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Small molecules targeting the disordered transactivation domain of the androgen receptor induce the formation of collapsed helical states

Jiaqi Zhu, Xavier Salvatella and Paul Robustelli ()
Additional contact information
Jiaqi Zhu: Dartmouth College, Department of Chemistry
Xavier Salvatella: The Barcelona Institute of Science and Technology
Paul Robustelli: Dartmouth College, Department of Chemistry

Nature Communications, 2022, vol. 13, issue 1, 1-15

Abstract: Abstract Intrinsically disordered proteins, which do not adopt well-defined structures under physiological conditions, are implicated in many human diseases. Small molecules that target the disordered transactivation domain of the androgen receptor have entered human trials for the treatment of castration-resistant prostate cancer (CRPC), but no structural or mechanistic rationale exists to explain their inhibition mechanisms or relative potencies. Here, we utilize all-atom molecular dynamics computer simulations to elucidate atomically detailed binding mechanisms of the compounds EPI-002 and EPI-7170 to the androgen receptor. Our simulations reveal that both compounds bind at the interface of two transiently helical regions and induce the formation of partially folded collapsed helical states. We find that EPI-7170 binds androgen receptor more tightly than EPI-002 and we identify a network of intermolecular interactions that drives higher affinity binding. Our results suggest strategies for developing more potent androgen receptor inhibitors and general strategies for disordered protein drug design.

Date: 2022
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DOI: 10.1038/s41467-022-34077-z

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