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      Sudden Cardiac Death Due to Deficiency of the Mitochondrial Inorganic Pyrophosphatase PPA2

      brief-report
      Author(s): 1 , 2 , 20 , 3 , 4 , 20 , 5 , 20 , 6 , 20 , 7 , 1 , 1 , 8 , 9 , 8 , 10 , 11 , 1 , 1 , 22 , 12 , 12 , 13 , 1 , 14 , 23 , 15 , 3 , 4 , 3 , 4 , 3 , 4 , 6 , 6 , 16 , 17 , 18 , 3 , 4 , 3 , 4 , 19 , 1 , 2 , , 5 , 8 , 21 , 3 , 4 , 21 , 1 , 2 , 21 , 6 , 21 , ∗∗
      Publication date (Electronic):
      Journal: American Journal of Human Genetics
      Publisher: Elsevier

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          Abstract

          We have used whole-exome sequencing in ten individuals from four unrelated pedigrees to identify biallelic missense mutations in the nuclear-encoded mitochondrial inorganic pyrophosphatase ( PPA2) that are associated with mitochondrial disease. These individuals show a range of severity, indicating that PPA2 mutations may cause a spectrum of mitochondrial disease phenotypes. Severe symptoms include seizures, lactic acidosis, cardiac arrhythmia, and death within days of birth. In the index family, presentation was milder and manifested as cardiac fibrosis and an exquisite sensitivity to alcohol, leading to sudden arrhythmic cardiac death in the second decade of life. Comparison of normal and mutant PPA2-containing mitochondria from fibroblasts showed that the activity of inorganic pyrophosphatase was significantly reduced in affected individuals. Recombinant PPA2 enzymes modeling hypomorphic missense mutations had decreased activity that correlated with disease severity. These findings confirm the pathogenicity of PPA2 mutations and suggest that PPA2 is a cardiomyopathy-associated protein, which has a greater physiological importance in mitochondrial function than previously recognized.

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          Inorganic and organic phosphate measurements in the nanomolar range.

          P Van Veldhoven, G P Mannaerts (1987)
          A procedure, based on the complex formation of malachite green with phosphomolybdate under acidic conditions, to measure inorganic orthophosphate in the nanomolar range is described. The addition of polyvinyl alcohol is required to stabilize the dye-phosphomolybdate complex. The advantages of the assay are simplicity, stability of the reagents, and high sensitivity. Due to the high permissible acidity in the assay (0.9 N H2SO4), the method can be adapted easily to measure nanomolar amounts of phosphate, liberated from organic compounds like phosphoproteins and phospholipids after wet digestion.
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            Acetyl-CoA synthetase 2, a mitochondrial matrix enzyme involved in the oxidation of acetate.

            J Kondo, K Morikawa, T Fujino (2001)
            Using peptide sequences derived from bovine cardiac acetyl-CoA synthetase (AceCS), we isolated and characterized cDNAs for a bovine and murine cardiac enzyme designated AceCS2. We also isolated a murine cDNA encoding a hepatic type enzyme, designated AceCS1, identical to one reported recently (Luong, A., Hannah, V. C., Brown, M. S., and Goldstein, J. L. (2000) J. Biol. Chem. 275, 26458-26466). Murine AceCS1 and AceCS2 were purified to homogeneity and characterized. Among C2-C5 short and medium chain fatty acids, both enzymes preferentially utilize acetate with similar affinity. The AceCS2 transcripts are expressed in a wide range of tissues, with the highest levels in heart, and are apparently absent from the liver. The levels of AceCS2 mRNA in skeletal muscle were increased markedly under ketogenic conditions. Subcellular fractionation revealed that AceCS2 is a mitochondrial matrix enzyme. [(14)C]Acetate incorporation indicated that acetyl-CoAs produced by AceCS2 are utilized mainly for oxidation.
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              YAP1 dependent activation of TRX2 is essential for the response of Saccharomyces cerevisiae to oxidative stress by hydroperoxides.

