ATR‐101 inhibits cholesterol efflux and cortisol secretion by ATP‐binding cassette transporters, causing cytotoxic cholesterol accumulation in adrenocortical carcinoma cells

Background and Purpose To further the development of new agents for the treatment of adrenocortical carcinoma (ACC), we characterized the molecular and cellular mechanisms of cytotoxicity by the adrenalytic compound ATR‐101 (PD132301‐02). Experimental Approach We compared the effects of ATR‐101, PD129337, and ABC transporter inhibitors on cholesterol accumulation and efflux, on cortisol secretion, on ATP levels, and on caspase activation in ACC‐derived cell lines. We examined the effects of these compounds in combination with methyl‐β‐cyclodextrin or exogenous cholesterol to determine the roles of altered cholesterol levels in the effects of these compounds. Key Results ATR‐101 caused cholesterol accumulation, ATP depletion, and caspase activation within 30 minutes after addition to ACC‐derived cells, whereas PD129337 did not. Suppression of cholesterol accumulation by methyl‐β‐cyclodextrin or exogenous cholesterol, prevented ATP depletion and caspase activation by ATR‐101. ATR‐101 blocked cholesterol efflux and cortisol secretion, suggesting that it inhibited ABCA1, ABCG1, and MDR1 transporters. Combinations of ABCA1, ABCG1, and MDR1 inhibitors were also cytotoxic. Combinations of ATR‐101 with inhibitors of ABCG1, MDR1, or mitochondrial functions had increased cytotoxicity. Inhibitors of steroidogenesis reduced ATP depletion by ATR‐101, whereas U18666A enhanced cholesterol accumulation and ATP depletion together with ATR‐101. ATR‐101 repressed ABCA1, ABCG1, and IDOL transcription by mechanisms that were distinct from the mechanisms that caused cholesterol accumulation. Conclusions and Implications Inhibition of multiple ABC transporters and the consequent accumulation of cholesterol mediated the cytotoxicity of ATR‐101. Compounds that replicate these effects in tumours are likely to be useful in the treatment of ACC.