The role of fludarabine-induced apoptosis and cell cycle synchronization in enhanced murine tumor radiation response in vivo.
Cancer Res
; 54(23): 6201-9, 1994 Dec 01.
Article
en En
| MEDLINE
| ID: mdl-7954467
We have previously reported that fludarabine, an adenine nucleoside analogue, significantly enhances radiation-induced tumor regrowth delay and local cure in several mouse tumors. Although fludarabine potentiated tumor regrowth delay at various times from -36 h to +6 h in a SA-NH mouse sarcoma model, the greatest enhancement was observed when fludarabine was administered 24 h before irradiation. The purpose of this study was to understand the basis for in vivo enhancement of radiation efficacy by fludarabine. To examine the effect of fludarabine on DNA synthesis and cell cycle progression, tumor-bearing mice were given fludarabine by an i.p. route and then bromodeoxyuridine at various times up to 36 h, followed 0.5 h later by tumor harvest. Two-parameter flow cytometry analysis of the tumor cells using an anti-bromodeoxyuridine antibody demonstrated that an 800-mg/kg fludarabine dose stops DNA synthesis within 3 h with recovery starting at 12 h. By 24 h after fludarabine treatment, a synchronized wave of cycling tumor cells appeared in G2-M phase. The degree of DNA synthesis shutdown and the timing of the reinitiation of DNA synthesis and cell cycle progression were all fludarabine dose dependent. Interestingly, DNA synthesis reinitiated only at the G1-S boundary; cells in the S phase at the time of fludarabine administration appeared to disappear from the tumor population. To confirm these observations more directly, we pretreated tumor-bearing mice i.p. with chlorodeoxyuridine to mark the cells in the S phase, gave them fludarabine 0.5 h later, and then gave them iododeoxyuridine 0.5 h before tumor harvest. Flow cytometry analysis using antibodies specific for chlorodeoxyuridine- and iododeoxyuridined-labeled cells confirmed that cells in the S phase at the time of fludarabine administration never reinitiated DNA synthesis and disappeared from the tumor population. Immunohistological analysis of tumor sections obtained after fludarabine administration demonstrated that prelabeled S-phase cells took on an apoptotic appearance and gradually disappeared from the tumors. An in situ DNA end labeling assay demonstrated DNA fragmentation in these morphologically apoptotic cells. These results suggest that the mechanism of fludarabine enhancement of radiation response involves induced S-phase cell loss through an apoptotic pathway and subsequent synchronization of the remaining cells to a more radiosensitive cell cycle phase at the time of irradiation.
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Banco de datos:
MEDLINE
Asunto principal:
Tolerancia a Radiación
/
Vidarabina
/
Apoptosis
/
Neoplasias Experimentales
/
Antineoplásicos
Límite:
Animals
Idioma:
En
Año:
1994
Tipo del documento:
Article