Altered retinoic acid sensitivity and temporal expression of Hox genes in polycomb-M33-deficient mice.

The Polycomb group genes are required for the correct expression of the homeotic complex genes and segment specification during Drosophila embryogenesis and larval development. In mouse, inactivation studies of several Polycomb group genes indicate that they are also involved in Hox gene regulation. We have used our previously generated M33 mutants to study the function of M33, the mouse homologue of the Polycomb gene of Drosophila. In this paper, we show that in the absence of M33, the window of Hoxd4 retinoic acid (RA) responsiveness is opened earlier and that Hoxd11 gene expression is activated earlier in development This indicates that M33 antagonizes the RA pathway and has a function in the establishment of the early temporal sequence of activation of Hox genes. Despite the early activation, A-P boundaries are correct in later stages, indicating a separate control mechanism for early aspects of Hox regulation. This raises a number of interesting issues with respect to the roles of both Pc-G proteins and Hox regulatory mechanisms. We propose that a function of the M33 protein is to control the accessibility of retinoic acid response elements in the vicinity of Hox genes regulatory regions by direct or indirect mechanisms or both. This could provide a means for preventing ectopic transactivation early in development and be part of the molecular basis for temporal colinearity of Hox gene expression.