Systematical Chromosome Rearrangement Reshapes the Landscape of Gene Expression in Human Cells (Whole genome resequencing by Oxford Nanopore Technologies)

Chromosome rearrangement plays important roles in development, carcinogenesis and evolution. However, its mechanism and subsequent effects are not fully understood. Large-scale chromosome rearrangement has been performed in the simple eukaryote, wine yeast, but the relative research in mammalian cells remains at the level of individual chromosome rearrangement due to technical limitations. In this study, we used CRISPR-Cas9 to target the highly repetitive human endogenous retrotransposons, LINE-1 and Alu, resulting in a large number of DNA double-strand breaks in the chromosomes. While this operation killed the majority of the cells, we eventually obtained live cell groups. Karyotype analysis and genome re-sequencing proved that we have achieved systematic chromosome rearrangement (SCR) in human cells. The copy number variations of the SCR genomes showed typical patterns observed in tumor genomes. The ATAC-seq and RNA-seq further revealed that the epigenetic and transcriptomic landscapes were deeply reshaped by the SCR. Gene expressions related to p53 pathway, DNA repair, cell cycle and apoptosis were greatly altered to facilitate the cell survival. Additionally, we found that the cells acquired CRISPR-Cas9 resistance after SCR by interfering with the Cas9 mRNA. Our study provided a new application of CRISPR-Cas9 and a practical approach for SCR in complex mammalian genomes.