Abstract
Geranylgeranylation signaling plays an important role in cancer cell proliferation. Our previous studies have shown that the YAP is one of the geranylgeranylation signal transducers in breast cancer cells (Mi W, et al., Oncogene. 2015; 34(24): 3095-3106). However, the downstream effectors that mediate the promoting effect of the geranylgeranylation/YAP signal axis on breast cancer cell proliferation remain elusive. In this report, we investigated the pathway that mediates the effect of the geranylgeranylation on breast cancer cell proliferation. The results have shown that inhibition of geranylgeranyl biosynthesis inactivates transcription of a set of kinetochore/centromere genes. Further biochemical and cell biological studies demonstrated that inhibition of geranylgeranyl biosynthesis significantly reduced the level of key kinetochore/centromere proteins, thus caused a defect in mitosis. Knockdown of YAP caused similar inhibitory effects on the kinetochore/centromere gene expression and mitosis to that of inhibition of geranylgeranyl biosynthesis. Furthermore, we found that E2F1, the gene coding for E2F1 that is known to activate expression of cell cycle genes, is a target gene of YAP. Knockdown of E2F1 also reduced expression of the kinetochore/centromere genes, suggesting that the activation effect of YAP on expression of the kinetochore/centromere genes may be mediated by E2F1. Our studies have proposed a novel geranylgeranylation-dependent cancer cell proliferation signaling pathway in which geranylgeranylation signaling promotes cancer cell mitosis via the YAP-activated transcription of kinetochore/centromere genes.