We herein report that TIS21(/BTG2/Pc3) downregulates diaphanous-related formin (DRF) expression via reducing NADPH oxidase 4 (Nox4)-derived ROS generation by Akt1 activation and subsequently impairs invasion activity of the highly invasive breast cancer cells.
Overexpressed BTG2 could inhibit cell proliferation, migration and invasion of human ccRCC, and the suppressive effects might be due to down-regulation of MMP-9, Cyclin D1 and Cyclin E expression.
These results demonstrate an important role for the BTG2(/TIS21/PC3) gene in the progression of bladder cancers, and suggest that BTG2(/TIS21/PC3) is a promising epigenetic target for prevention of muscle invasion in human bladder cancers.
Stable overexpression of PDEF significantly induced BTG2, NDRG1 and Maspin gene expression, which markedly attenuated in vitro cell proliferation and invasion of LNCaP cells.
The cell invasion assay results suggested that the invasion rate of the pcDNA3.1-BTG2-transfected A549 cells was significantly slower than the invasion rate of the empty vector-transfected group and the mock-transfected group (P < 0.05).
In human breast cancer, decreased BTG2 expression correlates with high tumor grade and size, p53 status, blood and lymph vessel invasion, local and metastatic recurrence and decrease in overall survival, suggesting that suppression of BTG2 has a critical role in disease progression.