1.Expression and effects of macrophage migration inhibitory factor on spinal cord injury in mice
Zhe ZHAO ; Yuan YAO ; Changguo DU ; Qiyue DENG
Journal of Regional Anatomy and Operative Surgery 2014;(1):1-4
Objective To study the effects of macrophage migration inhibitory factor (MIF) on spinal cord injury. Methods C57BL/6 mice with injury at T9 ~T10 were taken as spinal cord injury ( SCI) model, and they were divided into the operated group and the sham oper-ated group. Immunohistochemistry was used to detect expression changes of MIF during 72 hours after operation. Reverse transcriptase-poly-merase chain reaction ( RT-PCR) was used to test changes of mRNA level. And double staining immunofluorescence techniques was used to show expressions of MIF and RhoA. Results Expression of MIF at acute stage (72 hours after injury) increased significantly. Results of RT-PCR showed that mRNA levels of MIF and RhoA both increased. There were statistical differences between the two groups (P<0. 05). Con-clusion In acute stage after SCI, MIF increased in the activated microglia. MIF accumulated in oligodendrocyte-like and astrocyte-like cells in injured spinal cord, which might contribute to inhibitory environment for regeneration. Moreover, mRNA level of MIF raised with the in-crease of RhoA mRNA level, which indicated the potential inhibition of MIF to axonal regeneration in CNS.
2.Effects of different membrane proteins and dimethylsulfoxide on neurite growth of cerebellum granule cells
Qiyue DENG ; Shurong LI ; Wenqin CAI ; Bingyin SU
Journal of Third Military Medical University 1983;0(03):-
Objective To observe the effects of different membrane proteins and dimethylsulfoxide on neurite outgrowth of cerebellum granule cells(CGC).Methods Membrane proteins were extracted from the liver,sciatic nerve and brain white matter of adult rats and coated on the cover slips.CGC were dissociated from newborn rats and inoculated on the coated cover slips,while dimethylsulfoxide(DMSO) was added into the CGC suspension.Results The neurite outgrowth was inhibited by membrane protein of brain white mater and the effect was concentration-dependent.Low concentration(