AI Article Synopsis
- Post-translational modifications (PTMs) like ubiquitination are essential for proper protein function and are linked to various diseases.
- Ubiquitination is regulated by E3 ligases, which control protein degradation and other cellular functions such as protein localization and transcription.
- UBE3A, an important E3 ligase, is studied for its role in learning, memory, and its connection to autism and neurodegenerative diseases, suggesting it plays a key role in disease progression and cognitive health.
Article Abstract
Post-translational modifications (PTMs) of proteins play a significant role in normal protein function but can also be instrumental in disease pathogenesis. One critical yet under-studied PTM in disease is ubiquitination. Ubiquitin chain addition and substrate specificity are determined by a large spectrum of ubiquitin-ligating and -modifying enzymes, E3 ligases, whose expression levels and activities are tightly regulated in a cell-specific manner. While most ubiquitin chains can target proteins for proteasomal degradation, ubiquitination can contribute to other functions within the cell, including protein localization, protein activity, endocytosis, transcription, and autophagy. One E3 ligase, UBE3A, has garnered much attention because of its involvement in learning and memory, as well as its association with neurodevelopmental autism spectrum disorders (ASDs). However, more recent findings have suggested a potential involvement of UBE3A in neurodegenerative proteinopathies, where reduced UBE3A levels can lead to an enhanced rate of aggregate formation and cell death. Here, we review the literature on UBE3A in neurodevelopment, function, and neurodegenerative diseases and demonstrate that UBE3A could play a critical role in disease progression and cognitive function.
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| http://dx.doi.org/10.1177/13872877241283680 | DOI Listing |
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