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IN VITRO MODELS OF SICKLE CELL GENE THERAPY

镰状细胞基因治疗的体外模型

基本信息

批准号：
6325914
负责人：
GEORGE F ATWEH
金额：
$ 13.55万
依托单位：
COLUMBIA UNIVERSITY HEALTH SCIENCES
依托单位国家：
美国
项目类别：
财政年份：
2000
资助国家：
美国
起止时间：
2000-04-01 至 2001-03-31
项目状态：
已结题

项目摘要

The application of hematopoietic stem cell gene therapy to sickle cell disease (SCD) may one day offer the chance of cure to patients with this disorder. Although significant progress has been made towards this goal, many obstacles remain. The major obstacle to the gene therapy of SCD at this stage is the very low efficiency of gene transfer into hematopoietic stem cells. Current approaches to the gene therapy of SCD aim at inserting a normal globin gene in the genome of the hematopoietic stem cell rather than replacing the mutant gene with a normal gene. Such gene "addition" would result in excess synthesis of normal globin chains in a cell with a full complement of mutant chains. The effects of this manipulation on the overall hemoglobin composition of the red cell and its propensity to sickle are unknown. This is a very difficult situation then a sickle cell patient with a high level of fetal hemoglobin or a sickle beta-thalassemia patient with a high level of hemoglobin a where the normal or beta-globin chains replace some of the mutant sickle globin chains in the red cell. As a result of the low efficiency of gene transfer to hematopoietic stem cells, it is not possible to determine the effects of such gene transfer in an in vivo setting. We propose to develop an in vitro system to assess the effects of the transfer of normal globin genes into erythroid progenitors of patients with SCD on the phenotype of the transduced cells. The recent development of in vitro methods for the expansion and differentiation of phenotype of the transduced cells. The recent development of in vitro methods for the expansion and differentiation of erythroid in a two-phase liquid culture system is crucial for the success for such a system. This has made it possible to retrovirally transduce and select erythroid progenitors that incorporate the transferred globin genes and expand and differentiate them, all in an in vitro culture system. The effects of gene transfer on the hemoglobin phenotype and the sickling potential of transduced cells from patients with sickling disorders can then be analyzed by established in vitro assays of red blood sickling. We will analyze the effects of gene transfer on the phenotype of cells from patients with a variety of sickling disorders including SS, SC, Sbeta- thalassemia, all in the presence and absence of interacting alpha- thalassemia, this experimental system is designed to provide the proof of principle that this type of gene transfer may be effective in preventing sickling and its complications. We also hope it will serve as a useful pre-clinical test for comparing the effectiveness of different gene transfer vector in a safe and relatively inexpensive in vitro setting.

造血干细胞基因治疗在镰状细胞病中的应用疾病（SCD）可能有一天会为这种患者提供治愈的机会。 disorder.虽然在实现这一目标方面取得了重大进展，仍然存在许多障碍。SCD基因治疗的主要障碍是这个阶段是基因转移到造血系统的效率非常低，干细胞目前SCD的基因治疗方法旨在插入造血干细胞基因组中的正常珠蛋白基因，而不是用正常基因替换突变基因这样的基因“加法” 会导致细胞中正常珠蛋白链的过度合成，完整的突变链这种操纵对红细胞的总体血红蛋白组成及其倾向于镰刀未知。这是一个非常困难的情况，胎儿血红蛋白水平高或镰状β地中海贫血患者血红蛋白A水平高的患者，其中正常或β-珠蛋白链取代红细胞中的一些突变镰状珠蛋白链。由于基因转移到造血干细胞的效率低，细胞，不可能确定这种基因转移的影响。 in an invivo体内setting设置.我们建议开发一种体外系统来评估将正常珠蛋白基因转入红细胞系的作用 SCD患者的祖细胞对转导细胞表型的影响。本文综述了近年来体外扩增方法的研究进展，转导细胞表型的分化。近期体外扩增和分化方法的发展在两相液体培养系统中的红系细胞是成功的关键对于这样一个系统。这使得逆转录病毒治疗成为可能，选择并入转移的珠蛋白基因的红系祖细胞并在体外培养系统中扩增和分化它们。的转基因对血红蛋白表型和镰状化的影响来自镰状病患者的转导细胞的潜力可以然后通过建立的红血镰状化的体外测定进行分析。我们将分析基因转移对细胞表型的影响，患有各种镰状化疾病的患者，包括SS、SC、Sbeta- 地中海贫血，都在相互作用的α- 地中海贫血，这个实验系统的目的是提供证明，这种类型的基因转移可能有效地防止镰状化及其并发症。我们也希望它能成为一个有用的临床前试验，用于比较不同基因的有效性转移载体在安全和相对便宜的体外环境中。