Hypoxia-inducible factors (HIFs) activate transcription of target genes by recruiting coactivators and chromatin-modifying enzymes. Peptidylarginine deiminase 4 (PADI4) catalyzes the deimination of histone arginine residues to citrulline. Here, we demonstrate that PADI4 expression is induced by hypoxia in a HIF-dependent manner in breast cancer and hepatocellular carcinoma cells. PADI4, in turn, is recruited by HIFs to hypoxia response elements (HREs) and is required for HIF target gene transcription. Hypoxia induces histone citrullination at HREs that is PADI4 and HIF dependent. RNA sequencing revealed that almost all HIF target genes in breast cancer cells are PADI4 dependent. PADI4 is required for breast and liver tumor growth and angiogenesis in mice. PADI4 expression is correlated with HIF-1α expression and vascularization in human breast cancer biopsies. Thus, HIF-dependent recruitment of PADI4 to target genes and local histone citrullination are required for transcriptional responses to hypoxia.
Gene regulatory networks (GRNs), consisting of transcription factors and their target cis-regulatory sequences, control neurogenesis and cell fate specification in the developing central nervous system, but their organization is poorly characterized. In this study, we performed integrated scRNA-seq and scATAC-seq analysis from both mouse and human retina to profile dynamic changes in gene expression, chromatin accessibility and transcription factor footprinting during retinal neurogenesis. We identified multiple interconnected, evolutionarily-conserved GRNs consisting of cell type-specific transcription factors that both activate expression of genes within their own network and often inhibit expression of genes in other networks. These GRNs control state transitions within primary retinal progenitors that underlie temporal patterning, regulate the transition from primary to neurogenic progenitors, and drive specification of each major retinal cell type. We confirmed the prediction of this analysis that the NFI transcription factors Nfia, Nfib, and Nfix selectively activate expression of genes that promote late-stage temporal identity in primary retinal progenitors. We also used GRNs to identify additional transcription factors that selectively promote (Insm1/2) and inhibit (Tbx3, Tcf7l1/2) rod photoreceptor specification in postnatal retina. This study provides an inventory of cis- and trans-acting factors that control retinal development, identifies transcription factors that control the temporal identity of retinal progenitors and cell fate specification, and will potentially help guide cell-based therapies aimed at replacing retinal neurons lost due to disease.
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