ANKRD16 prevents neuron loss caused by an editing-defective tRNA synthetase

氨酰tRNA合成酶 丝氨酸 转移RNA RNA编辑 生物 氨基酰基tRNA合成酶 突变 氨基酸 神经退行性变 突变体 基因组编辑 生物化学 细胞生物学 遗传学 基因 核糖核酸 磷酸化 基因组 医学 病理 疾病
作者
My-Nuong Vo,Markus Terrey,Jeong-Woong Lee,Bappaditya Roy,James J. Moresco,Litao Sun,Hongjun Fu,Qi Liu,Thomas G. Weber,John R. Yates,Kurt Fredrick,Paul Schimmel,Susan L. Ackerman
出处
期刊:Nature [Nature Portfolio]
卷期号:557 (7706): 510-515 被引量:48
标识
DOI:10.1038/s41586-018-0137-8
摘要

Editing domains of aminoacyl tRNA synthetases correct tRNA charging errors to maintain translational fidelity. A mutation in the editing domain of alanyl tRNA synthetase (AlaRS) in Aars sti mutant mice results in an increase in the production of serine-mischarged tRNAAla and the degeneration of cerebellar Purkinje cells. Here, using positional cloning, we identified Ankrd16, a gene that acts epistatically with the Aars sti mutation to attenuate neurodegeneration. ANKRD16, a vertebrate-specific protein that contains ankyrin repeats, binds directly to the catalytic domain of AlaRS. Serine that is misactivated by AlaRS is captured by the lysine side chains of ANKRD16, which prevents the charging of serine adenylates to tRNAAla and precludes serine misincorporation in nascent peptides. The deletion of Ankrd16 in the brains of Aarssti/sti mice causes widespread protein aggregation and neuron loss. These results identify an amino-acid-accepting co-regulator of tRNA synthetase editing as a new layer of the machinery that is essential to the prevention of severe pathologies that arise from defects in editing. ANKRD16 attenuates neurodegeneration induced by a mutation in the editing domain of alanyl tRNA synthetase by directly accepting mis-activated serine from the synthetase before transfer to the tRNA, establishing a new mechanism by which editing defects are prevented.
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