12 research outputs found
Expression of 67 kDa laminin receptor in human breast cancer cells : regulation by progestins
The level of 67 kDa laminin receptor (67LR) expression on breast and colon tumor cell surfaces was previously shown to be correlated with the capacity of tumor cells to metastasize. In the present work we investigate the effects of progestins and estrogen on the expression of 67LR in two sublines of the T47D human breast cancer cells: weakly tumorigenic, poorly invasive parental T47D cells and a highly tumorigenic, more invasive T47Dco subclone. Inmmunoblotting with an affinity purified antibody directed against a synthetic peptide recognizes the 67LR in these cells. 67LR expression in the T47Dco subclone is 5,5-fold higher than in their parental T47D cells. Treatment of T47D cells with 1 nM of the synthetic progestin R5020 results in a 4-fold increase in 67LR protein expression. Estrogen also induced 67LR expression, but only by 1.5-fold. The progestin-stimulated expression of the 67LR correlates with a 4.3-fold increase in attachment of T47D cells to laminin. A monoclonal antibody, mAb 13, directed against β1 integrin, completely blocks the attachment of T47D cells to fibronectin, only partially inhibits the attachment of T47D cells to laminin, and appears not to affect the progestin-stimulated laminin attachment of T47D cells. A new antiprogestin, ZK 112.993, significantly inhibits both progestin-stimulated 67LR expression and the increased attachment to laminin. These results suggest a possible role for progestin in mediating one of the multiple events thought to be important in metastasis of steroid receptor positive human breast cancer cells
CUE domain containing 2 regulates degradation of progesterone receptor by ubiquitin–proteasome
Accumulated evidence indicates that progesterone receptors (PR) are involved in proliferation of breast cancer cells and are implicated in the development of breast cancer. In this paper, a yeast two-hybrid screen for PR led to the identification of CUE domain containing 2 (CUEDC2), whose function is unknown. Our results demonstrate that CUEDC2 interacts with PR and promotes progesterone-induced PR degradation by the ubiquitin–proteasome pathway. The inhibition of endogenous CUEDC2 by siRNA nearly abrogated the progesterone-induced degradation of PR, suggesting that CUEDC2 is involved in progesterone-induced PR ubiquitination and degradation. Moreover, we identify the sumoylation site Lys-388 of PR as the target of CUEDC2-promoted ubiquitination. CUEDC2 decreases the sumoylation while promoting ubiquitination on Lys-388 of PRB. We also show that CUEDC2 represses PR transactivation, inhibits the ability of PR to stimulate rapid MAPK activity, and impairs the effect of progesterone on breast cancer cell growth. Therefore, our results identify a key post-translational mechanism that controls PR protein levels and for the first time provide an important insight into the function of CUEDC2 in breast cancer proliferation