Mechanistic insights revealed by a UBE2A mutation linked to intellectual disability

Ubiquitin-conjugating enzymes (E2) enable protein ubiquitination by conjugating ubiquitin to their catalytic cysteine for subsequent transfer to a target lysine side chain. Deprotonation of the incoming lysine enables its nucleophilicity, but determinants of lysine activation remain poorly understoo...

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Veröffentlicht in:	Nature chemical biology 2019-01, Vol.15 (1), p.62-70
Hauptverfasser:	de Oliveira, Juliana Ferreira, do Prado, Paula Favoretti Vital, da Costa, Silvia Souza, Sforça, Mauricio Luis, Canateli, Camila, Ranzani, Americo Tavares, Maschietto, Mariana, de Oliveira, Paulo Sergio Lopes, Otto, Paulo A., Klevit, Rachel E., Krepischi, Ana Cristina Victorino, Rosenberg, Carla, Franchini, Kleber Gomes
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Sprache:	eng
Schlagworte:	631/535/1266 631/535/878 631/92/173 692/699/375 Adult Biochemical Engineering Biochemistry Bioorganic Chemistry Catalysis Catalytic Domain Cell Biology Chemistry Chemistry and Materials Science Chemistry/Food Science Crystallography, X-Ray Female Humans Hydrogen-Ion Concentration Intellectual disabilities Intellectual Disability - genetics Lysine Lysine - metabolism Magnetic Resonance Spectroscopy Male Mutation Mutation, Missense Proliferating cell nuclear antigen Proliferating Cell Nuclear Antigen - metabolism Proteins Reversion Ubiquitin Ubiquitin - chemistry Ubiquitin - metabolism Ubiquitin-Conjugating Enzymes - chemistry Ubiquitin-Conjugating Enzymes - genetics Ubiquitin-Conjugating Enzymes - metabolism Ubiquitin-protein ligase Ubiquitination
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creator	de Oliveira, Juliana Ferreira do Prado, Paula Favoretti Vital da Costa, Silvia Souza Sforça, Mauricio Luis Canateli, Camila Ranzani, Americo Tavares Maschietto, Mariana de Oliveira, Paulo Sergio Lopes Otto, Paulo A. Klevit, Rachel E. Krepischi, Ana Cristina Victorino Rosenberg, Carla Franchini, Kleber Gomes
description	Ubiquitin-conjugating enzymes (E2) enable protein ubiquitination by conjugating ubiquitin to their catalytic cysteine for subsequent transfer to a target lysine side chain. Deprotonation of the incoming lysine enables its nucleophilicity, but determinants of lysine activation remain poorly understood. We report a novel pathogenic mutation in the E2 UBE2A, identified in two brothers with mild intellectual disability. The pathogenic Q93E mutation yields UBE2A with impaired aminolysis activity but no loss of the ability to be conjugated with ubiquitin. Importantly, the low intrinsic reactivity of UBE2A Q93E was not overcome by a cognate ubiquitin E3 ligase, RAD18, with the UBE2A target PCNA. However, UBE2A Q93E was reactive at high pH or with a low-p K a amine as the nucleophile, thus providing the first evidence of reversion of a defective UBE2A mutation. We propose that Q93E substitution perturbs the UBE2A catalytic microenvironment essential for lysine deprotonation during ubiquitin transfer, thus generating an enzyme that is disabled but not dead. Structural and biochemical analysis of a UBE2A mutation linked to intellectual disability reveals that the Q93E mutant perturbs the E2 catalytic microenvironment essential for lysine deprotonation during the ubiquitin-transfer process.
doi_str_mv	10.1038/s41589-018-0177-2
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Deprotonation of the incoming lysine enables its nucleophilicity, but determinants of lysine activation remain poorly understood. We report a novel pathogenic mutation in the E2 UBE2A, identified in two brothers with mild intellectual disability. The pathogenic Q93E mutation yields UBE2A with impaired aminolysis activity but no loss of the ability to be conjugated with ubiquitin. Importantly, the low intrinsic reactivity of UBE2A Q93E was not overcome by a cognate ubiquitin E3 ligase, RAD18, with the UBE2A target PCNA. However, UBE2A Q93E was reactive at high pH or with a low-p K a amine as the nucleophile, thus providing the first evidence of reversion of a defective UBE2A mutation. We propose that Q93E substitution perturbs the UBE2A catalytic microenvironment essential for lysine deprotonation during ubiquitin transfer, thus generating an enzyme that is disabled but not dead. 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title	Mechanistic insights revealed by a UBE2A mutation linked to intellectual disability
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