Structure of the DOCK2−ELMO1 complex provides insights into regulation of the auto-inhibited state

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作者
Leifu Chang
Jing Yang
Chang Hwa Jo
Andreas Boland
Ziguo Zhang
Stephen H. McLaughlin
Afnan Abu-Thuraia
Ryan C. Killoran
Matthew J. Smith
Jean-Francois Côté
David Barford
机构
[1] MRC Laboratory of Molecular Biology,Department of Pathology and Cell Biology, Faculty of Medicine
[2] Institute for Research in Immunology and Cancer,Department of Anatomy and Cell Biology
[3] Université de Montréal,undefined
[4] Montreal Institute of Clinical Research (IRCM),undefined
[5] Université de Montréal,undefined
[6] Department of Biochemistry and Molecular Medicine,undefined
[7] Faculty of Medicine,undefined
[8] Université de Montréal,undefined
[9] McGill University,undefined
[10] Department of Biological Sciences,undefined
[11] Purdue University,undefined
[12] Department of Molecular Biology,undefined
[13] Science III,undefined
[14] University of Geneva,undefined
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Nature Communications | / 11卷
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摘要
DOCK (dedicator of cytokinesis) proteins are multidomain guanine nucleotide exchange factors (GEFs) for RHO GTPases that regulate intracellular actin dynamics. DOCK proteins share catalytic (DOCKDHR2) and membrane-associated (DOCKDHR1) domains. The structurally-related DOCK1 and DOCK2 GEFs are specific for RAC, and require ELMO (engulfment and cell motility) proteins for function. The N-terminal RAS-binding domain (RBD) of ELMO (ELMORBD) interacts with RHOG to modulate DOCK1/2 activity. Here, we determine the cryo-EM structures of DOCK2−ELMO1 alone, and as a ternary complex with RAC1, together with the crystal structure of a RHOG−ELMO2RBD complex. The binary DOCK2−ELMO1 complex adopts a closed, auto-inhibited conformation. Relief of auto-inhibition to an active, open state, due to a conformational change of the ELMO1 subunit, exposes binding sites for RAC1 on DOCK2DHR2, and RHOG and BAI GPCRs on ELMO1. Our structure explains how up-stream effectors, including DOCK2 and ELMO1 phosphorylation, destabilise the auto-inhibited state to promote an active GEF.
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