Literature DB >> 26537577

LARS2 Variants Associated with Hydrops, Lactic Acidosis, Sideroblastic Anemia, and Multisystem Failure.

Lisa G Riley1,2, Joëlle Rudinger-Thirion3, Klaus Schmitz-Abe4,5,6, David R Thorburn7, Ryan L Davis8, Juliana Teo9, Susan Arbuckle10, Sandra T Cooper11,12, Dean R Campagna13, Magali Frugier3, Kyriacos Markianos4,5, Carolyn M Sue8, Mark D Fleming13, John Christodoulou14,11,15.   

Abstract

Pathogenic variants in mitochondrial aminoacyl-tRNA synthetases result in a broad range of mitochondrial respiratory chain disorders despite their shared role in mitochondrial protein synthesis. LARS2 encodes the mitochondrial leucyl-tRNA synthetase, which attaches leucine to its cognate tRNA. Sequence variants in LARS2 have previously been associated with Perrault syndrome, characterized by premature ovarian failure and hearing loss (OMIM #615300). In this study, we report variants in LARS2 that are associated with a severe multisystem metabolic disorder. The proband was born prematurely with severe lactic acidosis, hydrops, and sideroblastic anemia. She had multisystem complications with hyaline membrane disease, impaired cardiac function, a coagulopathy, pulmonary hypertension, and progressive renal disease and succumbed at 5 days of age. Whole exome sequencing of patient DNA revealed compound heterozygous variants in LARS2 (c.1289C>T; p.Ala430Val and c.1565C>A; p.Thr522Asn). The c.1565C>A (p.Thr522Asn) LARS2 variant has previously been associated with Perrault syndrome and both identified variants are predicted to be damaging (SIFT, PolyPhen). Muscle and liver samples from the proband did not display marked mitochondrial respiratory chain enzyme deficiency. Immunoblotting of patient muscle and liver showed LARS2 levels were reduced in liver and complex I protein levels were reduced in patient muscle and liver. Aminoacylation assays revealed p.Ala430Val LARS2 had an 18-fold loss of catalytic efficiency and p.Thr522Asn a 9-fold loss compared to wild-type LARS2. We suggest that the identified LARS2 variants are responsible for the severe multisystem clinical phenotype seen in this baby and that mutations in LARS2 can result in variable phenotypes.

Entities:  

Year:  2015        PMID: 26537577      PMCID: PMC5059179          DOI: 10.1007/8904_2015_515

Source DB:  PubMed          Journal:  JIMD Rep        ISSN: 2192-8304


  29 in total

1.  Towards understanding human mitochondrial leucine aminoacylation identity.

Authors:  Bénédicte Sohm; Magali Frugier; Hervé Brulé; Krzysztof Olszak; Anna Przykorska; Catherine Florentz
Journal:  J Mol Biol       Date:  2003-05-16       Impact factor: 5.469

2.  Biochemical analyses of the electron transport chain complexes by spectrophotometry.

Authors:  Ann E Frazier; David R Thorburn
Journal:  Methods Mol Biol       Date:  2012

Review 3.  Mitochondrial aminoacyl-tRNA synthetases in human disease.

Authors:  Svetlana Konovalova; Henna Tyynismaa
Journal:  Mol Genet Metab       Date:  2013-01-26       Impact factor: 4.797

4.  Mutations in LARS2, encoding mitochondrial leucyl-tRNA synthetase, lead to premature ovarian failure and hearing loss in Perrault syndrome.

Authors:  Sarah B Pierce; Ksenija Gersak; Rachel Michaelson-Cohen; Tom Walsh; Ming K Lee; Daniel Malach; Rachel E Klevit; Mary-Claire King; Ephrat Levy-Lahad
Journal:  Am J Hum Genet       Date:  2013-03-28       Impact factor: 11.025

5.  Yeast mitochondrial leucyl-tRNA synthetase CP1 domain has functionally diverged to accommodate RNA splicing at expense of hydrolytic editing.

