Your search keyword '"Anna Szőcs"' showing total 2 results

1. Pseudouridylation defect due to DKC1 and NOP10 mutations causes nephrotic syndrome with cataracts, hearing impairment, and enterocolitis

Author

Detlef Bockenhauer, François Dragon, Christelle Arrondel, Ákos Szekeres, Kristóf Perczel, Wei-Li Di, Susanne Motameny, Attila Fintha, Maria Kolatsi-Joannou, Eszter Jávorszky, Guillaume Dorval, Salah Marzouk, Kazunori Tomita, Jennifer C. Chandler, Peter Nürnberg, Gusztáv Schay, Veronica A. Kinsler, Ahmed Hossain, Andrea Kerti, András Perczel, Hafsa Hammid, Magdolna Kardos, William Mifsud, Florentina Sava, David Curtis, Corinne Antignac, Felipe D’Arco, Aoife M. Waters, Géraldine Mollet, Mona Tahoun, Gergely Toldi, Tivadar Tulassay, Ana Faro, Anna Szőcs, Jutta Koeglmeier, Kata Kelen, Marwa H. Saied, Holger Thiele, Hywel Williams, Kálmán Tory, Renáta Hamar, Erika Maka, Mario Kaliakatsos, Mariya Moosajee, Gábor Rudas, Máté Varga, Eszter Balogh, Attila Szabo, Dóra K. Menyhárd, Horia Stanescu, Tomas Goncalves, Olivier Gribouval, Regina Légrádi, George S. Reusz, Robert Kleta, Judit Götze, and David A. Long

Subjects

0301 basic medicine, Genetics, Multidisciplinary, RNA, Biology, medicine.disease, Pediatrics, Pseudouridine, Dyskerin, Telomere, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, 0302 clinical medicine, Telomerer, chemistry, Cataracts, H/ACA snoRNP, medicine, Pseudouridylation, Small nucleolar RNA, 030217 neurology & neurosurgery, Dyskeratosis congenita, Ribonucleoprotein

Abstract

RNA modifications play a fundamental role in cellular function. Pseudouridylation, the most abundant RNA modification, is catalyzed by the H/ACA small ribonucleoprotein (snoRNP) complex that shares four core proteins, dyskerin (DKC1), NOP10, NHP2, and GAR1. Mutations in DKC1 , NOP10 , or NHP2 cause dyskeratosis congenita (DC), a disorder characterized by telomere attrition. Here, we report a phenotype comprising nephrotic syndrome, cataracts, sensorineural deafness, enterocolitis, and early lethality in two pedigrees: males with DKC1 p.Glu206Lys and two children with homozygous NOP10 p.Thr16Met. Females with heterozygous DKC1 p.Glu206Lys developed cataracts and sensorineural deafness, but nephrotic syndrome in only one case of skewed X-inactivation. We found telomere attrition in both pedigrees, but no mucocutaneous abnormalities suggestive of DC. Both mutations fall at the dyskerin–NOP10 binding interface in a region distinct from those implicated in DC, impair the dyskerin–NOP10 interaction, and disrupt the catalytic pseudouridylation site. Accordingly, we found reduced pseudouridine levels in the ribosomal RNA (rRNA) of the patients. Zebrafish dkc1 mutants recapitulate the human phenotype and show reduced 18S pseudouridylation, ribosomal dysregulation, and a cell-cycle defect in the absence of telomere attrition. We therefore propose that this human disorder is the consequence of defective snoRNP pseudouridylation and ribosomal dysfunction.

Published

2020

2. Pseudouridylation defect due to

Author

Eszter, Balogh, Jennifer C, Chandler, Máté, Varga, Mona, Tahoun, Dóra K, Menyhárd, Gusztáv, Schay, Tomas, Goncalves, Renáta, Hamar, Regina, Légrádi, Ákos, Szekeres, Olivier, Gribouval, Robert, Kleta, Horia, Stanescu, Detlef, Bockenhauer, Andrea, Kerti, Hywel, Williams, Veronica, Kinsler, Wei-Li, Di, David, Curtis, Maria, Kolatsi-Joannou, Hafsa, Hammid, Anna, Szőcs, Kristóf, Perczel, Erika, Maka, Gergely, Toldi, Florentina, Sava, Christelle, Arrondel, Magdolna, Kardos, Attila, Fintha, Ahmed, Hossain, Felipe, D'Arco, Mario, Kaliakatsos, Jutta, Koeglmeier, William, Mifsud, Mariya, Moosajee, Ana, Faro, Eszter, Jávorszky, Gábor, Rudas, Marwa H, Saied, Salah, Marzouk, Kata, Kelen, Judit, Götze, George, Reusz, Tivadar, Tulassay, François, Dragon, Géraldine, Mollet, Susanne, Motameny, Holger, Thiele, Guillaume, Dorval, Peter, Nürnberg, András, Perczel, Attila J, Szabó, David A, Long, Kazunori, Tomita, Corinne, Antignac, Aoife M, Waters, and Kálmán, Tory

Subjects

Male, Models, Molecular, Nephrotic Syndrome, Enterocolitis, Protein Conformation, Hearing Loss, Sensorineural, Longevity, Nuclear Proteins, Cell Cycle Proteins, Molecular Dynamics Simulation, Biological Sciences, Cataract, Pedigree, RNA, Ribosomal, Ribonucleoproteins, Small Nucleolar, Mutation, Animals, Humans, Female, Genetic Predisposition to Disease, Child, Zebrafish

Abstract

RNA modifications play a fundamental role in cellular function. Pseudouridylation, the most abundant RNA modification, is catalyzed by the H/ACA small ribonucleoprotein (snoRNP) complex that shares four core proteins, dyskerin (DKC1), NOP10, NHP2, and GAR1. Mutations in DKC1, NOP10, or NHP2 cause dyskeratosis congenita (DC), a disorder characterized by telomere attrition. Here, we report a phenotype comprising nephrotic syndrome, cataracts, sensorineural deafness, enterocolitis, and early lethality in two pedigrees: males with DKC1 p.Glu206Lys and two children with homozygous NOP10 p.Thr16Met. Females with heterozygous DKC1 p.Glu206Lys developed cataracts and sensorineural deafness, but nephrotic syndrome in only one case of skewed X-inactivation. We found telomere attrition in both pedigrees, but no mucocutaneous abnormalities suggestive of DC. Both mutations fall at the dyskerin–NOP10 binding interface in a region distinct from those implicated in DC, impair the dyskerin–NOP10 interaction, and disrupt the catalytic pseudouridylation site. Accordingly, we found reduced pseudouridine levels in the ribosomal RNA (rRNA) of the patients. Zebrafish dkc1 mutants recapitulate the human phenotype and show reduced 18S pseudouridylation, ribosomal dysregulation, and a cell-cycle defect in the absence of telomere attrition. We therefore propose that this human disorder is the consequence of defective snoRNP pseudouridylation and ribosomal dysfunction.

Published

2020