RESUMO
A previous study demonstrated that the progesteroneinducible HAND2 gene product is a basic helixloophelix transcription factor and prevents mitogenic effects of estrogen receptor α (ERα) by inhibiting fibroblast growth factor signalling in mouse uteri. However, whether HAND2 directly affects the transcriptional activation function of ERα remains to be elucidated. In the present study, the physical interaction between HAND2 and ERα was investigating by performing an immunoprecipitation assay and an in vitro pulldown assay. The results demonstrated that HAND2 and ERα interacted in a ligandindependent manner. The in vitro pulldown assays revealed a direct interaction between HAND2 and the aminoterminus of ERα, termed the activation function1 domain. To determine the physiological significance of this interaction, the role of HAND2 as a cofactor of ERα was investigated, which revealed that HAND2 inhibited the liganddependent transcriptional activation function of ERα. This result was further confirmed and the mRNA expression of vascular endothelial growth factor, an ERαdownstream factor, was decreased by the overexpression of HAND2. This inhibition of liganddependent transcriptional activation function of ERα was possibly attributed to the proteasomic degradation of ERα by HAND2. These results indicate a novel antitumorigenic function of HAND2 in regulating ERαdependent gene expression. Considering that HAND2 is commonly hypermethylated and silenced in endometrial cancer, it is hypothesized that HAND2 may serve as a possible tumor suppressor, particularly in uterine tissue.