglial mobility. Similar results were observed in primary microglia from wild-type mice or mice genetically deficient in P2X(7). Finally, the degrees of FasL overproduction and neuronal death were consistently reduced in P2X(7)(-/-) mice compared with wild-type littermates following microsphere embolism insult. CONCLUSION: FasL functions as a key component of an immunoreactive response loop by recruiting microglia to the lesion sites through a P2X(7)-dependent mechanism. The specific modulation of P2X(7)/FasL signaling and aberrant microglial activation could provide therapeutic benefits in acute and subacute phase of cerebral microembolic injury.
Asunto(s)

Texto completo: 1 Bases de datos: MEDLINE Asunto principal: Microglía / Embolia Intracraneal / Proteína Ligando Fas / Receptores Purinérgicos P2X7 / Microesferas Límite: Animals Idioma: En Revista: J Neuroinflammation Asunto de la revista: NEUROLOGIA Año: 2012 Tipo del documento: Article País de afiliación: China

Texto completo: 1 Bases de datos: MEDLINE Asunto principal: Microglía / Embolia Intracraneal / Proteína Ligando Fas / Receptores Purinérgicos P2X7 / Microesferas Límite: Animals Idioma: En Revista: J Neuroinflammation Asunto de la revista: NEUROLOGIA Año: 2012 Tipo del documento: Article País de afiliación: China