Literature DB >> 30709931

Landscape of Germline and Somatic Mitochondrial DNA Mutations in Pediatric Malignancies.

Petr Triska1,2, Kristiyana Kaneva1,3, Daria Merkurjev1,2, Noor Sohail4, Marni J Falk5,6, Timothy J Triche4, Jaclyn A Biegel7,2, Xiaowu Gai7,2.   

Abstract

Little is known about the spectrum of mitochondrial DNA (mtDNA) mutations across pediatric malignancies. In this study, we analyzed matched tumor and normal whole genome sequencing data from 616 pediatric patients with hematopoietic malignancies, solid tumors, and brain tumors. We identified 391 mtDNA mutations in 284 tumors including 45 loss-of-function mutations, which clustered at four statistically significant hotspots in MT-COX3, MT-ND4, and MT-ND5, and at a mutation hotspot in MT-tRNA-MET. A skewed ratio (4.83) of nonsynonymous versus synonymous (dN/dS) mtDNA mutations with high statistical significance was identified on the basis of Monte Carlo simulations in the tumors. In comparison, opposite ratios of 0.44 and 0.93 were observed in 616 matched normal tissues and in 249 blood samples from children without cancer, respectively. mtDNA mutations varied by cancer type and mtDNA haplogroup. Collectively, these results suggest that deleterious mtDNA mutations play a role in the development and progression of pediatric cancers. SIGNIFICANCE: This pan-cancer mtDNA study establishes the landscape of germline and tumor mtDNA mutations and identifies hotspots of tumor mtDNA mutations to pinpoint key mitochondrial functions in pediatric malignancies. ©2019 American Association for Cancer Research.

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Year:  2019        PMID: 30709931      PMCID: PMC6445760          DOI: 10.1158/0008-5472.CAN-18-2220

Source DB:  PubMed          Journal:  Cancer Res        ISSN: 0008-5472            Impact factor:   12.701


  48 in total

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Authors:  Mukesh Verma; Robert K Naviaux; Masashi Tanaka; Deepak Kumar; Claudio Franceschi; Keshav K Singh
Journal:  Cancer Res       Date:  2007-01-09       Impact factor: 12.701

2.  Re: North American white mitochondrial haplogroups in prostate and renal cancer.

Authors:  Jeffrey A Canter; Asha R Kallianpur; Jay H Fowke
Journal:  J Urol       Date:  2006-11       Impact factor: 7.450

3.  Proteomic and Mitochondrial Genomic Analyses of Pediatric Brain Tumors.

Authors:  Brenda Luna; Sanjiv Bhatia; Changwon Yoo; Quentin Felty; David I Sandberg; Michael Duchowny; Ziad Khatib; Ian Miller; John Ragheb; Jayakar Prasanna; Deodutta Roy
Journal:  Mol Neurobiol       Date:  2014-10-25       Impact factor: 5.590

4.  Inter-genomic cross talk between mitochondria and the nucleus plays an important role in tumorigenesis.

Authors:  Keshav K Singh; Mariola Kulawiec; Ivan Still; Mohamed M Desouki; Joseph Geradts; Sei-Ichi Matsui
Journal:  Gene       Date:  2005-07-18       Impact factor: 3.688

5.  Mitochondrial respiratory complex I dysfunction promotes tumorigenesis through ROS alteration and AKT activation.

Authors:  Lokendra Kumar Sharma; Hezhi Fang; Jiangtao Liu; Rasika Vartak; Janice Deng; Yidong Bai
Journal:  Hum Mol Genet       Date:  2011-09-02       Impact factor: 6.150

Review 6.  Implications of mitochondrial DNA mutations and mitochondrial dysfunction in tumorigenesis.

Authors:  Jianxin Lu; Lokendra Kumar Sharma; Yidong Bai
Journal:  Cell Res       Date:  2009-07       Impact factor: 25.617

7.  A heteroplasmic, not homoplasmic, mitochondrial DNA mutation promotes tumorigenesis via alteration in reactive oxygen species generation and apoptosis.

Authors:  Jeong Soon Park; Lokendra Kumar Sharma; Hongzhi Li; Ruihua Xiang; Deborah Holstein; Jun Wu; James Lechleiter; Susan L Naylor; Janice J Deng; Jianxin Lu; Yidong Bai
Journal:  Hum Mol Genet       Date:  2009-02-10       Impact factor: 6.150

8.  THE METABOLISM OF TUMORS IN THE BODY.

Authors:  O Warburg; F Wind; E Negelein
Journal:  J Gen Physiol       Date:  1927-03-07       Impact factor: 4.086

9.  Mitochondrial dysfunction and risk of cancer.

Authors:  M Lund; M Melbye; L J Diaz; M Duno; J Wohlfahrt; J Vissing
Journal:  Br J Cancer       Date:  2015-03-17       Impact factor: 7.640

10.  Lineage-specific and single-cell chromatin accessibility charts human hematopoiesis and leukemia evolution.

Authors:  M Ryan Corces; Jason D Buenrostro; Beijing Wu; Peyton G Greenside; Steven M Chan; Julie L Koenig; Michael P Snyder; Jonathan K Pritchard; Anshul Kundaje; William J Greenleaf; Ravindra Majeti; Howard Y Chang
Journal:  Nat Genet       Date:  2016-08-15       Impact factor: 38.330
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  16 in total

Review 1.  Mitochondrion: I am more than a fuel server.

