Allosteric degraders induce CRL5 ASB8 mediated degradation of XPO1.

The nuclear export receptor Exportin 1 (XPO1/CRM1) is often overexpressed in cancer cells resulting in aberrant localization of many cancer-related protein cargoes. The XPO1 inhibitor and cancer drug selinexor (KPT-330), and its analog KPT-185, block XPO1-cargo binding thereby restoring cargo localization. Selinexor binding induces cullin-RING E3 ubiquitin ligase (CRL) substrate receptor ASB8-mediated XPO1 degradation. Here we reveal the mechanism of inhibitor-XPO1 engagement by CRL5ASB8. Cryogenic electron microscopy (cryo-EM) structures show ASB8 binding to a large surface of selinexor/KPT-185-XPO1 that includes a three-dimensional degron unique to the drug-bound exportin. The structure explains weak XPO1-ASB8 binding in the absence of selinexor/KPT-185 that is unproductive for proteasomal degradation, and the substantial affinity increase upon selinexor/KPT-185 conjugation, which results in CRL5 ^ASB8 -mediated XPO1 ubiquitination. In contrast to previously characterized small molecule degraders, which all act as molecular glues, selinexor/KPT-185 binds extensively to XPO1 but hardly contacts ASB8. Instead, selinexor/KPT-185 binds XPO1 and stabilizes a unique conformation of the NES/inhibitor-binding groove that binds ASB8. Selinexor/KPT-185 is an allosteric degrader. We have explained how drug-induced protein degradation is mediated by a CRL5 system through an allosteric rather than a molecular glue mechanism, expanding the modes of targeted protein degradation beyond the well-known molecular glues of CRL4.