HIF-1 directly induces TET3 expression to enhance 5-hmC density and induce erythroid gene expression in hypoxia

John Z. Cao, Hui Liu, Amittha Wickrema, Lucy A. Godley

Research output: Contribution to journalArticlepeer-review

16 Scopus citations

Abstract

In mammalian cells, cytosines found within cytosine guanine dinucleotides can be methylated to 5-methylcytosine (5-mC) by DNA methyltransferases and further oxidized by the Ten-eleven translocation dioxygenase (TET) enzymes to 5-hydroxymethylcytosine (5-hmC). We have previously shown that hematopoietic stem and progenitor cells (HSPCs) with TET2 mutations have aberrant 5-hmC distribution and less erythroid differentiation potential. However, these experiments were performed under standard tissue culture conditions with 21% oxygen (O2), whereas HSPCs in human bone marrow reside in ;1% O2. Therefore, to model human erythropoiesis more accurately, we compared 5-hmC distribution and gene expression in hypoxic vs normoxic conditions. Despite TET enzymes having limited O2 as a substrate in hypoxia, 5-hmC peaks were more numerous and pronounced than in normoxia. Among the TET genes, TET3 was upregulated specifically in hypoxia. We identified 2 HIF-1 binding sites in TET3 by chromatin immunoprecipitation of HIF-1a followed by sequencing, and TET3 upregulation was abrogated with deletion of both sites, indicating that TET3 is a direct HIF-1 target. Finally, we showed that loss of one or both of these HIF-1 binding sites in K562 cells disrupted erythroid differentiation in hypoxia and lowered cell viability. This work provides a molecular link between O2 availability, epigenetic modification of chromatin, and erythroid differentiation.

Original languageEnglish (US)
Pages (from-to)3053-3062
Number of pages10
JournalBlood Advances
Volume4
Issue number13
DOIs
StatePublished - Jul 14 2020

Funding

This work was supported by an EvansMDS grant from the Edward P. Evans Foundation (A.W. and L.A.G.). J.Z.C. was supported by funding from the University of Chicago Biological Sciences Division Dean’s Office, the University of Chicago Comprehensive Cancer Center Women’s Board, and the Goldblatt Scholarship.

Keywords

  • Hypoxia increases expression of tet3 via an enhancer located in intron 2
  • Key points
  • Loss of hif-1a-binding sites in intron 2 of tet3 leads to decreased erythroid differentiation and loss of viability under hypoxia
  • Which is required for hypoxia-mediated upregulation of tet3.

ASJC Scopus subject areas

  • Hematology

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