科技导报
科技導報
과기도보
SCIENCE & TECHNOLOGY REVIEW
2009年
21期
39-49
,共11页
赵英杰%李照建%王任直%魏俊吉%李桂林%赵浩
趙英傑%李照建%王任直%魏俊吉%李桂林%趙浩
조영걸%리조건%왕임직%위준길%리계림%조호
脑缺血%血管内皮生长因子%血管生成素%基因治疗%脑室途径%腺相关病毒%血管生成%血脑屏障
腦缺血%血管內皮生長因子%血管生成素%基因治療%腦室途徑%腺相關病毒%血管生成%血腦屏障
뇌결혈%혈관내피생장인자%혈관생성소%기인치료%뇌실도경%선상관병독%혈관생성%혈뇌병장
cerebral ischemia%vascular endothelial growth factor%Angiopoietin-1%gene therapy%intra-ventricular%recombinant Adeno-Associated virus%angiogenesis%Blood Brain Barrier
为研究经脑室途径联合应用血管内皮生长因子(VEGF)和血管生成素(Angiopoietin-1,Ang-1),治疗大鼠急性脑梗塞的效果,并探讨治疗的机制,采用脑立体定向输注的方法,将rAAV1-VEGF治疗载体或者rAAV1-VEGF和rAAV1-Ang-1的混合治疗载体,通过侧脑室转染途径对大鼠大脑中动脉阻塞缺血再灌注模型进行基因治疗.观测VEGF和Ang-1蛋白表达、血脑屏障通透性、脑微血管密度等指标,并对大鼠进行神经功能行为评分等.结果显示.联合应用VEGF和Ang-1治疗急性脑梗塞可降低血脑屏障通透性,减轻脑水肿,增加缺血灶周围脑区的微血管密度,改善大鼠的神经功能.由此得出结论:联合应用VEGF和Ang-1基因治疗大鼠急性脑缺血.可保护脑细胞,促进新生血管生成.减轻脑水肿,改善大鼠的神经功能.
為研究經腦室途徑聯閤應用血管內皮生長因子(VEGF)和血管生成素(Angiopoietin-1,Ang-1),治療大鼠急性腦梗塞的效果,併探討治療的機製,採用腦立體定嚮輸註的方法,將rAAV1-VEGF治療載體或者rAAV1-VEGF和rAAV1-Ang-1的混閤治療載體,通過側腦室轉染途徑對大鼠大腦中動脈阻塞缺血再灌註模型進行基因治療.觀測VEGF和Ang-1蛋白錶達、血腦屏障通透性、腦微血管密度等指標,併對大鼠進行神經功能行為評分等.結果顯示.聯閤應用VEGF和Ang-1治療急性腦梗塞可降低血腦屏障通透性,減輕腦水腫,增加缺血竈週圍腦區的微血管密度,改善大鼠的神經功能.由此得齣結論:聯閤應用VEGF和Ang-1基因治療大鼠急性腦缺血.可保護腦細胞,促進新生血管生成.減輕腦水腫,改善大鼠的神經功能.
위연구경뇌실도경연합응용혈관내피생장인자(VEGF)화혈관생성소(Angiopoietin-1,Ang-1),치료대서급성뇌경새적효과,병탐토치료적궤제,채용뇌입체정향수주적방법,장rAAV1-VEGF치료재체혹자rAAV1-VEGF화rAAV1-Ang-1적혼합치료재체,통과측뇌실전염도경대대서대뇌중동맥조새결혈재관주모형진행기인치료.관측VEGF화Ang-1단백표체、혈뇌병장통투성、뇌미혈관밀도등지표,병대대서진행신경공능행위평분등.결과현시.연합응용VEGF화Ang-1치료급성뇌경새가강저혈뇌병장통투성,감경뇌수종,증가결혈조주위뇌구적미혈관밀도,개선대서적신경공능.유차득출결론:연합응용VEGF화Ang-1기인치료대서급성뇌결혈.가보호뇌세포,촉진신생혈관생성.감경뇌수종,개선대서적신경공능.
To examine the effects of intra-ventricular pre-treatment with a combination of recombinant Adeno-Associated Virus vectors encoding VEGF (rAAV1-VEGF) and Ang-1 (rAAV1-Ang-1) on early stroke in a rat model of transient Middle Cerebral Artery Occlusion (tMCAO), rAAV1-VEGF/rAAV1-Ang-1 or rAAV1-VEGF/rAAV1-null vector were delivered into the lateral ventricle of each rats. Mter eight weeks later, the rats were subjected to tMCAO for two hours. During the early stages of ischemic reperfusion, VEGF and Ang-1 expression levels, Blood Brain Barrier (BBB) permeability and cerebral microvessel density were determined and compared statistically between groups. Cerebral infarct volume and modified Neurological Severity Scores (NSS) were also determined to evaluate the therapeutic efficacy of rAAV1-VEGF/rAAV1-Ang-1. The results show that the intra-ventricular application of rAAV1-VEGF/ rAAV1-Ang-1, eight weeks before tMCAO, results in VEGF and Angl overexpression, and significantly reduces Evans blue permeability following ischemia (P<0.05). The microvessel density in the peri-infarct zone is significantly increased in the rAAV1-VEGF/ rAAV1-Ang-1 group as compared with the rAAVI-VEGF/rAAV1-null group(P<O.05). Cerebral infarct volume and NSS in the rAAV1-VEGF/rAAV1-Ang-1 group are significantly decreased as compared with the rAAV1-VEGF/rAAV1-null group (P<0.05). It is concluded that, in cerebral ischemia, the combination of Ang-1 and VEGF could be used early to promote the formation of mature neovessels and protect the injured cells, without inducing the side effects on BBB permeability. Early intra-ventricular injection of mixed rAAV1-VEGF and rAAV-Ang-1 may be a favorable therapeutic strategy in gene therapy for stroke.
