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Título: | Genetic and cellular studies of oxidative stress in methylmalonic aciduria (MMA) cobalamin deficiency type C (cblC) with homocystinuria (MMACHC) | Autores/as: | Richard, Eva Jorge-Finnigan, Ana Garcia-Villoria, Judit Merinero, Begoña Desviat, Lourdes R. Gort, Laura Briones, Paz Leal, Fátima Pérez-Cerdá, Celia Ribes, Antonia Ugarte, Magdalena Pérez, Belén Aguirre, A. Andrés, M. Badía, J. Baldellou, A. Couce, M. L. García-Cazorla, A. García-Silva, M. T. Lama, R. Lopez-Mendoza, S. Martínez-Pardo, M. Olivares, J. L. Parini, R. Parraga, D. Pedrón, C. Peña, L. Pineda, M. Pintos, G. Porta, R. Roselló, P. Ruiz, A. Toro, M. Urbón, A. Vernet, A. Vilaseca, M. A. Yoldi, M. E. |
Clasificación UNESCO: | 32 Ciencias médicas 320102 Genética clínica |
Palabras clave: | Oxidative stress Methylmalonic aciduria Homocystinuria MMACHC |
Fecha de publicación: | 2009 | Publicación seriada: | Human Mutation | Resumen: | Methylmalonic aciduria (MMA) cobalamin deficiency type C (cblC) with homocystinuria (MMACHC) is the most frequent genetic disorder of vitamin B12 metabolism. The aim of this work was to identify the mutational spectrum in a cohort of cblC-affected patients and the analysis of the cellular oxidative stress and apoptosis processes, in the presence or absence of vitamin B12. The mutational spectrum includes nine previously described mutations: c.3G>A (p.M1L), c.217C>T (p.R73X), c.271dupA (p.R91KfsX14), c.331C>T (p.R111X), c.394C>T (p.R132X), c.457C>T (p.R153X), c.481C>T (p.R161X), c.565C>A (p.R189S), and c.615C>G (p.Y205X), and two novel changes, c.90G>A (p.W30X) and c.81+2T>G (IVS1+2T>G). The most frequent change was the known c.271dupA mutation, which accounts for 85% of the mutant alleles characterized in this cohort of patients. Owing to its high frequency, a real-time PCR and subsequent high-resolution melting (HRM) analysis for this mutation has been established for diagnostic purposes. All cell lines studied presented a significant increase of intracellular reactive oxygen species (ROS) content, and also a high rate of apoptosis, suggesting that elevated ROS levels might induce apoptosis in cblC patients. In addition, ROS levels decreased in hydroxocobalamin-incubated cells, indicating that cobalamin might either directly or indirectly act as a scavenger of ROS. ROS production might be considered as a phenotypic modifier in cblC patients, and cobalamin supplementation or additional antioxidant drugs might suppress apoptosis and prevent cellular damage in these patients. | URI: | http://hdl.handle.net/10553/49372 | ISSN: | 1059-7794 | DOI: | 10.1002/humu.21107 | Fuente: | Human Mutation[ISSN 1059-7794],v. 30, p. 1558-1566 (Septiembre 2009) |
Colección: | Artículos |
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