神经损伤与功能重建
神經損傷與功能重建
신경손상여공능중건
NEURAL INJURY AND FUNCTIONAL RECONSTRUCTION
2013年
4期
243-246
,共4页
甘莉%闵喆%熊永洁%王倩%方瑜%张苏明
甘莉%閔喆%熊永潔%王倩%方瑜%張囌明
감리%민철%웅영길%왕천%방유%장소명
Tg-SwDI/B小鼠%β淀粉样蛋白%纤维化%星形胶质细胞%空间记忆受损
Tg-SwDI/B小鼠%β澱粉樣蛋白%纖維化%星形膠質細胞%空間記憶受損
Tg-SwDI/B소서%β정분양단백%섬유화%성형효질세포%공간기억수손
Tg-SwDI/B mice%amyloidβprotein%fibrillation%astrocytes%spatial memory impairment
目的:观察Tg-SwDI/B小鼠空间记忆能力与脑内β淀粉样(Aβ)蛋白分布的情况。方法:12月龄纯合子Tg-SwDI/B小鼠和野生型C57BL/6各20只,雌雄比例为1颐1;通过八臂迷宫检测小鼠的空间记忆能力,硫磺素-S染色和GFAP免疫荧光染色显示Aβ及星形胶质细胞在小鼠脑内的分布特点。结果:Tg-SwDI/B小鼠空间记忆功能明显受损,表现为长期记忆功能下降,脑内有大量纤维化Aβ沉积在血管或其周围,并且可见GFAP阳性星形胶质细胞,两者均在海马和丘脑区域更为多见。同月龄野生型小鼠脑内未见纤维化Aβ沉积,存在少量GFAP阳性星形胶质细胞,但数量明显少于Tg-SwDI/B小鼠。结论:Tg-SwDI/B小鼠的空间记忆功能受损,可能与海马区域血管相关性纤维化Aβ和活化的星形胶质细胞增生相关。
目的:觀察Tg-SwDI/B小鼠空間記憶能力與腦內β澱粉樣(Aβ)蛋白分佈的情況。方法:12月齡純閤子Tg-SwDI/B小鼠和野生型C57BL/6各20隻,雌雄比例為1頤1;通過八臂迷宮檢測小鼠的空間記憶能力,硫磺素-S染色和GFAP免疫熒光染色顯示Aβ及星形膠質細胞在小鼠腦內的分佈特點。結果:Tg-SwDI/B小鼠空間記憶功能明顯受損,錶現為長期記憶功能下降,腦內有大量纖維化Aβ沉積在血管或其週圍,併且可見GFAP暘性星形膠質細胞,兩者均在海馬和丘腦區域更為多見。同月齡野生型小鼠腦內未見纖維化Aβ沉積,存在少量GFAP暘性星形膠質細胞,但數量明顯少于Tg-SwDI/B小鼠。結論:Tg-SwDI/B小鼠的空間記憶功能受損,可能與海馬區域血管相關性纖維化Aβ和活化的星形膠質細胞增生相關。
목적:관찰Tg-SwDI/B소서공간기억능력여뇌내β정분양(Aβ)단백분포적정황。방법:12월령순합자Tg-SwDI/B소서화야생형C57BL/6각20지,자웅비례위1이1;통과팔비미궁검측소서적공간기억능력,류광소-S염색화GFAP면역형광염색현시Aβ급성형효질세포재소서뇌내적분포특점。결과:Tg-SwDI/B소서공간기억공능명현수손,표현위장기기억공능하강,뇌내유대량섬유화Aβ침적재혈관혹기주위,병차가견GFAP양성성형효질세포,량자균재해마화구뇌구역경위다견。동월령야생형소서뇌내미견섬유화Aβ침적,존재소량GFAP양성성형효질세포,단수량명현소우Tg-SwDI/B소서。결론:Tg-SwDI/B소서적공간기억공능수손,가능여해마구역혈관상관성섬유화Aβ화활화적성형효질세포증생상관。
Objective:To observe the spatial memory and it’s relationship with distribution of amyloid-βprotein deposition in the Tg-SwDI/B mice brain. Methods:There were 20 homozygous Tg-SwDI/B and wild-type C57BL/6 male and female mice at the age of 12 months individually. Radial arm maze was used to test the spatial memory of all the mice, and thioflavine-S and glia fibrillary acidic protein (GFAP) were stained to study the distribution of Aβand astrocytes. Results:The spatial memory of Tg-SwDI/B mice was impaired obviously at the age of 12 months. Numerous fibrillar Aβwas accumulated in and around microvessels, and GFAP-positive reactive astrocytes were significantly elevated in all brain regions of Tg-SwDI/B mice, particularly in the hippocampal and thalamic regions. No deposits of fibrillar Aβwas observed in the brain of wild type C57BL/6 mice. Few GFAP-positive astrocytes were observed compared with those in Tg-SwDI/B mice. Conclusion:Spatial memory of Tg-SwDI/B mice was impaired, the microvascular fibrillar Aβdeposit and activated astrocytes proliferation in hippocampal region perhaps associated with the defect of spatial memory.
