BACKGROUND: Mitochondrial DNA (mtDNA) mutations are important causes of human genetic disease, with mutations in tRNA genes particularly prevalent. In many patients, mutations are heteroplasmic, affecting a population of mtDNA molecules. Establishing the pathogenicity of homoplasmic mitochondrial tRNA (mt-tRNA) mutations, in which the mutation is present in every mtDNA molecule, is extremely difficult. These mutations must conform to specific pathogenic criteria, documenting unequivocally a functional defect of the mutant mt-tRNA. AIMS: To investigate the pathogenic nature of two homoplasmic mt-tRNA(Thr) deletions, m.15940delT (previously reported as pathogenic) and m.15937delA, by assessing the steady state levels of the mutant mt-tRNA in tissue and cell-line samples from six unrelated families, in which affected individuals were thoroughly investigated for mitochondrial DNA disease on the basis of clinical presentations. Rates of de novo mitochondrial protein synthesis were also examined in control and m.15937delA mutant fibroblasts. RESULTS: Our data strongly suggest that both single nucleotide deletions are neutral polymorphisms; no obvious defects were apparent in either steady state mt-tRNA(Thr) levels or rates of mitochondrial protein synthesis. CONCLUSIONS: These findings have important implications for the investigation of other families with suspected mtDNA disease, in particular the requirement to fulfil strict and established pathogenic criteria in order to avoid misattribution of pathogenicity to mt-tRNA variants.
BACKGROUND: Mitochondrial DNA (mtDNA) mutations are important causes of human genetic disease, with mutations in tRNA genes particularly prevalent. In many patients, mutations are heteroplasmic, affecting a population of mtDNA molecules. Establishing the pathogenicity of homoplasmic mitochondrial tRNA (mt-tRNA) mutations, in which the mutation is present in every mtDNA molecule, is extremely difficult. These mutations must conform to specific pathogenic criteria, documenting unequivocally a functional defect of the mutant mt-tRNA. AIMS: To investigate the pathogenic nature of two homoplasmic mt-tRNA(Thr) deletions, m.15940delT (previously reported as pathogenic) and m.15937delA, by assessing the steady state levels of the mutant mt-tRNA in tissue and cell-line samples from six unrelated families, in which affected individuals were thoroughly investigated for mitochondrial DNA disease on the basis of clinical presentations. Rates of de novo mitochondrial protein synthesis were also examined in control and m.15937delA mutant fibroblasts. RESULTS: Our data strongly suggest that both single nucleotide deletions are neutral polymorphisms; no obvious defects were apparent in either steady state mt-tRNA(Thr) levels or rates of mitochondrial protein synthesis. CONCLUSIONS: These findings have important implications for the investigation of other families with suspected mtDNA disease, in particular the requirement to fulfil strict and established pathogenic criteria in order to avoid misattribution of pathogenicity to mt-tRNA variants.
Authors: Sarah E Calvo; Alison G Compton; Steven G Hershman; Sze Chern Lim; Daniel S Lieber; Elena J Tucker; Adrienne Laskowski; Caterina Garone; Shangtao Liu; David B Jaffe; John Christodoulou; Janice M Fletcher; Damien L Bruno; Jack Goldblatt; Salvatore Dimauro; David R Thorburn; Vamsi K Mootha Journal: Sci Transl Med Date: 2012-01-25 Impact factor: 17.956
Authors: Joanna L Elson; Mary G Sweeney; Vincent Procaccio; John W Yarham; Antonio Salas; Qing-Peng Kong; Francois H van der Westhuizen; Robert D S Pitceathly; David R Thorburn; Marie T Lott; Douglas C Wallace; Robert W Taylor; Robert McFarland Journal: Hum Mutat Date: 2012-07-02 Impact factor: 4.878
Authors: Helen A L Tuppen; Karin Naess; Nancy G Kennaway; Mazhor Al-Dosary; Nicole Lesko; John W Yarham; Helene Bruhn; Rolf Wibom; Inger Nennesmo; Richard G Weleber; Emma L Blakely; Robert W Taylor; Robert McFarland Journal: Eur J Hum Genet Date: 2012-02-29 Impact factor: 4.246
Authors: Paul M Smith; Joanna L Elson; Laura C Greaves; Saskia B Wortmann; Richard J T Rodenburg; Robert N Lightowlers; Zofia M A Chrzanowska-Lightowlers; Robert W Taylor; Antón Vila-Sanjurjo Journal: Hum Mol Genet Date: 2013-10-02 Impact factor: 6.150
Authors: Rita Horvath; John P Kemp; Helen A L Tuppen; Gavin Hudson; Anders Oldfors; Suely K N Marie; Ali-Reza Moslemi; Serenella Servidei; Elisabeth Holme; Sara Shanske; Gittan Kollberg; Parul Jayakar; Angela Pyle; Harold M Marks; Elke Holinski-Feder; Mena Scavina; Maggie C Walter; Jorida Coku; Andrea Günther-Scholz; Paul M Smith; Robert McFarland; Zofia M A Chrzanowska-Lightowlers; Robert N Lightowlers; Michio Hirano; Hanns Lochmüller; Robert W Taylor; Patrick F Chinnery; Mar Tulinius; Salvatore DiMauro Journal: Brain Date: 2009-08-31 Impact factor: 13.501