Only the DNA binding and transactivation domains of c-Myb are required to block terminal differentiation of murine erythroleukemia cells.

The c-Myb protein is a transcription factor with an apparent but poorly defined role in hematopoietic cell growth and differentiation. The DNA binding and several transcriptional regulatory domains of the c-Myb protein have been defined by transient transfections into nonhematopoietic cell lines. Although the relationship between these domains and transformation has been studied, little is known about the function of these domains during hematopoietic maturation. Up-regulation of stably transfected c-myb in murine erythroleukemia (MEL) cells blocks terminal differentiation when MEL cells are induced to differentiate with N,N'-hexamethylene bisacetamide. To determine which functional domains of c-Myb are necessary and sufficient to block differentiation, mutated c-myb constructs under the control of a murine metallothionein promoter were transfected into C19 MEL cells, and stable clonal cell lines were established. The ability of Myb mutants to block differentiation paralleled their ability to transactivate transcription of a reporter gene containing Myb-responsive elements, by transient transfection into a lymphoid cell line. The smallest c-Myb mutant able to block differentiation consisted of the DNA binding domain juxtaposed to the transactivation domain. Therefore, the DNA binding domain and the transactivation domain are necessary and sufficient for c-Myb to block differentiation in MEL cells.