Spinal astrocytic activation contributes to mechanical allodynia in a mouse model of type 2 diabetes
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- 作者:Yong-Hui Liaoa ; 1 ; Gui-He Zhangb ; 1 ; Dong Jiac ; 1 ; Peng Wangc ; 1 ; Nian-Song Qiand ; 1 ; Fei Hee ; Xiang-Tian Zengf ; Yong Hea ; Yan-Ling Yanga ; Da-Yong Caoa ; Yi Zhanga ; De-Sheng Wanga ; Kai-Shan Taoa ; taokaishan@gmail.com ; Chang-Jun Gaob ; gaocj74@163.com ; Ke-Feng Doua ; doukefengfmmu1@163.com
- 关键词:Diabetes ; Neuropathic pain ; Glia ; Cytokine
- 刊名:Brain Research
- 出版年:2011
- 出版时间:12 January 2011
- 年:2011
- 卷:1368
- 期:Complete
- 页码:324-335
- 全文大小:1231 K
文摘
Diabetic neuropathic pain (DNP) plays a major role in decreased life quality of type 2 diabetes patients, however, the molecular mechanisms underlying DNP remain unclear. Emerging research implicates the participation of spinal glial cells in some neuropathic pain models. However, it remains unknown whether spinal glial cells are activated under type 2 diabetic conditions and whether they contribute to diabetes-induced neuropathic pain. In the present study, using a db/db type 2 diabetes mouse model that displayed obvious mechanical allodynia, we found that spinal astrocyte but not microglia was dramatically activated. The mechanical allodynia was significantly attenuated by intrathecally administrated l-α-aminoadipate (astrocytic specific inhibitor) whereas minocycline (microglial specific inhibitor) did not have any effect on mechanical allodynia, which indicated that spinal astrocytic activation contributed to allodynia in db/db mice. Further study aimed to identify the detailed mechanism of astrocyte-incudced allodynia in db/db mice. Results showed that spinal activated astrocytes dramatically increased interleukin (IL)-1β expression which may induce N-methyl-d-aspartic acid receptor (NMDAR) phosphorylation in spinal dorsal horn neurons to enhance pain transmission. Together, these results suggest that spinal activated astrocytes may be a crucial component of mechanical allodynia in type 2 diabetes and “Astrocyte-IL-1β-NMDAR-Neuron” pathway may be the detailed mechanism of astrocyte-incudced allodynia. Thus, inhibiting astrocytic activation in the spinal dorsal horn may represent a novel therapeutic strategy for treating DNP.