Allelic specificity of Ube3a Expression In The Mouse Brain During Postnatal Development

ABSTRACT Genetic alterations of the maternal UBE3A allele result in Angelman syndrome (AS), a neurodevelopmental disorder characterized by severe developmental delay, lack of speech, and difficulty with movement and balance. The combined effects of maternal UBE3A mutation and cell type–specific epig...

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Veröffentlicht in:Journal of comparative neurology (1911) 2014-06, Vol.522 (8), p.1874-1896
Hauptverfasser: Judson, Matthew C., Sosa-Pagan, Jason O., Del Cid, Wilmer A., Han, Ji Eun, Philpot, Benjamin D.
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Sprache:eng
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Zusammenfassung:ABSTRACT Genetic alterations of the maternal UBE3A allele result in Angelman syndrome (AS), a neurodevelopmental disorder characterized by severe developmental delay, lack of speech, and difficulty with movement and balance. The combined effects of maternal UBE3A mutation and cell type–specific epigenetic silencing of paternal UBE3A are hypothesized to result in a complete loss of functional UBE3A protein in neurons. However, the allelic specificity of UBE3A expression in neurons and other cell types in the brain has yet to be characterized throughout development, including the early postnatal period when AS phenotypes emerge. Here we define maternal and paternal allele‐specific Ube3a protein expression throughout postnatal brain development in the mouse, a species that exhibits orthologous epigenetic silencing of paternal Ube3a in neurons and AS‐like behavioral phenotypes subsequent to maternal Ube3a deletion. We find that neurons downregulate paternal Ube3a protein expression as they mature and, with the exception of neurons born from postnatal stem cell niches, do not express detectable paternal Ube3a beyond the first postnatal week. By contrast, neurons express maternal Ube3a throughout postnatal development, during which time localization of the protein becomes increasingly nuclear. Unlike neurons, astrocytes and oligodendrotyes biallelically express Ube3a. Notably, mature oligodendrocytes emerge as the predominant Ube3a‐expressing glial cell type in the cortex and white matter tracts during postnatal development. These findings demonstrate the spatiotemporal characteristics of allele‐specific Ube3a expression in key brain cell types, thereby improving our understanding of the developmental parameters of paternal Ube3a silencing and the cellular basis of AS. J. Comp. Neurol. 522:1874–1896, 2014. © 2013 Wiley Periodicals, Inc. Immunofluorescent staining for Ube3a in wild‐type (Ube3am+/p+), Angelman syndrome (Ube3am−/p+), and double‐knockout (Ube3am−/p−) mice reveals unique patterns of paternal Ube3a expression in the developing brain, including selective expression in immature neurons. In perinatal neocortex, paternal Ube3a expression is largely restricted to the latest born neurons that populate superficial layers.
ISSN:0021-9967
1096-9861
DOI:10.1002/cne.23507