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6BF9

Cryo-EM structure of human insulin degrading enzyme in complex with FAB H11-E heavy chain, FAB H11-E light chain

Summary for 6BF9
Entry DOI10.2210/pdb6bf9/pdb
Related6B3Q 6B70 6B7Y 6B7Z 6BF6 6BF7 6BF8
EMDB information7041 7062 7065 7066 7090 7091 7092 7093
DescriptorInsulin-degrading enzyme, Fab H11-E heavy chain, Fab H11-E light chain (3 entities in total)
Functional Keywordside, amyloid beta, hydrolase-immune system complex, hydrolase/immune system
Biological sourceHomo sapiens (Human)
More
Total number of polymer chains6
Total formula weight316023.68
Authors
Liang, W.G.,Zhang, Z.,Bailey, L.J.,Kossiakoff, A.A.,Tan, Y.Z.,Wei, H.,Carragher, B.,Potter, S.C.,Tang, W.J. (deposition date: 2017-10-26, release date: 2018-02-07, Last modification date: 2024-11-20)
Primary citationZhang, Z.,Liang, W.G.,Bailey, L.J.,Tan, Y.Z.,Wei, H.,Wang, A.,Farcasanu, M.,Woods, V.A.,McCord, L.A.,Lee, D.,Shang, W.,Deprez-Poulain, R.,Deprez, B.,Liu, D.R.,Koide, A.,Koide, S.,Kossiakoff, A.A.,Li, S.,Carragher, B.,Potter, C.S.,Tang, W.J.
Ensemble cryoEM elucidates the mechanism of insulin capture and degradation by human insulin degrading enzyme.
Elife, 7:-, 2018
Cited by
PubMed Abstract: Insulin degrading enzyme (IDE) plays key roles in degrading peptides vital in type two diabetes, Alzheimer's, inflammation, and other human diseases. However, the process through which IDE recognizes peptides that tend to form amyloid fibrils remained unsolved. We used cryoEM to understand both the apo- and insulin-bound dimeric IDE states, revealing that IDE displays a large opening between the homologous ~55 kDa N- and C-terminal halves to allow selective substrate capture based on size and charge complementarity. We also used cryoEM, X-ray crystallography, SAXS, and HDX-MS to elucidate the molecular basis of how amyloidogenic peptides stabilize the disordered IDE catalytic cleft, thereby inducing selective degradation by substrate-assisted catalysis. Furthermore, our insulin-bound IDE structures explain how IDE processively degrades insulin by stochastically cutting either chain without breaking disulfide bonds. Together, our studies provide a mechanism for how IDE selectively degrades amyloidogenic peptides and offers structural insights for developing IDE-based therapies.
PubMed: 29596046
DOI: 10.7554/eLife.33572
PDB entries with the same primary citation
Experimental method
ELECTRON MICROSCOPY (7.2 Å)
Structure validation

227561

数据于2024-11-20公开中

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