The phenotypic spectrum of germline YARS2 variants: from isolated sideroblastic anemia to mitochondrial myopathy, lactic acidosis and sideroblastic anemia 2

YARS2 variants have previously been described in patients with myopathy, lactic acidosis and sideroblastic anemia 2 (MLASA2). YARS2 encodes the mitochondrial tyrosyl-tRNA synthetase, which is responsible for conjugating tyrosine to its cognate mt-tRNA for mitochondrial protein synthesis. Here we describe 14 individuals from 11 families presenting with sideroblastic anemia and YARS2 variants that we identified using a sideroblastic anemia gene panel or exome sequencing. The phenotype of these patients ranged from MLASA to isolated congenital sideroblastic anemia. As in previous cases, inter- and intra-familial phenotypic variability was observed, however, this report includes the first cases with isolated sideroblastic anemia and patients with biallelic YARS2 variants that have no clinically ascertainable phenotype. We identified ten novel YARS2 variants and three previously reported variants. In vitro amino-acylation assays of five novel missense variants showed that three had less effect on the catalytic activity of YARS2 than the most commonly reported variant, p.(Phe52Leu), associated with MLASA2, which may explain the milder phenotypes in patients with these variants. However, the other two missense variants had a more severe effect on YARS2 catalytic efficiency. Several patients carried the common YARS2 c.572 G>T, p.(Gly191Val) variant (minor allele frequency =0.1259) in trans with a rare deleterious YARS2 variant. We have previously shown that the p.(Gly191Val) variant reduces YARS2 catalytic activity. Consequently, we suggest that biallelic YARS2 variants, including severe loss-of-function alleles in trans of the common p.(Gly191Val) variant, should be considered as a cause of isolated congenital sideroblastic anemia, as well as the MLASA syndromic phenotype.

[1]  M. Fleming,et al.  The molecular genetics of sideroblastic anemia. , 2019, Blood.

[2]  Robert W. Taylor,et al.  Clinical Features, Molecular Heterogeneity, and Prognostic Implications in YARS2-Related Mitochondrial Myopathy , 2017, JAMA neurology.

[3]  S. Oprescu,et al.  Predicting the pathogenicity of aminoacyl-tRNA synthetase mutations. , 2017, Methods.

[4]  L. Maquat,et al.  Leveraging Rules of Nonsense-Mediated mRNA Decay for Genome Engineering and Personalized Medicine , 2016, Cell.

[5]  J. Qu,et al.  The exome sequencing identified the mutation in YARS2 encoding the mitochondrial tyrosyl-tRNA synthetase as a nuclear modifier for the phenotypic manifestation of Leber's hereditary optic neuropathy-associated mitochondrial DNA mutation. , 2016, Human molecular genetics.

[6]  S. Duga,et al.  First Independent Replication of the Involvement of LARS2 in Perrault Syndrome by Whole-Exome Sequencing of an Italian Family , 2015, Journal of Human Genetics.

[7]  James Y. Zou Analysis of protein-coding genetic variation in 60,706 humans , 2015, Nature.

[8]  M. Zeviani,et al.  A Novel Homozygous YARS2 Mutation in Two Italian Siblings and a Review of Literature. , 2015, JIMD reports.

[9]  M. Fleming,et al.  Sideroblastic anemia: diagnosis and management. , 2014, Hematology/oncology clinics of North America.

[10]  A. Vanderver,et al.  Novel (ovario) leukodystrophy related to AARS2 mutations , 2014, Neurology.

[11]  N. Matsumoto,et al.  A novel homozygous YARS2 mutation causes severe myopathy, lactic acidosis, and sideroblastic anemia 2 , 2014, Journal of Human Genetics.

[12]  Yang Zhang,et al.  The I-TASSER Suite: protein structure and function prediction , 2014, Nature Methods.

[13]  J. Christodoulou,et al.  Phenotypic variability and identification of novel YARS2 mutations in YARS2 mitochondrial myopathy, lactic acidosis and sideroblastic anaemia , 2013, Orphanet Journal of Rare Diseases.

[14]  S. Rahman,et al.  A distinct mitochondrial myopathy, lactic acidosis and sideroblastic anemia (MLASA) phenotype associates with YARS2 mutations , 2013, American journal of medical genetics. Part A.

[15]  I. Adzhubei,et al.  Predicting Functional Effect of Human Missense Mutations Using PolyPhen‐2 , 2013, Current protocols in human genetics.

[16]  E. Shoubridge,et al.  A novel mutation in YARS2 causes myopathy with lactic acidosis and sideroblastic anemia , 2012, Human mutation.

[17]  Jing Hu,et al.  SIFT web server: predicting effects of amino acid substitutions on proteins , 2012, Nucleic Acids Res..

[18]  M. Fleming Congenital sideroblastic anemias: iron and heme lost in mitochondrial translation. , 2011, Hematology. American Society of Hematology. Education Program.

[19]  S. Sugano,et al.  Frequent pathway mutations of splicing machinery in myelodysplasia , 2011, Nature.

[20]  A. Lambowitz,et al.  NMR Structure of the C-terminal domain of a tyrosyl-tRNA synthetase that functions in group I intron splicing. , 2011, Biochemistry.

[21]  T. Walsh,et al.  Mutations in mitochondrial histidyl tRNA synthetase HARS2 cause ovarian dysgenesis and sensorineural hearing loss of Perrault syndrome , 2011, Proceedings of the National Academy of Sciences.

[22]  Nicole Rusk Torrents of sequence , 2011, Nature Methods.

[23]  R. Giegé,et al.  Mutation of the mitochondrial tyrosyl-tRNA synthetase gene, YARS2, causes myopathy, lactic acidosis, and sideroblastic anemia--MLASA syndrome. , 2010, American Journal of Human Genetics.

[24]  E. Neufeld,et al.  Systematic molecular genetic analysis of congenital sideroblastic anemia: Evidence for genetic heterogeneity and identification of novel mutations , 2010, Pediatric blood & cancer.

[25]  B. Lorber,et al.  Crystal structure of human mitochondrial tyrosyl-tRNA synthetase reveals common and idiosyncratic features. , 2007, Structure.

[26]  D. Lev,et al.  Mitochondrial Myopathy, Sideroblastic Anemia, and Lactic Acidosis: An Autosomal Recessive Syndrome in Persian Jews Caused by a Mutation in the PUS1 Gene , 2005, Journal of child neurology.

[27]  C. Florentz,et al.  Toward the full set of human mitochondrial aminoacyl-tRNA synthetases: characterization of AspRS and TyrRS. , 2005, Biochemistry.

[28]  Y. Bykhovskaya,et al.  Missense mutation in pseudouridine synthase 1 (PUS1) causes mitochondrial myopathy and sideroblastic anemia (MLASA). , 2004, American journal of human genetics.

[29]  G. Cartwright,et al.  Sideroblasts, siderocytes, and sideroblastic anemia. , 1975, The New England journal of medicine.