              Nina Jones, S Kuge (1994)
              The role of the YAP1 transcription factor in the response of Saccharomyces cerevisiae cells to a variety of conditions that induce oxidative stress has been investigated. Cells deficient in YAP1 were found to be hypersensitive to hydroperoxides and thioloxidants, whereas overexpression of YAP1 conferred hyper-resistance to the same conditions. These treatments resulted in an increase in YAP1-specific binding to DNA together with an increase in YAP1 dependent transcription. Our results indicate that this increase is not due to an increase in synthesis of YAP1 protein, but rather results from modification of pre-existing protein. Using a specific genetic screen, the TRX2 gene, one of two genes of S. cerevisiae that encode thioredoxin protein, was identified as being essential for YAP1 dependent resistance to hydroperoxides. Furthermore, efficient expression of TRX2 was dependent on YAP1 and enhanced under conditions of oxidative stress.
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                Author and article information

                Contributors
                Peter M. George
                Johannes A. Mayr
                Journal
                Journal ID (nlm-ta): Am J Hum Genet
                Journal ID (iso-abbrev): Am. J. Hum. Genet
                Title: American Journal of Human Genetics
                Publisher: Elsevier
                ISSN (Print): 0002-9297
                ISSN (Electronic): 1537-6605
                Publication date PMC-release: 11 August 2016
                Publication date (Print): 01 September 2016
                Publication date (Electronic): 11 August 2016
                Volume: 99
                Issue: 3
                Pages: 674-682
                Affiliations
                [1 ]Molecular Pathology Laboratory, Canterbury Health Laboratories, Canterbury District Health Board, Christchurch 8140, New Zealand
                [2 ]Department of Pathology, University of Otago, Christchurch 8140, New Zealand
                [3 ]Institute of Human Genetics, Helmholtz Zentrum München – German Research Center for Environmental Health, 85764 Neuherberg, Germany
                [4 ]Institute of Human Genetics, Technische Universität München, 81675 Munich, Germany
                [5 ]Section of Ophthalmology & Neurosciences, Leeds Institute of Biomedical and Clinical Sciences, University of Leeds, Leeds LS9 7TF, UK
                [6 ]Department of Pediatrics, Paracelsus Medical University Salzburg, 5020 Salzburg, Austria
                [7 ]Metabolic Unit, University Children’s Hospital Basel (UKBB), 4056 Basel, Switzerland
                [8 ]Wellcome Trust Centre for Mitochondrial Research, Institute of Neuroscience, Newcastle University, Newcastle upon Tyne NE2 4HH, UK
                [9 ]Department of Metabolic Paediatrics, Royal Hospital for Sick Children, Belfast BT12 6BA, UK
                [10 ]Department of Clinical Biochemistry, Royal Victoria Hospital, Belfast BT12 6BA, UK
                [11 ]Department of Pathology, Royal Victoria Hospital, Belfast BT12 6BA, UK
                [12 ]Department of Cardiology, Christchurch Hospital, Canterbury District Health Board, Christchurch 8140, New Zealand
                [13 ]University of Queensland School of Medicine, Brisbane, QLD 4006, Australia
                [14 ]Department of Anatomical Pathology, Christchurch Hospital, Canterbury District Health Board, Christchurch 8140, New Zealand
                [15 ]Department of Life Sciences, Brunel University London, Uxbridge, Middlesex UB8 3PH, UK
                [16 ]Department of Pediatrics, Nijmegen Center for Mitochondrial Disorders, Radboud University Medical Centre, 6500HB Nijmegen, the Netherlands
                [17 ]Department of Neonatology UKBB Bruderholz, University Children’s Hospital Basel, 4056 Basel, Switzerland
                [18 ]Yorkshire Regional Genetics Service, Chapel Allerton Hospital, Leeds LS7 4SA, UK
                [19 ]DZHK (German Centre for Cardiovascular Research), partner site Munich Heart Alliance, 80802 Munich, Germany
                Author notes
                []Corresponding author peter.george@ 123456cdhb.health.nz
                [∗∗ ]Corresponding author h.mayr@ 123456salk.at
                [20]

                These authors contributed equally to this work

                [21]

                These authors contributed equally to this work

                [22]

                Present address: SEALS Genetics Laboratory, Prince of Wales Hospital, Sydney, NSW 2031, Australia

                [23]

                Present address: New Zealand National Forensic Pathology Service, Christchurch 8013, New Zealand

                Article
                Publisher ID: S0002-9297(16)30231-2
                DOI: 10.1016/j.ajhg.2016.06.027
                PMC ID: 5011043
                PubMed ID: 27523597
                SO-VID: 01f50c17-403c-4f13-b6a8-49d4dab38839
                Copyright © © 2016 The Author(s)
                License:

                This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 14 January 2016
                Date accepted : 27 June 2016
                Categories
                Subject: Report

                ScienceOpen disciplines: Genetics
                Data availability:
                ScienceOpen disciplines: Genetics

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