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<p>Determining drug mechanism of action in Calu6 cells <i>in vitro</i>. <b>A,</b> Increased retention of the fluorescent cytotoxic metabolite of banoxantrone, AQ4, as oxygen concentration decreased, with (<b>B</b>) example images shown for cells exposed to 10 µmol/L of banoxantrone differing oxygenation conditions. <b>C</b> and <b>D,</b> Clonogenic survival assays showed that banoxantrone became increasingly cytotoxic with reduced oxygenation whereas the impact of atovaquone on survival was not affected by oxygen level. <b>E,</b> A total of 10 µmol/L atovaquone completely ablated OCR under normoxia while banoxantrone had no effect. <b>F,</b> Under hypoxia (3% O<sub>2</sub>), OCR ablation was observed at 1 µmol/L atovaquone and while a trend toward reduced OCR was observed for banoxantrone this was not significant.</p>

Original publication

DOI

10.1158/2767-9764.27144158

Type

Other

Publication Date

01/10/2024