1. Mechanism of activation and regulation of deubiquitinase activity in MINDY1 and MINDY2
- Author
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Sven M. Lange, Syed Arif Abdul Rehman, Dmitri I. Svergun, Lee A. Armstrong, Yogesh Kulathu, Yosua Adi Kristariyanto, Axel Knebel, and Tobias W. Gräwert
- Subjects
Models, Molecular ,crystal structure ,Protein Conformation ,Biology ,Protein degradation ,Article ,Deubiquitinating enzyme ,Structure-Activity Relationship ,conformational change ,polyubiquitin ,Ubiquitin ,Catalytic Domain ,Cleave ,Scattering, Small Angle ,Catalytic triad ,Humans ,enzyme mechanism ,ddc:610 ,Binding site ,ubiquitylation ,Molecular Biology ,Substrate Interaction ,Binding Sites ,Crystallography ,Deubiquitinating Enzymes ,Ubiquitination ,protease ,Cell Biology ,Cell biology ,Enzyme Activation ,deubiquitinase ,Kinetics ,proteasome ,Proteasome ,Mutation ,protein degradation ,autoinhibition ,biology.protein ,Ubiquitin Thiolesterase ,Protein Binding - Abstract
Summary Of the eight distinct polyubiquitin (polyUb) linkages that can be assembled, the roles of K48-linked polyUb (K48-polyUb) are the most established, with K48-polyUb modified proteins being targeted for degradation. MINDY1 and MINDY2 are members of the MINDY family of deubiquitinases (DUBs) that have exquisite specificity for cleaving K48-polyUb, yet we have a poor understanding of their catalytic mechanism. Here, we analyze the crystal structures of MINDY1 and MINDY2 alone and in complex with monoUb, di-, and penta-K48-polyUb, identifying 5 distinct Ub binding sites in the catalytic domain that explain how these DUBs sense both Ub chain length and linkage type to cleave K48-polyUb chains. The activity of MINDY1/2 is inhibited by the Cys-loop, and we find that substrate interaction relieves autoinhibition to activate these DUBs. We also find that MINDY1/2 use a non-canonical catalytic triad composed of Cys-His-Thr. Our findings highlight multiple layers of regulation modulating DUB activity in MINDY1 and MINDY2., Graphical abstract, Highlights • The catalytic domain of MINDY1/2 has five distinct Ub binding sites • Dynamics of the Cys loop regulate DUB activity • Non-canonical catalytic triad composed of Cys-His-Thr • MINDY1/2 uses an exo- or endo-cleavage mode that is determined by Ub chain length, Abdul Rehman et al. uncover multiple layers of regulation of MINDY1 and MINDY2, two recently discovered K48-specific deubiquitinases. They report that MINDY1/2 uses a non-canonical catalytic mechanism, and its catalytic domain has five distinct ubiquitin binding sites, which establishes a polyUb length-dependent cleavage mode.
- Published
- 2021