Literature DB >> 19086058

An inherited mitochondrial DNA disruptive mutation shifts to homoplasmy in oncocytic tumor cells.

Giuseppe Gasparre1, Luisa Iommarini, Anna Maria Porcelli, Martin Lang, Gian Gaetano Ferri, Ivana Kurelac, Roberta Zuntini, Elisa Mariani, Lucia Fiammetta Pennisi, Ernesto Pasquini, Gianandrea Pasquinelli, Anna Ghelli, Elena Bonora, Claudio Ceccarelli, Michela Rugolo, Nunzio Salfi, Giovanni Romeo, Valerio Carelli.   

Abstract

A disruptive frameshift mtDNA mutation affecting the ND5 subunit of complex I is present in homoplasmy in a nasopharyngeal oncocytic tumor and inherited as a heteroplasmic germline mutation recurring in two of the patient's siblings. Homoplasmic ND5 mutation in the tumor correlates with lack of the ND6 subunit, suggesting complex I disassembly. A few oncocytic areas, expressing ND6 and heteroplasmic for the ND5 mutation, harbor a de novo homoplasmic ND1 mutation. Since shift to homoplasmy of ND1 and ND5 mutations occurs exclusively in tumor cells, we conclude that complex I mutations may have a selective advantage and accompany oncocytic transformation. 2008 Wiley-Liss, Inc.

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Year:  2009        PMID: 19086058     DOI: 10.1002/humu.20870

Source DB:  PubMed          Journal:  Hum Mutat        ISSN: 1059-7794            Impact factor:   4.878


  20 in total

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5.  Genetic Predisposition to Familial Nonmedullary Thyroid Cancer: An Update of Molecular Findings and State-of-the-Art Studies.

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Review 6.  Relevance of mitochondrial genetics and metabolism in cancer development.

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8.  Identification of an mtDNA mutation hot spot in UV-induced mouse skin tumors producing altered cellular biochemistry.

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Review 9.  Mitochondrial complex I and cell death: a semi-automatic shotgun model.

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Review 10.  Somatic mitochondrial DNA mutations in cancer escape purifying selection and high pathogenicity mutations lead to the oncocytic phenotype: pathogenicity analysis of reported somatic mtDNA mutations in tumors.

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