Origins and functional consequences of somatic mitochondrial DNA mutations in human cancer

Young S.eok Ju; Steve Bova; Ludmil B. Alexandrov; Moritz Gerstung; Inigo Martincorena; Serena Nik-Zainal; Manasa Ramakrishna; Helen R. Davies; Elli Papaemmanuil; Gunes Gundem; Adam Shlien; Niccolo Bolli; Sam Behjati; Patrick S. Tarpey; Jyoti Nangalia; Charles E. Massie; Adam P. Butler; Jon W. Teague; George S. Vassiliou; Anthony R. Green; Ming Qing Du; Ashwin Unnikrishnan; John E. Pimanda; Bin T.ean Teh; Nikhil Munshi; Mel Greaves; Paresh Vyas; Adel K. El-Naggar; Tom Santarius; V. Peter Collins; Richard Grundy; Jack A. Taylor; D. Neil Hayes; David Malkin; Christopher S. Foster; Anne Y. Warren; Hayley C. Whitaker; Daniel Brewer; Rosalind Eeles; Colin Cooper; David Neal; Tapio Visakorpi; William B. Isaacs; Adrienne M. Flanagan; P. Andrew Futreal; Andy G. Lynch; Patrick F. Chinnery; Ultan McDermott; Michael R. Stratton; Peter J. Campbell

doi:10.7554/elife.02935

Origins and functional consequences of somatic mitochondrial DNA mutations in human cancer

Young S.eok Ju, Steve Bova, Ludmil B. Alexandrov, Moritz Gerstung, Inigo Martincorena, Serena Nik-Zainal, Manasa Ramakrishna, Helen R. Davies, Elli Papaemmanuil, Gunes Gundem, Adam Shlien, Niccolo Bolli, Sam Behjati, Patrick S. Tarpey, Jyoti Nangalia, Charles E. Massie, Adam P. Butler, Jon W. Teague, George S. Vassiliou, Anthony R. GreenMing Qing Du, Ashwin Unnikrishnan, John E. Pimanda, Bin T.ean Teh, Nikhil Munshi, Mel Greaves, Paresh Vyas, Adel K. El-Naggar, Tom Santarius, V. Peter Collins, Richard Grundy, Jack A. Taylor, D. Neil Hayes, David Malkin, Christopher S. Foster, Anne Y. Warren, Hayley C. Whitaker, Daniel Brewer, Rosalind Eeles, Colin Cooper, David Neal, Tapio Visakorpi, William B. Isaacs, Adrienne M. Flanagan, P. Andrew Futreal, Andy G. Lynch, Patrick F. Chinnery, Ultan McDermott, Michael R. Stratton, Peter J. Campbell

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Tutkimustuotos: Artikkeli › Scientific › vertaisarvioitu

187 Sitaatiot (Scopus)

Abstrakti

Recent sequencing studies have extensively explored the somatic alterations present in the nuclear genomes of cancers. Although mitochondria control energy metabolism and apoptosis, the origins and impact of cancer-associated mutations in mtDNA are unclear. In this study, we analyzed somatic alterations in mtDNA from 1675 tumors. We identified 1907 somatic substitutions, which exhibited dramatic replicative strand bias, predominantly C > T and A > G on the mitochondrial heavy strand. This strand-asymmetric signature differs from those found in nuclear cancer genomes but matches the inferred germline process shaping primate mtDNA sequence content. A number of mtDNA mutations showed considerable heterogeneity across tumor types. Missense mutations were selectively neutral and often gradually drifted towards homoplasmy over time. In contrast, mutations resulting in protein truncation undergo negative selection and were almost exclusively heteroplasmic. Our findings indicate that the endogenous mutational mechanism has far greater impact than any other external mutagens in mitochondria and is fundamentally linked to mtDNA replication.

Alkuperäiskieli	Englanti
Sivut	e02935
Julkaisu	eLIFE
Vuosikerta	3
DOI - pysyväislinkit	https://doi.org/10.7554/elife.02935
Tila	Julkaistu - 2014
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

Tutkimusalat

cancer genome
evolution
evolutionary biology
genomics
human
mitochondrial DNA
mutational signature
sequencing
somatic mutation

Julkaisufoorumi-taso

Jufo-taso 1

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Tämä tuotos edistää seuraavia kestävän kehityksen tavoitteita:

