Antagonism of B cell enhancer networks by STAT5 drives leukemia and poor patient survival.
Casey D S KaterndahlLynn M Heltemes-HarrisMark J L WilletteChristine M HenzlerSeth FrietzeRendong YangHilde SchjervenKevin A T SilversteinLaura B RamseyGregory HubbardAndrew D WellsRoland P KuiperBlanca ScheijenFrank N van LeeuwenMarkus MüschenSteven M KornblauMichael A FarrarPublished in: Nature immunology (2017)
The transcription factor STAT5 has a critical role in B cell acute lymphoblastic leukemia (B-ALL). How STAT5 mediates this effect is unclear. Here we found that activation of STAT5 worked together with defects in signaling components of the precursor to the B cell antigen receptor (pre-BCR), including defects in BLNK, BTK, PKCβ, NF-κB1 and IKAROS, to initiate B-ALL. STAT5 antagonized the transcription factors NF-κB and IKAROS by opposing regulation of shared target genes. Super-enhancers showed enrichment for STAT5 binding and were associated with an opposing network of transcription factors, including PAX5, EBF1, PU.1, IRF4 and IKAROS. Patients with a high ratio of active STAT5 to NF-κB or IKAROS had more-aggressive disease. Our studies indicate that an imbalance of two opposing transcriptional programs drives B-ALL and suggest that restoring the balance of these pathways might inhibit B-ALL.
Keyphrases
- transcription factor
- cell proliferation
- acute lymphoblastic leukemia
- signaling pathway
- lps induced
- dna binding
- oxidative stress
- public health
- genome wide identification
- genome wide
- dendritic cells
- tyrosine kinase
- immune response
- bone marrow
- allogeneic hematopoietic stem cell transplantation
- case report
- inflammatory response
- heat shock protein
- heat shock