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Bi-allelic mutations in Phe-tRNA synthetase associated with a multi-system pulmonary disease support non-translational function.

Am. J. Hum. Genet. 103, 100-114 (2018)
Publishers Version Research data DOI PMC
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The tRNA synthetases catalyze the first step of protein synthesis and have increasingly been studied for their nuclear and extra-cellular ex-translational activities. Human genetic conditions such as Charcot-Marie-Tooth have been attributed to dominant gain-of-function mutations in some tRNA synthetases. Unlike dominantly inherited gain-of-function mutations, recessive loss-of-function mutations can potentially elucidate ex-translational activities. We present here five individuals from four families with a multi-system disease associated with bi-allelic mutations in FARSB that encodes the beta chain of the alpha(2)beta(2) phenylalanine-tRNA synthetase (FARS). Collectively, the mutant alleles encompass a 5'-splice junction non-coding variant (SJV) and six missense variants, one of which is shared by unrelated individuals. The clinical condition is characterized by interstitial lung disease, cerebral aneurysms and brain calcifications, and cirrhosis. For the SJV, we confirmed exon skipping leading to a frameshift associated with noncatalytic activity. While the bi-allelic combination of the SJV with a p.Arg305Gln missense mutation in two individuals led to severe disease, cells from neither the asymptomatic heterozygous carriers nor the compound heterozygous affected individual had any defect in protein synthesis. These results support a disease mechanism independent of tRNA synthetase activities in protein translation and suggest that this FARS activity is essential for normal function in multiple organs.
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Publication type Article: Journal article
Document type Scientific Article
Keywords Bi-allelic Mutation ; Cerebral Calcifications ; Cholesterol Pneumonitis ; Exome Sequencing ; Interstitial Lung Disease ; Missense Mutation ; Multi-system Disease ; Non-canonical Function ; Non-coding Variant ; Trna Synthetase; Growth-retardation; Compound Heterozygosity; Protein-synthesis; Iars Mutations; Variants; Neuropathy; Binding; Dna; Pathogenicity; Sunset
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