Inducible disruption of Tet genes results in myeloid malignancy, readthrough transcription, and a heterochromatin-to-euchromatin switch [Ribodepleted RNA-seq]
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ABSTRACT: The three mammalian TET dioxygenases oxidize the methyl group of 5-methylcytosine (5mC) in DNA, and the oxidised methylcytosines are essential intermediates in all known pathways of DNA demethylation. To define the in vivo consequences of complete TET deficiency, we inducibly deleted all three Tet genes in the mouse genome. Tet1/2/3 inducible TKO (iTKO) mice succumbed to acute myeloid leukaemia by 4-5 weeks. Single-cell RNA sequencing of Tet iTKO bone marrow cells revealed the appearance of new myeloid cell populations characterised by a striking increase in expression of all members of the stefin/cystatin gene cluster on mouse chromosome 16. In patients with acute myeloid leukaemia, high stefin/cystatin gene expression correlates with poor clinical outcomes. Increased expression of the clustered stefin/cystatin genes was associated with a heterochromatin-to-euchromatin compartment switch with readthrough transcription downstream of the clustered stefin/cystatin genes as well as other highly expressed genes but only minor changes in DNA methylation. Our data highlight new roles for TET enzymes that are distinct from their established function in DNA demethylation, and instead involve increased transcriptional readthrough and changes in three-dimensional genome organisation.
ORGANISM(S): Mus musculus
PROVIDER: GSE222721 | GEO | 2023/04/18
REPOSITORIES: GEO
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