Abstract
The UBE3A gene encodes the ubiquitin E3-ligase protein, UBE3A, which is implicated in severe neurodevelopmental disorders. Lack of UBE3A expression results in Angelman syndrome, while UBE3A overexpression, due to genomic 15q duplication, results in autism. The cellular roles of UBE3A are not fully understood, yet a growing body of evidence indicates that these disorders involve mitochondrial dysfunction and increased oxidative stress. We utilized bioinformatics approaches to delineate the effects of murine Ube3a deletion on the expression of mitochondrial-related genes and pathways. For this, we generated an mRNA sequencing dataset from mouse embryonic fibroblasts (MEFs) in which both alleles of Ube3a gene were deleted and their wild-type controls. Since oxidative stress and mitochondrial dysregulation might not be exhibited in the resting baseline state, we also activated mitochondrial functioning in the cells of these two genotypes using TNFα application. Transcriptomes of the four groups of MEFs, Ube3a+/+ and Ube3a−/−, with or without the application of TNFα, were analyzed using various bioinformatics tools and machine learning approaches. Our results indicate that Ube3a deletion affects the gene expression profiles of mitochondrial-associated pathways. We further confirmed these results by analyzing other publicly available human transcriptome datasets of Angelman syndrome and 15q duplication syndrome.
Highlights
The UBE3A gene that encodes for the ubiquitin E3-ligase protein UBE3A is located in the q11–q13 region of chromosome 15 in humans, and at 28.65 Cm of chromosome 7 in mice
A growing body of evidence shows that Ube3a deletion is related to mitochondrial dysfunction and dysregulation of mitochondrial-dependent oxidative stress, but the cause for that is not known
To further reveal if there is a link between Ube3a deletion and mitochondrial-related transcriptome, we utilized a MitoCarta2 database of proteins that are localized to the mitochondria, which consists of 1158 proteins [55]
Summary
The UBE3A gene that encodes for the ubiquitin E3-ligase protein UBE3A is located in the q11–q13 region of chromosome 15 in humans, and at 28.65 Cm of chromosome 7 in mice. It was shown that UBE3A has two main functions: as a hormone-dependent coactivator of nuclear hormone receptors, such as androgen and estrogen receptors [5], and as an E3 ligase of the HECT domain family, which catalyzes ubiquitin transfer to the substrate protein, leading to its degradation [6]. These two functions of nuclear hormone receptor coactivator and ubiquitin–protein ligase activity were shown to be independent [1,7,8]. In addition to UBE3A roles in neurodevelopment, alterations in UBE3A levels were associated with cancers such as cervical cancer, prostate cancer, and breast cancer [8,17,18,26,27,28,29]
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