Specific homeodomain-DNA interactions are required for HOX11-mediated transformation.

HOX11 encodes a homeodomain protein that is aberrantly expressed in T-cell acute lymphoblastic leukemia as a consequence of the t(10;14) and t(7;10) chromosomal translocations. We previously reported that HOX11 immortalizes murine hematopoietic progenitors and induces pre-T-cell tumors in mice after long latency. It has been demonstrated in a number of studies that HOX11, similar to other homeodomain proteins, binds DNA and transactivates transcription. These findings suggest that translocation-activated HOX11 functions as an oncogenic transcription factor. Here we report that HOX11 represses transcription through both TATA-containing and TATA-less promoters. Interestingly, transcriptional repression by HOX11 is independent of its DNA binding capability. Moreover, a systematic mutational analysis indicated that repressor activity was separable from immortalizing function, which requires certain residues within the HOX11 homeodomain that make base-specific or phosphate-backbone contacts with DNA. We further showed that the pathologic action of HOX11 involves DNA binding-dependent transcriptional pathways that are distinct from those controlling expression of a chromosomal target gene (Aldh-1). We conclude that dysregulated expression of a particular set of downstream target genes by DNA binding via the homeodomain is of central importance for leukemia initiation mediated by HOX11.