Molecular Medicine Division Chemical Biology Division, Walter and Eliza Hall Institute of Medical Research, Parkville, Vic., Australia.
J Thromb Haemost. 2010 Dec;8(12):2751-6. doi: 10.1111/j.1538-7836.2010.04077.x.
RNA interference (RNAi) is a powerful tool for suppressing gene function. The tetracycline (tet)-regulated expression system has recently been adapted to allow inducible RNAi in mice, however its efficiency in a particular cell type in vivo depends on a transgenic tet transactivator expression pattern and is often highly variable.
We aimed to establish a transgenic strategy that allows efficient and inducible gene knockdown in particular hematopoietic lineages in mice.
Using a tet-regulated reporter gene strategy, we found that transgenic mice expressing the rtTA (tet-on) transactivator under control of the cytomegalovirus (CMV) promoter (CMV-rtTA mice) display inducible reporter gene expression with unusual and near-complete efficiency in megakaryocytes and platelets. To test whether the CMV-rtTA transgene can drive inducible and efficient gene knockdown within this lineage, we generated a novel mouse strain harboring a tet-regulated short hairpin RNA (shRNA) targeting Bcl-x(L) , a pro-survival Bcl-2 family member known to be essential for maintaining platelet survival. Doxycycline treatment of adult mice carrying both transgenes induces shRNA expression, depletes Bcl-x(L) in megakaryocytes and triggers severe thrombocytopenia, whereas doxycycline withdrawal shuts off shRNA expression, normalizes Bcl-x(L) levels and restores platelet numbers. These effects are akin to those observed with drugs that target Bcl-x(L) , clearly demonstrating that this transgenic system allows efficient and inducible inhibition of genes in megakaryocytes and platelets.
We have established a novel transgenic strategy for inducible gene knockdown in megakaryocytes and platelets that will be useful for characterizing genes involved in platelet production and function in adult mice.
RNA 干扰(RNAi)是一种强大的基因功能抑制工具。四环素(tet)调控表达系统最近被改编为允许在小鼠中诱导 RNAi,但在体内特定细胞类型中的效率取决于转基因 tet 激活子的表达模式,并且通常高度可变。
我们旨在建立一种转基因策略,允许在小鼠中特定造血谱系中高效诱导基因敲低。
使用 tet 调控报告基因策略,我们发现表达 rtTA(tet-on)激活子的转基因小鼠在巨核细胞和血小板中表现出诱导型报告基因表达,具有不寻常且近乎完全的效率,该激活子受巨细胞病毒(CMV)启动子(CMV-rtTA 小鼠)的控制。为了测试 CMV-rtTA 转基因是否可以在该谱系中驱动诱导和高效的基因敲低,我们生成了一种新型小鼠品系,其携带 tet 调控的短发夹 RNA(shRNA)靶向 Bcl-x(L),Bcl-x(L) 是一种已知对维持血小板存活至关重要的生存 Bcl-2 家族成员。成年携带两种转基因的小鼠用强力霉素处理会诱导 shRNA 表达,耗尽巨核细胞中的 Bcl-x(L)并引发严重的血小板减少症,而强力霉素撤药会关闭 shRNA 表达,使 Bcl-x(L)水平正常化并恢复血小板数量。这些效应类似于针对 Bcl-x(L) 的药物所观察到的效应,清楚地表明这种转基因系统允许在巨核细胞和血小板中高效诱导抑制基因。
我们已经建立了一种新的在巨核细胞和血小板中诱导基因敲低的转基因策略,这对于在成年小鼠中表征参与血小板生成和功能的基因将非常有用。
