We have attempted to find appropriate molecular targets for OSCC and identified cell division cycle associated 5 (CDCA5) as a cancer-related gene which was overexpressed in all the human OSCC cells tested by microarray analysis.
Taken together, these results suggest that p35 is at least one of the activators of CDK5 that is mobilized in the process of cellular senescence, which may provide insight into cancer cell proliferation and future cancer therapeutics.
Our data suggest that transactivation of CDCA5 and its phosphorylation at Ser209 by ERK play an important role in lung cancer proliferation, and that the selective suppression of the ERK-CDCA5 pathway could be a promising strategy for cancer therapy.
In contrast to the recently proposed opposing roles of IL-12 and IL-23 for cancer growth and progression in rodents, our data from a large patient cohort rather suggest that high intra-tumoral expression levels of p35 mRNA and p19 mRNA are associated with a superior clinical outcome.