靶向纠正患者特异性 iPSC 中与层粘连蛋白病相关的 LMNA 突变。
Targeted gene correction of laminopathy-associated LMNA mutations in patient-specific iPSCs.
机构信息
Gene Expression Laboratory, Salk Institute for Biological Studies, 10010 North Torrey Pines Road, La Jolla, CA 92037, USA.
出版信息
Cell Stem Cell. 2011 Jun 3;8(6):688-94. doi: 10.1016/j.stem.2011.04.019. Epub 2011 May 19.
Abstract
Combination of stem cell-based approaches with gene-editing technologies represents an attractive strategy for studying human disease and developing therapies. However, gene-editing methodologies described to date for human cells suffer from technical limitations including limited target gene size, low targeting efficiency at transcriptionally inactive loci, and off-target genetic effects that could hamper broad clinical application. To address these limitations, and as a proof of principle, we focused on homologous recombination-based gene correction of multiple mutations on lamin A (LMNA), which are associated with various degenerative diseases. We show that helper-dependent adenoviral vectors (HDAdVs) provide a highly efficient and safe method for correcting mutations in large genomic regions in human induced pluripotent stem cells and can also be effective in adult human mesenchymal stem cells. This type of approach could be used to generate genotype-matched cell lines for disease modeling and drug discovery and potentially also in therapeutics.
摘要
基于干细胞的方法与基因编辑技术的结合代表了研究人类疾病和开发疗法的一种有吸引力的策略。然而,迄今为止为人类细胞描述的基因编辑方法存在技术限制,包括靶基因大小有限、转录不活跃部位的靶向效率低以及可能阻碍广泛临床应用的脱靶遗传效应。为了解决这些限制,并作为原理验证,我们专注于基于同源重组的核纤层蛋白 A (LMNA) 上多个突变的基因校正,这些突变与各种退行性疾病有关。我们表明,辅助依赖性腺相关病毒载体 (HDAdV) 为在人诱导多能干细胞中校正大片段基因组区域的突变提供了一种高效、安全的方法,并且在成人骨髓间充质干细胞中也具有有效性。这种方法可用于生成用于疾病建模和药物发现的基因型匹配细胞系,并且潜在地也可用于治疗。
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