Pääsy asiakirjaan

10.7554/elife.02935

http://urn.fi/urn:nbn:fi:uta-201609292370

Siteeraa tätä

Ju, Y. S. E., Bova, S., Alexandrov, L. B., Gerstung, M., Martincorena, I., Nik-Zainal, S., Ramakrishna, M., Davies, H. R., Papaemmanuil, E., Gundem, G., Shlien, A., Bolli, N., Behjati, S., Tarpey, P. S., Nangalia, J., Massie, C. E., Butler, A. P., Teague, J. W., Vassiliou, G. S., ... Campbell, P. J. (2014). Origins and functional consequences of somatic mitochondrial DNA mutations in human cancer. eLIFE, 3, e02935. https://doi.org/10.7554/elife.02935

@article{d181112c71f449368e2e12e5c2fbffbc,

title = "Origins and functional consequences of somatic mitochondrial DNA mutations in human cancer",

abstract = "Recent sequencing studies have extensively explored the somatic alterations present in the nuclear genomes of cancers. Although mitochondria control energy metabolism and apoptosis, the origins and impact of cancer-associated mutations in mtDNA are unclear. In this study, we analyzed somatic alterations in mtDNA from 1675 tumors. We identified 1907 somatic substitutions, which exhibited dramatic replicative strand bias, predominantly C > T and A > G on the mitochondrial heavy strand. This strand-asymmetric signature differs from those found in nuclear cancer genomes but matches the inferred germline process shaping primate mtDNA sequence content. A number of mtDNA mutations showed considerable heterogeneity across tumor types. Missense mutations were selectively neutral and often gradually drifted towards homoplasmy over time. In contrast, mutations resulting in protein truncation undergo negative selection and were almost exclusively heteroplasmic. Our findings indicate that the endogenous mutational mechanism has far greater impact than any other external mutagens in mitochondria and is fundamentally linked to mtDNA replication. ",

keywords = "cancer genome, evolution, evolutionary biology, genomics, human, mitochondrial DNA, mutational signature, sequencing, somatic mutation, cancer genome, evolution, evolutionary biology, genomics, human, mitochondrial DNA, mutational signature, sequencing, somatic mutation",

author = "Ju, {Young S.eok} and Steve Bova and Alexandrov, {Ludmil B.} and Moritz Gerstung and Inigo Martincorena and Serena Nik-Zainal and Manasa Ramakrishna and Davies, {Helen R.} and Elli Papaemmanuil and Gunes Gundem and Adam Shlien and Niccolo Bolli and Sam Behjati and Tarpey, {Patrick S.} and Jyoti Nangalia and Massie, {Charles E.} and Butler, {Adam P.} and Teague, {Jon W.} and Vassiliou, {George S.} and Green, {Anthony R.} and Du, {Ming Qing} and Ashwin Unnikrishnan and Pimanda, {John E.} and Teh, {Bin T.ean} and Nikhil Munshi and Mel Greaves and Paresh Vyas and El-Naggar, {Adel K.} and Tom Santarius and Collins, {V. Peter} and Richard Grundy and Taylor, {Jack A.} and Hayes, {D. Neil} and David Malkin and Foster, {Christopher S.} and Warren, {Anne Y.} and Whitaker, {Hayley C.} and Daniel Brewer and Rosalind Eeles and Colin Cooper and David Neal and Tapio Visakorpi and Isaacs, {William B.} and Flanagan, {Adrienne M.} and Futreal, {P. Andrew} and Lynch, {Andy G.} and Chinnery, {Patrick F.} and Ultan McDermott and Stratton, {Michael R.} and Campbell, {Peter J.}",

year = "2014",

doi = "10.7554/elife.02935",

language = "English",

volume = "3",

pages = "e02935",

journal = "eLIFE",

issn = "2050-084X",

}

Ju, YSE, Bova, S, Alexandrov, LB, Gerstung, M, Martincorena, I, Nik-Zainal, S, Ramakrishna, M, Davies, HR, Papaemmanuil, E, Gundem, G, Shlien, A, Bolli, N, Behjati, S, Tarpey, PS, Nangalia, J, Massie, CE, Butler, AP, Teague, JW, Vassiliou, GS, Green, AR, Du, MQ, Unnikrishnan, A, Pimanda, JE, Teh, BTE, Munshi, N, Greaves, M, Vyas, P, El-Naggar, AK, Santarius, T, Collins, VP, Grundy, R, Taylor, JA, Hayes, DN, Malkin, D, Foster, CS, Warren, AY, Whitaker, HC, Brewer, D, Eeles, R, Cooper, C, Neal, D, Visakorpi, T, Isaacs, WB, Flanagan, AM, Futreal, PA, Lynch, AG, Chinnery, PF, McDermott, U, Stratton, MR & Campbell, PJ 2014, 'Origins and functional consequences of somatic mitochondrial DNA mutations in human cancer', eLIFE, Vuosikerta 3, Sivut e02935. https://doi.org/10.7554/elife.02935

TY - JOUR

T1 - Origins and functional consequences of somatic mitochondrial DNA mutations in human cancer

AU - Ju, Young S.eok

AU - Bova, Steve

AU - Alexandrov, Ludmil B.

