ZNF146/OZF and ZNF507 target LINE-1 sequences

Abstract

AbstractRepetitive sequences including transposable elements (TEs) and transposon-derived fragments account for nearly half of the human genome. While transposition-competent TEs must be repressed to maintain genomic stability, mutated and fragmented TEs comprising the bulk of repetitive sequences can also contribute to regulation of host gene expression and broader genome organization. Here we analyzed published ChIP-seq data sets to identify proteins broadly enriched on TEs in the human genome. We show two of the proteins identified, C2H2 zinc finger-containing proteins ZNF146 (also known as OZF) and ZNF507, are targeted to distinct sites within LINE-1 ORF2 at thousands of locations in the genome. ZNF146 binding sites are found at old and young LINE-1 elements. In contrast, ZNF507 preferentially binds at young LINE-1 sequences correlated to sequence changes in LINE-1 elements at ZNF507’s binding site. To gain further insight into ZNF146 and ZNF507 function, we disrupt their expression in HEK293 cells using CRISPR/Cas9 and perform RNA sequencing, finding modest gene expression changes in cells where ZNF507 has been disrupted. We further identify a physical interaction between ZNF507 and PRMT5, suggesting ZNF507 may target arginine methylation activity to LINE-1 sequences.