Abstract
The transcription factor Runx1 is essential for definitive haematopoiesis, and the RUNX1 gene is frequently translocated or mutated in leukaemia. Runx1 is transcribed from two promoters, P1 and P2, to give rise to different protein isoforms. Although the expression of Runx1 must be tightly regulated for normal blood development, the mechanisms that regulate Runx1 isoform expression during haematopoiesis remain poorly understood. Gene regulatory elements located in non-coding DNA are likely to be important for Runx1 transcription. Here we use circular chromosome conformation capture sequencing to identify DNA interactions with the P1 and P2 promoters of Runx1, and the previously identified +24 enhancer, in the mouse multipotent haematopoietic progenitor cell line HPC-7. The active promoter, P1, interacts with nine non-coding regions that are occupied by transcription factors within a 1 Mb topologically associated domain. Eight of nine regions function as blood-specific enhancers in zebrafish, of which two were previously shown to harbour blood-specific enhancer activity in mice. Interestingly, the +24 enhancer interacted with multiple distant regions on chromosome 16, suggesting it may regulate the expression of additional genes. The Runx1 DNA contact map identifies connections with multiple novel and known haematopoietic enhancers that are likely to be involved in regulating Runx1 expression in haematopoietic progenitor cells.
Highlights
Runx[1] is transcribed from two promoters, P1 and P2, to give rise to different protein isoforms[6]
HPC-7 is a well characterised mouse haematopoietic stem/progenitor cell (HSPC) line with genomic annotations, including transcription factor (TF) binding, histone modifications and chromatin accessibility18–20. 4C-seq in HPC-7 cells identified nine haematopoietic enhancers that interact with the P1 promoter and +24 enhancer, and that are occupied by haematopoietic TFs
We first confirmed that P1 is actively expressed in HPC-7 cells, while P2 is silent (Supplementary Fig. S1). 4C-seq in HPC-7 cells using the P1 and P2 promoters and the +24 enhancer as ‘baits’ identified genomic interactions at Runx[1] (Fig. 1a)
Summary
Runx[1] is transcribed from two promoters, P1 and P2, to give rise to different protein isoforms[6]. P1 expression is predominant in the mouse fetal liver, the main site of definitive haematopoietic stem/progenitor cell (HSPC) development from E12.5 onward[9]. Regulatory elements, such as enhancers, can control the expression of genes via long-range chromatin interactions[10]. 4C-seq in HPC-7 cells identified nine haematopoietic enhancers that interact with the P1 promoter and +24 enhancer, and that are occupied by haematopoietic TFs. HPC-7 is a well characterised mouse HSPC line with genomic annotations, including transcription factor (TF) binding, histone modifications and chromatin accessibility. Our results point to the formation of a local ‘active chromatin hub’ controlling Runx[1] expression in haematopoietic cells
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