Core-binding factor leukemia hijacks the T-cell-prone PU.1 antisense promoter.
Emiel van der KouweG HellerA CzibereJohn Anto PulikkanC AgreiterLucio H CastillaR DelwelAnnalisa Di RuscioA K EbralidzeM ForteFlorian GrebienE HeyesL KaziankaJ KlingerChristoph KornauthT LeK LindInês A M BarbosaTea PemovskaA PichlerA-S SchmolkeC M SchweickerH SillW R SperrA SpittlerS SurapallyB Q TrinhPeter ValentK VanuraR S WelnerJohannes ZuberD G TenenPhilipp Bernhard StaberPublished in: Blood (2021)
The blood system serves as a key model for cell differentiation and cancer. It is orchestrated by precise spatiotemporal expression of crucial transcription factors. One of the key master regulators in the hematopoietic systems is PU.1. Reduced levels of PU.1 are characteristic for human acute myeloid leukemia (AML) and are known to induce AML in mouse models. Here, we show that transcriptional downregulation of PU.1 is an active process involving an alternative promoter in intron 3 that is induced by RUNX transcription factors driving noncoding antisense transcription. Core-binding factor (CBF) fusions RUNX1-ETO and CBFβ-MYH11 in t(8;21) and inv(16) AML, respectively, activate the PU.1 antisense promoter that results in a shift from sense toward antisense transcription and myeloid differentiation blockade. In patients with CBF-AML, we found that an elevated antisense/sense transcript and promoter accessibility ratio represents a hallmark compared with normal karyotype AML or healthy CD34+ cells. Competitive interaction of an enhancer with the proximal or the antisense promoter forms a binary on/off switch for either myeloid or T-cell development. Leukemic CBF fusions thus use a physiological mechanism used by T cells to decrease sense transcription. Our study is the first example of a sense/antisense promoter competition as a crucial functional switch for gene expression perturbation by oncogenes. Hence, this disease mechanism reveals a previously unknown Achilles heel for future precise therapeutic targeting of oncogene-induced chromatin remodeling.
Keyphrases
- transcription factor
- acute myeloid leukemia
- dna binding
- gene expression
- nucleic acid
- allogeneic hematopoietic stem cell transplantation
- dna methylation
- genome wide identification
- endothelial cells
- bone marrow
- binding protein
- high glucose
- induced apoptosis
- heart failure
- squamous cell carcinoma
- signaling pathway
- cancer therapy
- current status
- papillary thyroid
- single cell
- hypertrophic cardiomyopathy
- nk cells
- induced pluripotent stem cells