A microdosing study to identify chemoresistance in bladder cancer.

356 Background: DNA adduct formation and incorporation of gemcitabine into genomic DNA are critical steps in cancer cell response to platinum (Pt) and gemcitabine chemotherapy, respectively. We hypothesize that levels of Pt-DNA adducts and gemcitabine in genomic DNA below a threshold are predictive of chemoresistance. Accelerator mass spectrometry (AMS) is an ultrasensitive method for measuring radiocarbon. By measuring 14C bound to DNA, AMS was used to quantify carboplatin-DNA damage and gemcitabine incorporation into DNA after mice or patients received nontoxic “microdoses” of 14C-labeled carboplatin or gemcitabine. Methods: Cancer cells and mice bearing tumor xenografts were treated with one microdose (1% of the therapeutic dose) or therapeutic dose of [14C]carboplatin or [14C]gemcitabine. Carboplatin-DNA adducts and gemcitabine incorporation in DNA were correlated with cell/tumor response to chemotherapy. In the Phase 0 trial, patients with advanced bladder or non-small cell lung cancer were treated w...