NOD/SCID与NOD/SCID/γ链小鼠体内选择的人类SCID-再填充细胞的差异二次重构

Bone Marrow Research Pub Date : 2011-01-01 Epub Date: 2010-12-26 DOI:10.1155/2011/252953
Shanbao Cai, Haiyan Wang, Barbara Bailey, Jennifer R Hartwell, Jayne M Silver, Beth E Juliar, Anthony L Sinn, Arthur R Baluyut, Karen E Pollok
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引用次数: 21

摘要

能够监测基因治疗策略长期影响的人源化骨髓异种移植模型将有助于促进临床效用的评估。研究了NOD/SCID小鼠骨髓微环境与NOD/SCID/γ链(null)小鼠在烷基化剂介导的体内选择后支持MGMT(P140K)转导的人造血细胞长期植入的能力。小鼠移植MGMT(P140K)转导的CD34(+)细胞和在体内选择的转导细胞。在移植后4个月,NOD/SCID小鼠与NSG小鼠骨髓中人类细胞植入和MGMT(P140K)转导细胞的水平在载药和药物处理小鼠中略有不同。在二次移植中,虽然移植了相同数量的MGMT(P140K)转导的人细胞,但在移植后2个月,NOD/SCID/γ链(null)小鼠的移植物量明显高于NOD/SCID小鼠。这些数据表明,用人类造血细胞重建NOD/SCID/γ链(null)小鼠是一种更有前景的模型,用于测试专注于操纵长期再生人类来源细胞的策略的遗传毒性和有效性。
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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Differential Secondary Reconstitution of In Vivo-Selected Human SCID-Repopulating Cells in NOD/SCID versus NOD/SCID/γ chain Mice.

Humanized bone-marrow xenograft models that can monitor the long-term impact of gene-therapy strategies will help facilitate evaluation of clinical utility. The ability of the murine bone-marrow microenvironment in NOD/SCID versus NOD/SCID/γ chain(null) mice to support long-term engraftment of MGMT(P140K)-transduced human-hematopoietic cells following alkylator-mediated in vivo selection was investigated. Mice were transplanted with MGMT(P140K)-transduced CD34(+) cells and transduced cells selected in vivo. At 4 months after transplantation, levels of human-cell engraftment, and MGMT(P140K)-transduced cells in the bone marrow of NOD/SCID versus NSG mice varied slightly in vehicle- and drug-treated mice. In secondary transplants, although equal numbers of MGMT(P140K)-transduced human cells were transplanted, engraftment was significantly higher in NOD/SCID/γ chain(null) mice compared to NOD/SCID mice at 2 months after transplantation. These data indicate that reconstitution of NOD/SCID/γ chain(null) mice with human-hematopoietic cells represents a more promising model in which to test for genotoxicity and efficacy of strategies that focus on manipulation of long-term repopulating cells of human origin.

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