Abstract
In the development of targeted oncology drugs, it is important to assess drug effectiveness in individual patients. We evaluated the possibility of reproducing in an ex-vivo system the biological effects observed in vitro and in vivo by the combined administration of two chemotherapeutic drugs, gemcitabine and a small inhibitor of Wee1. We found that modulation of both CDC2 phosphorylation and of a previously-identified gene signature was detectable in human skin equivalents obtained with primary keratinocytes from three individuals. Therefore, we suggest that human skin equivalents could represent a promising tool for the identification and validation of novel pharmacodynamic biomarkers.