PURPOSE: Preclinical studies have demonstrated differences in potency, solubility, and tumor specific activity among the camptothecin (CPT) analogues. 9-Aminocamptothecin (9-AC) has demonstrated greater potency in animal studies than other clinically available Topoisomerase I (Topo I) inhibitors. We sought to determine: (a) if 9-AC enhanced the lethal effects of ionizing radiation to a greater extent than other Topo I inhibitors; and (b) the biological and biochemical characteristics of the enhancement. METHODS AND MATERIALS: Quiescent radioresistant human melanoma (U1-Mel) cells were x-irradiated (1-7 Gy) and exposed to various concentrations of 9-AC (0.1-100 microM), either before (for 4 h), during, or after (for 4 h) irradiation. Survival was determined via colony forming assays and normalized to correct for drug cytotoxicity. The effect of 9-AC on radiation-related potential lethal damage repair PLDR) (PLDR) was also measured. A modification of the SDS-KCl assay was used to quantify DNA-Topo I complexes. RESULTS: Enhancement of radiation lethality was observed using confluent U1-Mel cells. The sensitizer enhancement ratio (SER) after a 4 h postirradiation exposure of 10 microM 9-AC was 2.5 at 10% survival. Toxicity from the drug alone was greater than topotecan (TPT), but less than CPT. The radiation synergy effect was: (a) dependent on drug concentration (> or = 2 microM); (b) dependent on timing, with enhancement present only when the drug was present at the time of, or shortly after, radiation; and (c) irreversible, with inhibition of PLDR. Exposure to 9-AC during or after irradiation substantially elevated the number of DNA-Topo I complexes (four- to tenfold) over control levels and correlated with enhanced loss of survival. CONCLUSION: 9-Aminocamptothecin enhanced radiation lethality in vitro at low drug concentrations with characteristics similar to other Topo I inhibitors. A greater SER, but greater lethality with the drug alone, was obtained in comparison to TPT. The clinical implications of these findings remain unexplored.
PURPOSE: Preclinical studies have demonstrated differences in potency, solubility, and tumor specific activity among the camptothecin (CPT) analogues. 9-Aminocamptothecin (9-AC) has demonstrated greater potency in animal studies than other clinically available Topoisomerase I (Topo I) inhibitors. We sought to determine: (a) if 9-AC enhanced the lethal effects of ionizing radiation to a greater extent than other Topo I inhibitors; and (b) the biological and biochemical characteristics of the enhancement. METHODS AND MATERIALS: Quiescent radioresistant humanmelanoma (U1-Mel) cells were x-irradiated (1-7 Gy) and exposed to various concentrations of 9-AC (0.1-100 microM), either before (for 4 h), during, or after (for 4 h) irradiation. Survival was determined via colony forming assays and normalized to correct for drug cytotoxicity. The effect of 9-AC on radiation-related potential lethal damage repair PLDR) (PLDR) was also measured. A modification of the SDS-KCl assay was used to quantify DNA-Topo I complexes. RESULTS: Enhancement of radiation lethality was observed using confluent U1-Mel cells. The sensitizer enhancement ratio (SER) after a 4 h postirradiation exposure of 10 microM 9-AC was 2.5 at 10% survival. Toxicity from the drug alone was greater than topotecan (TPT), but less than CPT. The radiation synergy effect was: (a) dependent on drug concentration (> or = 2 microM); (b) dependent on timing, with enhancement present only when the drug was present at the time of, or shortly after, radiation; and (c) irreversible, with inhibition of PLDR. Exposure to 9-AC during or after irradiation substantially elevated the number of DNA-Topo I complexes (four- to tenfold) over control levels and correlated with enhanced loss of survival. CONCLUSION:9-Aminocamptothecin enhanced radiation lethality in vitro at low drug concentrations with characteristics similar to other Topo I inhibitors. A greater SER, but greater lethality with the drug alone, was obtained in comparison to TPT. The clinical implications of these findings remain unexplored.
Authors: Mara Gladstone; Barbara Frederick; Di Zheng; Anthony Edwards; Petros Yoon; Stefanie Stickel; Tessie DeLaney; Daniel C Chan; David Raben; Tin Tin Su Journal: Dis Model Mech Date: 2012-02-16 Impact factor: 5.758