In vivo model of HIV infection of the human brain

Advances in neuroimmunology Pub Date : 1994-01-01 DOI:10.1016/S0960-5428(06)80265-2

Cristian L. Achim, Clayton A. Wiley

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引用次数: 6

Abstract

Approximately one quarter of AIDS patients develop neurologic symptoms attributable to HIV infection within the brain. Previous studies suggest that HIV associated neurologic damage may be mediated by immune factors secreted by activated/infected CNS macrophages. We developed an in vivo system in which human embryonic brain tissue can be infected with HIV and the associated pathology monitored. In this model, dissociated human brain tissue is grown in vitro as single cell suspension in serum free medium. Fetal neural cells aggregate and form “brain microspheres” that are then transplanted into SLID mice. Pilot studies suggest that “brain microspheres” injected in the fat pad of SCID mice differentiate and survive for several months in vivo. Study of these grafts shows presence of functional neural cells and vascular organization suggesting a blood-brain barrier. When brain microspheres are co-cultured in vitro with HIV-infected human macrophages, virus is detected inside the human neural tissue grafts in SCID mice and measurements of viral and immune factors can be performed. To promote physiologic neuronal differentiation within the human grafts, implantation in the brain of SCID mice is being tested at the present time.

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HIV感染人脑的体内模型

大约四分之一的艾滋病患者出现可归因于大脑内艾滋病毒感染的神经系统症状。先前的研究表明，HIV相关的神经损伤可能是由激活/感染的中枢神经系统巨噬细胞分泌的免疫因子介导的。我们开发了一种体内系统，在该系统中，人类胚胎脑组织可以感染艾滋病毒并监测相关病理。在该模型中，分离的人脑组织作为单细胞悬液在体外无血清培养基中生长。胎儿神经细胞聚集形成“脑微球”，然后移植到滑脱小鼠体内。初步研究表明，注入SCID小鼠脂肪垫的“脑微球”在体内分化并存活数月。对这些移植物的研究表明，存在功能性神经细胞和血管组织，表明存在血脑屏障。当脑微球与hiv感染的人巨噬细胞体外共培养时，在SCID小鼠的人神经组织移植物中检测到病毒，并可以进行病毒和免疫因子的测量。为了促进人类移植物内的生理性神经元分化，目前正在进行SCID小鼠脑内植入试验。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advances in neuroimmunology

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