Authors:  Jaya Sarkar; Kiranmai Poruri; Michal T Boniecki; Katherine K McTavish; Susan A Martinis
Journal:  J Biol Chem       Date:  2012-03-01       Impact factor: 5.157

6.  Mutations in the mitochondrial seryl-tRNA synthetase cause hyperuricemia, pulmonary hypertension, renal failure in infancy and alkalosis, HUPRA syndrome.

Authors:  Ruth Belostotsky; Efrat Ben-Shalom; Choni Rinat; Rachel Becker-Cohen; Sofia Feinstein; Sharon Zeligson; Reeval Segel; Orly Elpeleg; Suheir Nassar; Yaacov Frishberg
Journal:  Am J Hum Genet       Date:  2011-01-20       Impact factor: 11.025

7.  Exome sequencing identifies mitochondrial alanyl-tRNA synthetase mutations in infantile mitochondrial cardiomyopathy.

Authors:  Alexandra Götz; Henna Tyynismaa; Liliya Euro; Pekka Ellonen; Tuulia Hyötyläinen; Tiina Ojala; Riikka H Hämäläinen; Johanna Tommiska; Taneli Raivio; Matej Oresic; Riitta Karikoski; Outi Tammela; Kalle O J Simola; Anders Paetau; Tiina Tyni; Anu Suomalainen
Journal:  Am J Hum Genet       Date:  2011-05-05       Impact factor: 11.025

8.  A novel homozygous YARS2 mutation causes severe myopathy, lactic acidosis, and sideroblastic anemia 2.

Authors:  Junya Nakajima; Tuba F Eminoglu; Goksel Vatansever; Mitsuko Nakashima; Yoshinori Tsurusaki; Hirotomo Saitsu; Hisashi Kawashima; Naomichi Matsumoto; Noriko Miyake
Journal:  J Hum Genet       Date:  2014-01-16       Impact factor: 3.172

9.  A mitochondrial protein compendium elucidates complex I disease biology.

Authors:  David J Pagliarini; Sarah E Calvo; Betty Chang; Sunil A Sheth; Scott B Vafai; Shao-En Ong; Geoffrey A Walford; Canny Sugiana; Avihu Boneh; William K Chen; David E Hill; Marc Vidal; James G Evans; David R Thorburn; Steven A Carr; Vamsi K Mootha
Journal:  Cell       Date:  2008-07-11       Impact factor: 41.582

10.  Mutations in TRNT1 cause congenital sideroblastic anemia with immunodeficiency, fevers, and developmental delay (SIFD).

Authors:  Pranesh K Chakraborty; Klaus Schmitz-Abe; Erin K Kennedy; Hapsatou Mamady; Turaya Naas; Danielle Durie; Dean R Campagna; Ashley Lau; Anoop K Sendamarai; Daniel H Wiseman; Alison May; Stephen Jolles; Philip Connor; Colin Powell; Matthew M Heeney; Patricia-Jane Giardina; Robert J Klaassen; Caroline Kannengiesser; Isabelle Thuret; Alexis A Thompson; Laura Marques; Stephen Hughes; Denise K Bonney; Sylvia S Bottomley; Robert F Wynn; Ronald M Laxer; Caterina P Minniti; John Moppett; Victoria Bordon; Michael Geraghty; Paul B M Joyce; Kyriacos Markianos; Adam D Rudner; Martin Holcik; Mark D Fleming
Journal:  Blood       Date:  2014-09-05       Impact factor: 22.113
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  22 in total

Review 1.  Emerging mechanisms of aminoacyl-tRNA synthetase mutations in recessive and dominant human disease.

Authors:  Rebecca Meyer-Schuman; Anthony Antonellis
Journal:  Hum Mol Genet       Date:  2017-10-01       Impact factor: 6.150

2.  Mutations in methionyl-tRNA synthetase gene in a Chinese family with interstitial lung and liver disease, postnatal growth failure and anemia.

Authors:  Yu Sun; Guorui Hu; Jihang Luo; Di Fang; Yongguo Yu; Xiang Wang; Jing Chen; Wenjuan Qiu
Journal:  J Hum Genet       Date:  2017-02-02       Impact factor: 3.172

Review 3.  Predicting the pathogenicity of aminoacyl-tRNA synthetase mutations.

