All-trans-retinoic acid-mediated growth inhibition involves inhibition of human kinesin-related protein HsEg5.

In this study we used differential display reverse transcription-polymerase chain reaction to search for differentially expressed all-trans-retinoic acid (ATRA)-responsive genes in pancreatic carcinoma cells. We identified the kinesin-related protein HsEg5, which plays an essential role in spindle assembly and spindle function during mitosis, as a novel molecule involved in ATRA-mediated growth inhibition. Using Northern and Western blot analysis we demonstrated that ATRA significantly inhibits HsEg5 expression in various pancreatic carcinoma cell lines as well as in HaCat keratinocytes. Inhibition of HsEg5 expression by ATRA occurs at the posttranscriptional level. As a consequence, tumor cells synchronized in S-phase revealed a retarded progression through G2/M phase of the cell cycle indicating that HsEg5 inhibition results in a delayed progression through mitosis. Furthermore, a significant decrease of HsEg5 protein expression achieved by antisense transfection revealed a significant growth inhibition compared with control cells. Therefore, HsEg5 represents a novel molecule involved in ATRA-mediated growth inhibition, suggesting that vitamin A derivatives can interact with the bipolar spindle apparatus during mitosis.