Flavopiridol Binds to Duplex DNA

EMT and Cancer Progression and Treatment

Experimental Therapeutics

Flavopiridol Binds to Duplex DNA¹

Keith C. Bible², Roy H. Bible, Jr., Timothy J. Kottke, Phyllis A. Svingen, Kun Xu, Yuan-Ping Pang, Elisabeth Hajdu and Scott H. Kaufmann

Divisions of Medical Oncology [K. C. B.] and Oncology Research [T. J. K., P. A. S., S. H. K.], Mayo Clinic, Rochester, Minnesota 55905; Department of Pharmacology [K. C. B., S. H. K., Y-P. P.] and Tumor Biology Program [K. X.], Mayo Medical School, Rochester, Minnesota 55905; and Physical Methodology [R. H. B., E. H.], Chemical Sciences Analytical, G. D. Searle and Company, Skokie, Illinois 60076

Flavopiridol, the first potent cyclin-dependent kinase inhibitorto enter clinical trials, was recently found to be cytotoxicto noncycling cells. The present studies were performed to examinethe hypothesis that flavopiridol, like several other antineoplasticagents that kill noncycling cells, might also interact withDNA. Consistent with this possibility, treatment of A549 humanlung cancer cells with clinically achievable concentrationsof flavopiridol resulted in rapid elevations of the DNA damage-responsiveprotein p53. In further studies, the binding of flavopiridolto DNA was examined in vitro by four independent techniques.Absorption spectroscopy revealed that addition of DNA to aqueousflavopiridol solutions resulted in a red shift of the flavopiridol ${lambda}$ _max from 311 to 344 nm, demonstrating an isosbestic point typicalof changes seen with DNA-binding compounds. Reverse-phase high-performanceliquid chromatography demonstrated that flavopiridol binds togenomic DNA to a similar extent as ethidium bromide and Hoechst33258. Nuclear magnetic resonance spectroscopy revealed thatDNA caused extreme broadening of flavopiridol ¹H nuclear magnetic resonancesignals that could be reversed by addition of ethidium bromideor by DNA melting, suggesting that flavopiridol binds to (and likelyintercalates into) duplex DNA. Equilibrium dialysis demonstrated thatthe equilibrium dissociation constant of the flavopiridol-DNAcomplex (5.4 ± 3.4 x 10^-4 M) was in the same range observedfor binding of the intercalators doxorubicin and pyrazoloacridineto DNA. Molecular modeling confirmed the feasibility of flavopiridolintercalation into DNA and analysis of the effects of flavopiridolin the National Cancer Institute tumor cell line panel usingthe COMPARE algorithm demonstrated that flavopiridol most closelyresembles cytotoxic antineoplastic intercalators. Collectively,these data suggest that DNA might be a second target of flavopiridol,providing a potential explanation for the ability of this agentto kill noncycling cancer cells.

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