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Literature DB >> 28747490

Allosteric auto-inhibition and activation of the Nedd4 family E3 ligase Itch.

Kang Zhu¹, Zelin Shan¹, Xing Chen¹, Yuqun Cai², Lei Cui³, Weiyi Yao¹, Zhen Wang¹, Pan Shi⁴, Changlin Tian⁴, Jizhong Lou³, Yunli Xie², Wenyu Wen⁵.

Abstract

The Nedd4 family E3 ligases are key regulators of cell growth and proliferation and are often misregulated in human cancers and other diseases. The ligase activities of Nedd4 E3s are tightly controlled via auto-inhibition. However, the molecular mechanism underlying Nedd4 E3 auto-inhibition and activation is poorly understood. Here, we show that the WW domains proceeding the catalytic HECT domain play an inhibitory role by binding directly to HECT in the Nedd4 E3 family member Itch. Our structural and biochemical analyses of Itch reveal that the WW2 domain and a following linker allosterically lock HECT in an inactive state inhibiting E2-E3 transthiolation. Binding of the Ndfip1 adaptor or JNK1-mediated phosphorylation relieves the auto-inhibition of Itch in a WW2-dependent manner. Aberrant activation of Itch leads to migration defects of cortical neurons during development. Our study provides a new mechanism governing the regulation of Itch.

Entities: Disease Gene Species

Keywords: Itch; Ndfip1; Nedd4 family E3 ligases; allosteric regulation; crystal structure

Mesh：

Substances：

Year: 2017 PMID： 28747490 PMCID： PMC5579370 DOI： 10.15252/embr.201744454

Source DB: PubMed Journal: EMBO Rep ISSN： 1469-221X Impact factor: 8.807

58 in total

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Authors: Mark A Verdecia; Claudio A P Joazeiro; Nicholas J Wells; Jean-Luc Ferrer; Marianne E Bowman; Tony Hunter; Joseph P Noel
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Review 10. The Nedd4 family of E3 ubiquitin ligases: functional diversity within a common modular architecture.

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Review 5. Decoding the messaging of the ubiquitin system using chemical and protein probes.

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Review 6. Adaptors as the regulators of HECT ubiquitin ligases.

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7. Hepatitis C Virus-Induced ROS/JNK Signaling Pathway Activates the E3 Ubiquitin Ligase Itch to Promote the Release of HCV Particles via Polyubiquitylation of VPS4A.

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