Activity regulation of a Hox protein and a role for the homeodomain in inhibiting transcriptional activation.

Abstract

Hox proteins are transcription factors that assign positional identities along the body axis of animal embryos. Different Hox proteins have similar DNA-binding functions in vitro and require cofactors to achieve their biological functions. Cofactors can function by enhancement of the DNA-binding specificity of Hox proteins, as has been shown for Extradenticle (Exd). We present results supporting a novel mechanism for Hox cofactor function: regulation of transcriptional activation function. First, we provide evidence that the Hox protein Deformed (Dfd) can interact with simple DNA-binding sites in Drosophila embryos in the absence of Exd, but this binding is not sufficient for transcriptional activation of reporter genes. Secondly, either Dfd or a Dfd-VP16 hybrid mediate much stronger activation in embryos on a Dfd-Exd composite site than on a simple Dfd-binding site, even though the two sites possess similar Dfd-binding affinities. This suggests that Exd is required to release the transcriptional activation function of Dfd independently of Exd enhancement of Dfd-binding affinity on the composite site. Thirdly, transfection assays confirmed that Dfd possesses an activation domain, which is suppressed in a manner dependent on the presence of the homeodomain. The regulation of Hox transcriptional activation functions may underlie the different functional specificities of proteins belonging to this developmental patterning family.