Structure of USP7 catalytic domain and three Ubl-domains reveals a connector α-helix with regulatory role

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• 作者：Robbert Q. Kim ; Willem J. van Dijk ; Titia K. Sixma ; ^{t.sixma@nki.nl" class="auth_mail" title="E-mail the corresponding author}
• 关键词：Ubiquitin conjugation ; Deubiquitination ; USP7 ; Helix stability
• 刊名：Journal of Structural Biology
• 出版年：2016
• 出版时间：July 2016
• 年：2016
• 卷：195
• 期：1
• 页码：11-18
• 全文大小：1887 K

文摘

Ubiquitin conjugation is an important signal in cellular pathways, changing the fate of a target protein, by degradation, relocalisation or complex formation. These signals are balanced by deubiquitinating enzymes (DUBs), which antagonize ubiquitination of specific protein substrates.

Because ubiquitination pathways are critically important, DUB activity is often carefully controlled. USP7 is a highly abundant DUB with numerous targets that plays complex roles in diverse pathways, including DNA regulation, p53 stress response and endosomal protein recycling. Full-length USP7 switches between an inactive and an active state, tuned by the positioning of 5 Ubl folds in the C-terminal HUBL domain. The active state requires interaction between the last two Ubls (USP7⁴⁵) and the catalytic domain (USP7^CD), and this can be promoted by allosteric interaction from the first 3 Ubl domains of USP7 (USP7¹²³) interacting with GMPS.

Here we study the transition between USP7 states. We provide a crystal structure of USP7^CD123 and show that CD and Ubl123 are connected via an extended charged alpha helix. Mutational analysis is used to determine whether the charge and rigidity of this ‘connector helix’ are important for full USP7 activity.