Tallimustine, an alkylating benzoyl mustard derivative of distamycin A (FCE 24517), is novel anti-tumor agent. Both its cytotoxic activity against human LoVO cells and nicking efficiency on isolated plasmid DNA were studied in relation to hyperthermic treatment and compared to the effect of doxorubicin, a known non-alkylating anti-tumor agent. The results of this analysis indicate that the cytotoxic activity of tallimustine reflects its direct interaction with the DNA target. The ability of tallimustine to induce DNA repair in human primary normal fibroblasts was monitored by determining both the stimulation of unscheduled DNA synthesis (UDS) and the ability to reactivate a plasmid containing a reporter gene, treated in vitro with tallimustine, in comparison with the effect of UV-C irradiation. The results suggest that human cells able to repair UV-damage are unable to overcome DNA damage induced by tallimustine. Therefore, the hypothesis that the biological activity of tallimustine is related to its alkylating properties is further supported by the temperature studies and strengthened by the observed inability of cells to repair tallimustine-induced DNA damage.

The alkylating antitumor drug Tallimustine does not induce DNA Repair

A Montecucco;
1996

Abstract

Tallimustine, an alkylating benzoyl mustard derivative of distamycin A (FCE 24517), is novel anti-tumor agent. Both its cytotoxic activity against human LoVO cells and nicking efficiency on isolated plasmid DNA were studied in relation to hyperthermic treatment and compared to the effect of doxorubicin, a known non-alkylating anti-tumor agent. The results of this analysis indicate that the cytotoxic activity of tallimustine reflects its direct interaction with the DNA target. The ability of tallimustine to induce DNA repair in human primary normal fibroblasts was monitored by determining both the stimulation of unscheduled DNA synthesis (UDS) and the ability to reactivate a plasmid containing a reporter gene, treated in vitro with tallimustine, in comparison with the effect of UV-C irradiation. The results suggest that human cells able to repair UV-damage are unable to overcome DNA damage induced by tallimustine. Therefore, the hypothesis that the biological activity of tallimustine is related to its alkylating properties is further supported by the temperature studies and strengthened by the observed inability of cells to repair tallimustine-induced DNA damage.
1996
distamycin
cytotoxic
repair
induction antineoplastic
hyperthermia
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/10120
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