TY - JOUR T1 - Cell Cycle Perturbation and Acquired 5-Fluorouracil Chemoresistance JF - Anticancer Research JO - Anticancer Res SP - 9 LP - 14 VL - 28 IS - 1A AU - XIAOXIA GUO AU - ELISABETH GOESSL AU - GANG JIN AU - ELAINA S.R. COLLIE-DUGUID AU - JAMES CASSIDY AU - WEIGUANG WANG AU - VINCENT O'BRIEN Y1 - 2008/01/01 UR - http://ar.iiarjournals.org/content/28/1A/9.abstract N2 - Acquired chemoresistance is one of the obstacles for success of 5-fluorouracil (5-FU)-based cancer chemotherapy. Some molecular mechanisms of acquired 5-FU resistance are still unknown. We have recently demonstrated down-regulation of a group of cell cycle related genes in acquired 5-FU resistant human cancer cell lines. In this study, the bivariate distribution of propidium iodide versus BrdU in acquired 5-FU resistant colon (H630R10) and breast (T47DFU2.5) cancer cell lines was compared with their parental cell lines using flow cytometric analysis. The resistant cell lines showed significantly lower labelling index (T47DFU2.5) and cell cycle delay in G1 and G1/S boundary and prolonged DNA synthesis time (H630R10). Both resistant cell lines demonstrated significantly prolonged potential doubling time (Tpot). The protein expression levels of some G1 and S phase transition-related genes were also analysed by Western blot. CDK2 protein and Thr-160 phosphorylated CDK2 were remarkably reduced in the resistant cell lines. Cyclin D3 and cyclin A were also decreased in the resistant cells. Total pRB expression was unaltered but hypophosphorylation of pRB (Ser780, Ser795 and Ser807/811) was detected in the resistant cancer cells. Our data suggest that there may be a slow down in cell cycle traverse preventing incorporation of 5-FU metabolites into DNA and also providing cancer cells with sufficient time to correct the mis-incorporated nucleotides. The cell cycle perturbation may be involved in acquired 5-FU resistance. ER -