Loss of nuclear UBE3A causes electrophysiological and behavioral deficits in mice and is associated with Angelman syndrome

Mutations affecting the gene encoding the ubiquitin ligase UBE3A cause Angelman syndrome. Although most studies focus on the synaptic function of UBE3A, we show that UBE3A is highly enriched in the nucleus of mouse and human neurons. We found that the two major isoforms of UBE3A exhibit highly disti...

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Bibliographic Details
Published in:Nature neuroscience 2019-08, Vol.22 (8), p.1235-1247
Main Authors: Avagliano Trezza, Rossella, Sonzogni, Monica, Bossuyt, Stijn N. V., Zampeta, F. Isabella, Punt, A. Mattijs, van den Berg, Marlene, Rotaru, Diana C., Koene, Linda M. C., Munshi, Shashini T., Stedehouder, Jeffrey, Kros, Johan M., Williams, Mark, Heussler, Helen, de Vrij, Femke M. S., Mientjes, Edwin J., van Woerden, Geeske M., Kushner, Steven A., Distel, Ben, Elgersma, Ype
Format: Article
Language:English
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Analysis
Angelman Syndrome - genetics
Angelman Syndrome - psychology
Animal Genetics and Genomics
Animals
Behavior
Behavior, Animal
Behavioral Sciences
Biological Techniques
Biomedical and Life Sciences
Biomedicine
Carrier Proteins - metabolism
Cell Nucleus - enzymology
Cell Nucleus - genetics
Cytosol - enzymology
Electrophysiological Phenomena - genetics
Female
Gene deletion
Humans
Isoenzymes - genetics
Isoforms
Localization
Male
Mice
Mice, Knockout
Missense mutation
Mutation
Mutation, Missense - genetics
Nesting Behavior
Neurobiology
Neurons - enzymology
Neurosciences
Nuclear transport
Observations
Phenotypes
Physiological aspects
Protein binding
Psychomotor Performance
Retention
RNA-Binding Proteins
Swimming - psychology
Ubiquitin
Ubiquitin-proteasome system
Ubiquitin-protein ligase
Ubiquitin-Protein Ligases - genetics
Zinc Fingers
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Summary:Mutations affecting the gene encoding the ubiquitin ligase UBE3A cause Angelman syndrome. Although most studies focus on the synaptic function of UBE3A, we show that UBE3A is highly enriched in the nucleus of mouse and human neurons. We found that the two major isoforms of UBE3A exhibit highly distinct nuclear versus cytoplasmic subcellular localization. Both isoforms undergo nuclear import through direct binding to PSMD4 (also known as S5A or RPN10), but the amino terminus of the cytoplasmic isoform prevents nuclear retention. Mice lacking the nuclear UBE3A isoform recapitulate the behavioral and electrophysiological phenotypes of Ube3a m–/p+ mice, whereas mice harboring a targeted deletion of the cytosolic isoform are unaffected. Finally, we identified Angelman syndrome-associated UBE3A missense mutations that interfere with either nuclear targeting or nuclear retention of UBE3A. Taken together, our findings elucidate the mechanisms underlying the subcellular localization of UBE3A, and indicate that the nuclear UBE3A isoform is the most critical for the pathophysiology of Angelman syndrome. This paper elucidates the mechanism regulating the subcellular localization of UBE3A and demonstrates that abrogation of UBE3A nuclear localization leads to electrophysiological and behavioral impairments in mice and to Angelman syndrome in humans.
ISSN:1097-6256
1546-1726
DOI:10.1038/s41593-019-0425-0