National Institute of Biological Sciences, Beijing, China.
Graduate School of Peking Union Medical College, Beijing, China.
PLoS Genet. 2019 Apr 11;15(4):e1008043. doi: 10.1371/journal.pgen.1008043. eCollection 2019 Apr.
Mounting evidence supports that LINE-1 (L1) retrotransposition can occur postzygotically in healthy and diseased human tissues, contributing to genomic mosaicism in the brain and other somatic tissues of an individual. However, the genomic distribution of somatic human-specific LINE-1 (L1Hs) insertions and their potential impact on carrier cells remain unclear. Here, using a PCR-based targeted bulk sequencing approach, we profiled 9,181 somatic insertions from 20 postmortem tissues from five Rett patients and their matched healthy controls. We identified and validated somatic L1Hs insertions in both cortical neurons and non-brain tissues. In Rett patients, somatic insertions were significantly depleted in exons-mainly contributed by long genes-than healthy controls, implying that cells carrying MECP2 mutations might be defenseless against a second exonic L1Hs insertion. We observed a significant increase of somatic L1Hs insertions in the brain compared with non-brain tissues from the same individual. Compared to germline insertions, somatic insertions were less sense-depleted to transcripts, indicating that they underwent weaker selective pressure on the orientation of insertion. Our observations demonstrate that somatic L1Hs insertions contribute to genomic diversity and MeCP2 dysfunction alters their genomic patterns in Rett patients.
越来越多的证据表明,LINE-1(L1)逆转录转座可在健康和患病的人体组织中发生,导致个体大脑和其他体细胞组织中的基因组嵌合现象。然而,体细胞特异性 LINE-1(L1Hs)插入的基因组分布及其对载体细胞的潜在影响仍不清楚。在这里,我们使用基于 PCR 的靶向批量测序方法,对来自五名雷特患者及其匹配健康对照的 20 个死后组织的 9181 个体细胞插入进行了分析。我们在皮质神经元和非脑组织中鉴定并验证了体细胞 L1Hs 插入。在雷特患者中,体细胞插入在基因中显著缺失,尤其是长基因,这表明携带 MECP2 突变的细胞可能无法抵御第二次外显子 L1Hs 插入。与同一个体的非脑组织相比,我们观察到脑组织中的体细胞 L1Hs 插入明显增加。与种系插入相比,体细胞插入对转录本的 sense 缺失较少,表明它们受到插入方向的选择压力较弱。我们的观察表明,体细胞 L1Hs 插入有助于基因组多样性,并且 MeCP2 功能障碍改变了雷特患者中它们的基因组模式。