Authors:  Santanu Dasgupta
Journal:  Ann Transl Med       Date:  2019-10

Review 2.  Clinical Bioinformatics in Precise Diagnosis of Mitochondrial Disease.

Authors:  Lishuang Shen; Elizabeth M McCormick; Colleen Clarke Muraresku; Marni J Falk; Xiaowu Gai
Journal:  Clin Lab Med       Date:  2020-06       Impact factor: 1.935

3.  Identification of Mitochondrial DNA Variants Associated With Risk of Neuroblastoma.

Authors:  Xiao Chang; Yichuan Liu; Joseph Glessner; Cuiping Hou; Huiqi Qu; Kenny Nguyen; Patrick Sleiman; Lobin Lee; Sharon J Diskin; John M Maris; Hakon Hakonarson
Journal:  J Natl Cancer Inst       Date:  2022-06-13       Impact factor: 11.816

4.  Informatics Methods and Infrastructure Needed to Study Factors Associated with High Incidence of Pediatric Brain and Central Nervous System Tumors in Kentucky.

Authors:  Eric B Durbin; W Jay Christian; Isaac Hands; Mateusz P Koptyra; Jong Cheol Jong; Tom C Badgett
Journal:  J Registry Manag       Date:  2020

Review 5.  Targeting metabolic dependencies in pediatric cancer.

Authors:  Sameer H Issaq; Christine M Heske
Journal:  Curr Opin Pediatr       Date:  2020-02       Impact factor: 2.856

6.  Detection of mitochondrial DNA variants at low level heteroplasmy in pediatric CNS and extra-CNS solid tumors with three different enrichment methods.

Authors:  Kristiyana Kaneva; Daria Merkurjev; Dejerianne Ostrow; Alex Ryutov; Petr Triska; Kevin Stachelek; David Cobrinik; Jaclyn A Biegel; Xiaowu Gai
Journal:  Mitochondrion       Date:  2020-01-20       Impact factor: 4.160

7.  Specifications of the ACMG/AMP standards and guidelines for mitochondrial DNA variant interpretation.

Authors:  Elizabeth M McCormick; Marie T Lott; Matthew C Dulik; Lishuang Shen; Marcella Attimonelli; Ornella Vitale; Amel Karaa; Renkui Bai; Daniel E Pineda-Alvarez; Larry N Singh; Christine M Stanley; Stacey Wong; Anshu Bhardwaj; Daria Merkurjev; Rong Mao; Neal Sondheimer; Shiping Zhang; Vincent Procaccio; Douglas C Wallace; Xiaowu Gai; Marni J Falk
Journal:  Hum Mutat       Date:  2020-11-10       Impact factor: 4.878

8.  Respiratory complex and tissue lineage drive recurrent mutations in tumour mtDNA.

Authors:  Alexander N Gorelick; Minsoo Kim; Walid K Chatila; Konnor La; A Ari Hakimi; Michael F Berger; Barry S Taylor; Payam A Gammage; Ed Reznik
Journal:  Nat Metab       Date:  2021-04-08

9.  Neither Donor nor Recipient Mitochondrial Haplotypes Are Associated with Unrelated Donor Transplant Outcomes: A Validation Study from the CIBMTR.

Authors:  Logan G Spector; Stephen R Spellman; Bharat Thyagarajan; Kenneth B Beckman; Cody Hoffmann; John Garbe; Theresa Hahn; Lara Sucheston-Campbell; Michaela Richardson; Todd E De For; Jakub Tolar; Michael R Verneris
Journal:  Transplant Cell Ther       Date:  2021-06-23

10.  The spectrum of mitochondrial DNA (mtDNA) mutations in pediatric CNS tumors.

Authors:  Kristiyana Kaneva; Katrina O'Halloran; Petr Triska; Xiyu Liu; Daria Merkurjev; Moiz Bootwalla; Alex Ryutov; Jennifer A Cotter; Dejerianne Ostrow; Jaclyn A Biegel; Xiaowu Gai
Journal:  Neurooncol Adv       Date:  2021-06-02
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