中国组织工程研究与临床康复
中國組織工程研究與臨床康複
중국조직공정연구여림상강복
JOURNAL OF CLINICAL REHABILITATIVE TISSUE ENGINEERING RESEARCH
2009年
45期
8924-8928
,共5页
吴凤岚%周晓飞%曹巍%彭超%刘爱莲
吳鳳嵐%週曉飛%曹巍%彭超%劉愛蓮
오봉람%주효비%조외%팽초%류애련
Y染色体原位杂交%间充质干细胞%多发性硬化症%实验性自身免疫性脑脊髓炎
Y染色體原位雜交%間充質榦細胞%多髮性硬化癥%實驗性自身免疫性腦脊髓炎
Y염색체원위잡교%간충질간세포%다발성경화증%실험성자신면역성뇌척수염
背景:间充质干细胞移植治疗多发性硬化症是一种被日渐关注的新型治疗手段.然而,间充质干细胞是通过穿越血脑屏障发挥细胞替代作用还是通过免疫抑制发挥治疗作用仍有待进一步验证.目的:建立稳定有效的Y染色体原位杂交方法,观察间充质干细胞在多发性硬化症模型小鼠中的分布.设计、时间及地点:观察性实验,于2007-09/2009-02在健康科学研究所分子免疫学实验室完成.材料:C57BL/6小鼠30只,6~8周龄,体质量15~20 g,雌鼠用于建立实验性自身免疫性脑脊髓炎模型.方法:用地高辛标记了针对Y染色体的DNA探针,进行原位杂交验证探针的特异性和敏感性.再将从雄鼠中分离的间充质干细胞移植到雌性实验性自身免疫性脑脊髓炎小鼠体内,进行原位杂交.主要观察指标:光学和荧光显微镜观察间充质干细胞在实验性自身免疫性脑脊髓炎小鼠体内的分布情况.结果:实验确立了探针的Y染色体特异性和敏感性,进一步建立了有效的原位杂交方法.追踪到间充质干细胞在实验性自身免疫性脑脊髓炎小鼠的脊髓内分布极少,而外周免疫器官内有一定数量的分布,表明间充质干细胞可能是通过外周免疫调节发挥治疗作用.结论:在外周脾和淋巴结内有一定数量的间充质干细胞分布,而在中枢神经系统的脊髓内只有极少数的间充质干细胞.
揹景:間充質榦細胞移植治療多髮性硬化癥是一種被日漸關註的新型治療手段.然而,間充質榦細胞是通過穿越血腦屏障髮揮細胞替代作用還是通過免疫抑製髮揮治療作用仍有待進一步驗證.目的:建立穩定有效的Y染色體原位雜交方法,觀察間充質榦細胞在多髮性硬化癥模型小鼠中的分佈.設計、時間及地點:觀察性實驗,于2007-09/2009-02在健康科學研究所分子免疫學實驗室完成.材料:C57BL/6小鼠30隻,6~8週齡,體質量15~20 g,雌鼠用于建立實驗性自身免疫性腦脊髓炎模型.方法:用地高辛標記瞭針對Y染色體的DNA探針,進行原位雜交驗證探針的特異性和敏感性.再將從雄鼠中分離的間充質榦細胞移植到雌性實驗性自身免疫性腦脊髓炎小鼠體內,進行原位雜交.主要觀察指標:光學和熒光顯微鏡觀察間充質榦細胞在實驗性自身免疫性腦脊髓炎小鼠體內的分佈情況.結果:實驗確立瞭探針的Y染色體特異性和敏感性,進一步建立瞭有效的原位雜交方法.追蹤到間充質榦細胞在實驗性自身免疫性腦脊髓炎小鼠的脊髓內分佈極少,而外週免疫器官內有一定數量的分佈,錶明間充質榦細胞可能是通過外週免疫調節髮揮治療作用.結論:在外週脾和淋巴結內有一定數量的間充質榦細胞分佈,而在中樞神經繫統的脊髓內隻有極少數的間充質榦細胞.
배경:간충질간세포이식치료다발성경화증시일충피일점관주적신형치료수단.연이,간충질간세포시통과천월혈뇌병장발휘세포체대작용환시통과면역억제발휘치료작용잉유대진일보험증.목적:건립은정유효적Y염색체원위잡교방법,관찰간충질간세포재다발성경화증모형소서중적분포.설계、시간급지점:관찰성실험,우2007-09/2009-02재건강과학연구소분자면역학실험실완성.재료:C57BL/6소서30지,6~8주령,체질량15~20 g,자서용우건립실험성자신면역성뇌척수염모형.방법:용지고신표기료침대Y염색체적DNA탐침,진행원위잡교험증탐침적특이성화민감성.재장종웅서중분리적간충질간세포이식도자성실험성자신면역성뇌척수염소서체내,진행원위잡교.주요관찰지표:광학화형광현미경관찰간충질간세포재실험성자신면역성뇌척수염소서체내적분포정황.결과:실험학립료탐침적Y염색체특이성화민감성,진일보건립료유효적원위잡교방법.추종도간충질간세포재실험성자신면역성뇌척수염소서적척수내분포겁소,이외주면역기관내유일정수량적분포,표명간충질간세포가능시통과외주면역조절발휘치료작용.결론:재외주비화림파결내유일정수량적간충질간세포분포,이재중추신경계통적척수내지유겁소수적간충질간세포.
BACKGROUND:Transplantation of mesenchymal stem cells (MSCs) to multiple sclerosis (MS) is a new developed treatment to be given more and more attention.However,whether the MSCs function by cell replacement after going cross the blood-brain barricr or immune suppression needs further confirmation.OBJECTIVE:To establish a steady and effective method of Y chromosome in situ hybridization (ISH) and to detect the distribution of MSCs in a mouse model with MS.DESIGN,TIME AND SETTING:The observational study was performed at the Laboratory of Molecular Immunology,Institute of Healthy Science from September 2007 to February 2009.MATERIALS:A total of 30 C57BL/6 mice,aged 6-8 weeks and weighing 15-20 g,were selected.Female mice were used to establish experimental autoimmune encephalomyelitis (EAE).METHODS:Y chromosme specific DNA probe labled with digoxine (DIG) was designed and ISH was performed to confirm that the designed probe was Y chromosome specific and biologically sensitive.We transplanted the MSCs from male mice into the female EAE mice,and tracked the MSCs by Y chromosome ISH.MAIN OUTCOME MEASRUES:Distribution of MSCs in mice with EAE was observed under the optical and fluorescence microscope.RESULTS:The probe was confirmed to be Y chromosome specific and biologically sensitive.What's more,a steady and effective method of ISH was established.Some MSCs were detected in the periphery organs-spleen and lymph node of mice with EAE;seldom in spinal cord which indicated that MSCs might play its roles by immune suppression.CONCLUSION:Some MSCs were detected in the periphery organs-spleen and lymph node of mice with EAE,but seldom in spinal cord in the central nervous system.