Authors:  Stephanie N Oprescu; Laurie B Griffin; Asim A Beg; Anthony Antonellis
Journal:  Methods       Date:  2016-11-20       Impact factor: 3.608

4.  Cysteinyl-tRNA Synthetase Mutations Cause a Multi-System, Recessive Disease That Includes Microcephaly, Developmental Delay, and Brittle Hair and Nails.

Authors:  Molly E Kuo; Arjan F Theil; Anneke Kievit; May Christine Malicdan; Wendy J Introne; Thomas Christian; Frans W Verheijen; Desiree E C Smith; Marisa I Mendes; Lidia Hussaarts-Odijk; Eric van der Meijden; Marjon van Slegtenhorst; Martina Wilke; Wim Vermeulen; Anja Raams; Catherine Groden; Shino Shimada; Rebecca Meyer-Schuman; Ya Ming Hou; William A Gahl; Anthony Antonellis; Gajja S Salomons; Grazia M S Mancini
Journal:  Am J Hum Genet       Date:  2019-02-26       Impact factor: 11.025

Review 5.  tRNA Metabolism and Neurodevelopmental Disorders.

Authors:  Ashleigh E Schaffer; Otis Pinkard; Jeffery M Coller
Journal:  Annu Rev Genomics Hum Genet       Date:  2019-05-13       Impact factor: 8.929

6.  Clinical Features, Molecular Heterogeneity, and Prognostic Implications in YARS2-Related Mitochondrial Myopathy.

Authors:  Ewen W Sommerville; Yi Shiau Ng; Charlotte L Alston; Cristina Dallabona; Micol Gilberti; Langping He; Charlotte Knowles; Sophie L Chin; Andrew M Schaefer; Gavin Falkous; David Murdoch; Cheryl Longman; Marianne de Visser; Laurence A Bindoff; John M Rawles; John C S Dean; Richard K Petty; Maria E Farrugia; Tobias B Haack; Holger Prokisch; Robert McFarland; Douglass M Turnbull; Claudia Donnini; Robert W Taylor; Gráinne S Gorman
Journal:  JAMA Neurol       Date:  2017-06-01       Impact factor: 18.302

7.  Renal manifestations of primary mitochondrial disorders.

Authors:  Josef Finsterer; Fulvio Alexandre Scorza
Journal:  Biomed Rep       Date:  2017-04-12

Review 8.  When a common biological role does not imply common disease outcomes: Disparate pathology linked to human mitochondrial aminoacyl-tRNA synthetases.

Authors:  Ligia Elena González-Serrano; Joseph W Chihade; Marie Sissler
Journal:  J Biol Chem       Date:  2019-01-15       Impact factor: 5.157

Review 9.  Patient care standards for primary mitochondrial disease: a consensus statement from the Mitochondrial Medicine Society.

Authors:  Sumit Parikh; Amy Goldstein; Amel Karaa; Mary Kay Koenig; Irina Anselm; Catherine Brunel-Guitton; John Christodoulou; Bruce H Cohen; David Dimmock; Gregory M Enns; Marni J Falk; Annette Feigenbaum; Richard E Frye; Jaya Ganesh; David Griesemer; Richard Haas; Rita Horvath; Mark Korson; Michael C Kruer; Michelangelo Mancuso; Shana McCormack; Marie Josee Raboisson; Tyler Reimschisel; Ramona Salvarinova; Russell P Saneto; Fernando Scaglia; John Shoffner; Peter W Stacpoole; Carolyn M Sue; Mark Tarnopolsky; Clara Van Karnebeek; Lynne A Wolfe; Zarazuela Zolkipli Cunningham; Shamima Rahman; Patrick F Chinnery
Journal:  Genet Med       Date:  2017-07-27       Impact factor: 8.822

Review 10.  New insights into Perrault syndrome, a clinically and genetically heterogeneous disorder.

Authors:  Rabia Faridi; Alessandro Rea; Cristina Fenollar-Ferrer; Raymond T O'Keefe; Shoujun Gu; Zunaira Munir; Asma Ali Khan; Sheikh Riazuddin; Michael Hoa; Sadaf Naz; William G Newman; Thomas B Friedman
Journal:  Hum Genet       Date:  2021-08-02       Impact factor: 4.132
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