Retrograde trafficking inhibitors allosterically trap Get3 to block tail-anchored protein biogenesis

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Retrograde trafficking inhibitors allosterically trap Get3 to block tail-anchored protein biogenesis

Authors

Lee, J. A.; Gu, X.; Chan, C.; Robertson, V. S.; Garcia-Ruiz, V.; Li, Y. E.; Ngo, A. H.; Alabi, P.; Denic, V.; Sello, J. K.; Clemons, W.

Abstract

Retro-1 and Retro-2 are structurally distinct small molecules that protect cells from diverse toxins and viruses by disrupting retrograde trafficking, yet their mechanism of action has remained elusive. We show that both compounds target Get3, the ATPase chaperone of the guided entry of tail-anchored proteins (GET) pathway, which mediates biogenesis of tail-anchored SNARE proteins required for retrograde transport to the ER membrane. Cryo-electron microscopy reveals that Retro compounds bind a cryptic pocket in Get3, allosterically stabilizing Get3 in a stalled complex with upstream pathway components. Our work uncovers the GET pathway as an unsuspected vulnerability in pathogen entry, provides clear routes toward compound optimization, and establishes stabilization of dynamic protein complexes as a therapeutic strategy.

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