Cell cycle regulation of the G0/G1 transition in 5-fluorouracil-sensitive and -resistant human colon cancer cell lines.

PURPOSE: Resistance to 5-fluorouracil (5-FU) has been associated with thymidylate synthase (TS) gene amplification and increased TS protein levels. Increased TS protein expression has also been found to be a significant independent prognostic factor for disease-free survival and overall survival in patients treated with adjuvant 5-FU-based chemotherapy. In these studies and in our prior preclinical studies, TS has been considered a marker of proliferative capacity. The purpose of the current study was to further evaluate the association between TS levels and cell cycle regulation, by investigating cell cycle kinetics in a 5-FU-resistant cell line with constitutive overexpression of TS. The influence of increased TS levels on cell cycle progression may provide insight into methods to overcome 5-FU resistance. MATERIALS: 5-FU-sensitive NCI H630(WT) and 5-FU-resistant NCI H630(R1) (with 15- to 20-fold higher TS protein levels) were utilized in this investigation to determine the influence of constitutive overexpression of TS on cell cycle kinetics. RESULTS: There was no apparent influence of increased TS levels on cell cycle distribution during asynchronous growth, and both cell lines reach plateau growth phase in 120 hours, arresting in G0/G1 as determined by flow cytometry. In the H630(WT) cells, this G0/ G1 arrest was associated with a 14- to 17-fold reduction in TS activity and protein levels (using the TS-106 monoclonal antibody), whereas in the H630(R1) cells, only a two- to fivefold reduction was noted. Flow cytometry analysis utilizing Ki-67 indicated that there was no evidence of a G0 population in the confluent H630(R1), whereas 26% +/- 7% of confluent H630(WT) cells were Ki-67 negative (G0) and the remainder had low Ki-67 signal intensity. Analysis of pRb phosphorylation and p16 and p21 expression suggested that the arrest point for both cell lines was before the point at which Rb phosphorylation takes place, yet the confluent H630(R1) cells had threefold higher p21 than confluent H630(WT) cells. DISCUSSION: These data suggest that the 5-FU-resistant H630(R1) cell lines arrest at a later point in G0/G1 and have a potentially greater capacity for proliferation.

Dose intensification in curative head and neck cancer radiotherapy--linear quadratic analysis and preliminary assessment of clinical results.

PURPOSE: The feasibility of reducing overall treatment time by 2 weeks in the curative radiotherapeutic management of head and neck cancer patients is reported in a pilot trial of Hyperfractionated, Accelerated Radiotherapy with Dose Escalation (HARDE). This regimen prescribes 76 Gy in 5 weeks to definitive head and neck cancer patients, and 65 Gy in 5 weeks to high-risk postoperative patients. The linear quadratic model is used to compare predicted tumor cell kill with HARDE versus that expected with conventional fractionation (CF). MATERIALS AND METHODS: Between January 1991 and March 1992, 40 head and neck cancer patients were treated with HARDE at the University of Wisconsin Comprehensive Cancer Center. Case-matched controls treated with CF were identified from patients treated at the same institution between 1980-1990, based on tumor site, stage, and extent of prior surgery. Individual patient treatment data (total dose, fraction size, overall time) rather than idealized schedule data from each group were analyzed using the linear quadratic model. RESULTS: Seventy-nine case-matched controls were identified for comparison with HARDE patients. The predicted increase in log cell kill for HARDE patients over case-matched controls was 1.5 and 1.3 logs, respectively, in the definitive and postoperative settings. This difference in log cell kill projects an improvement in locoregional tumor control for HARDE patients of between 10-25%. HARDE patients experience very brisk acute mucosal reactions and moderately prolonged mucosal healing, however, 91% have completed therapy without a treatment break. CONCLUSION: A 2-week reduction in overall treatment time for curative head and neck cancer patients is feasible while maintaining doses > 70 Gy. Based on radiobiologic predictions, such treatment intensification may significantly improve rates of locoregional tumor control. However, intensified acute mucosal reactions accompany such accelerated therapy.