Huntingtin structure is orchestrated by HAP40 and shows a polyglutamine expansion-specific interaction with exon 1

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作者
Rachel J. Harding
Justin C. Deme
Johannes F. Hevler
Sem Tamara
Alexander Lemak
Jeffrey P. Cantle
Magdalena M. Szewczyk
Nola Begeja
Siobhan Goss
Xiaobing Zuo
Peter Loppnau
Alma Seitova
Ashley Hutchinson
Lixin Fan
Ray Truant
Matthieu Schapira
Jeffrey B. Carroll
Albert J. R. Heck
Susan M. Lea
Cheryl H. Arrowsmith
机构
[1] University of Toronto,Structural Genomics Consortium
[2] University of Oxford,Sir William Dunn School of Pathology
[3] University of Oxford,Central Oxford Structural Molecular Imaging Centre
[4] National Cancer Institute,Center for Structural Biology, Center for Cancer Research
[5] Utrecht University,Biomolecular Mass Spectrometry and Proteomics, Bijvoet Center for Biomolecular Research and Utrecht Institute of Pharmaceutical Sciences
[6] Netherlands Proteomics Center,Princess Margaret Cancer Centre and Department of Medical Biophysics
[7] University of Toronto,Behavioral Neuroscience Program, Department of Psychology
[8] Western Washington University,Department of Biochemistry and Biomedical Sciences
[9] McMaster University,X
[10] Argonne National Laboratory,ray Science Division
[11] National Institutes of Health,Basic Science Program, Frederick National Laboratory for Cancer Research, SAXS Core of NCI
[12] University of Toronto,Department of Pharmacology and Toxicology
来源
Communications Biology | / 4卷
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摘要
Huntington’s disease results from expansion of a glutamine-coding CAG tract in the huntingtin (HTT) gene, producing an aberrantly functioning form of HTT. Both wildtype and disease-state HTT form a hetero-dimer with HAP40 of unknown functional relevance. We demonstrate in vivo and in cell models that HTT and HAP40 cellular abundance are coupled. Integrating data from a 2.6 Å cryo-electron microscopy structure, cross-linking mass spectrometry, small-angle X-ray scattering, and modeling, we provide a near-atomic-level view of HTT, its molecular interaction surfaces and compacted domain architecture, orchestrated by HAP40. Native mass spectrometry reveals a remarkably stable hetero-dimer, potentially explaining the cellular inter-dependence of HTT and HAP40. The exon 1 region of HTT is dynamic but shows greater conformational variety in the polyglutamine expanded mutant than wildtype exon 1. Our data provide a foundation for future functional and drug discovery studies targeting Huntington’s disease and illuminate the structural consequences of HTT polyglutamine expansion.
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