AU - Gerstung, Moritz

AU - Martincorena, Inigo

AU - Nik-Zainal, Serena

AU - Ramakrishna, Manasa

AU - Davies, Helen R.

AU - Papaemmanuil, Elli

AU - Gundem, Gunes

AU - Shlien, Adam

AU - Bolli, Niccolo

AU - Behjati, Sam

AU - Tarpey, Patrick S.

AU - Nangalia, Jyoti

AU - Massie, Charles E.

AU - Butler, Adam P.

AU - Teague, Jon W.

AU - Vassiliou, George S.

AU - Green, Anthony R.

AU - Du, Ming Qing

AU - Unnikrishnan, Ashwin

AU - Pimanda, John E.

AU - Teh, Bin T.ean

AU - Munshi, Nikhil

AU - Greaves, Mel

AU - Vyas, Paresh

AU - El-Naggar, Adel K.

AU - Santarius, Tom

AU - Collins, V. Peter

AU - Grundy, Richard

AU - Taylor, Jack A.

AU - Hayes, D. Neil

AU - Malkin, David

AU - Foster, Christopher S.

AU - Warren, Anne Y.

AU - Whitaker, Hayley C.

AU - Brewer, Daniel

AU - Eeles, Rosalind

AU - Cooper, Colin

AU - Neal, David

AU - Visakorpi, Tapio

AU - Isaacs, William B.

AU - Flanagan, Adrienne M.

AU - Futreal, P. Andrew

AU - Lynch, Andy G.

AU - Chinnery, Patrick F.

AU - McDermott, Ultan

AU - Stratton, Michael R.

AU - Campbell, Peter J.

PY - 2014

Y1 - 2014

N2 - Recent sequencing studies have extensively explored the somatic alterations present in the nuclear genomes of cancers. Although mitochondria control energy metabolism and apoptosis, the origins and impact of cancer-associated mutations in mtDNA are unclear. In this study, we analyzed somatic alterations in mtDNA from 1675 tumors. We identified 1907 somatic substitutions, which exhibited dramatic replicative strand bias, predominantly C > T and A > G on the mitochondrial heavy strand. This strand-asymmetric signature differs from those found in nuclear cancer genomes but matches the inferred germline process shaping primate mtDNA sequence content. A number of mtDNA mutations showed considerable heterogeneity across tumor types. Missense mutations were selectively neutral and often gradually drifted towards homoplasmy over time. In contrast, mutations resulting in protein truncation undergo negative selection and were almost exclusively heteroplasmic. Our findings indicate that the endogenous mutational mechanism has far greater impact than any other external mutagens in mitochondria and is fundamentally linked to mtDNA replication.

AB - Recent sequencing studies have extensively explored the somatic alterations present in the nuclear genomes of cancers. Although mitochondria control energy metabolism and apoptosis, the origins and impact of cancer-associated mutations in mtDNA are unclear. In this study, we analyzed somatic alterations in mtDNA from 1675 tumors. We identified 1907 somatic substitutions, which exhibited dramatic replicative strand bias, predominantly C > T and A > G on the mitochondrial heavy strand. This strand-asymmetric signature differs from those found in nuclear cancer genomes but matches the inferred germline process shaping primate mtDNA sequence content. A number of mtDNA mutations showed considerable heterogeneity across tumor types. Missense mutations were selectively neutral and often gradually drifted towards homoplasmy over time. In contrast, mutations resulting in protein truncation undergo negative selection and were almost exclusively heteroplasmic. Our findings indicate that the endogenous mutational mechanism has far greater impact than any other external mutagens in mitochondria and is fundamentally linked to mtDNA replication.

KW - cancer genome

KW - evolution

KW - evolutionary biology

KW - genomics

KW - human

KW - mitochondrial DNA

KW - mutational signature

KW - sequencing

KW - somatic mutation

KW - cancer genome

KW - evolution

KW - evolutionary biology

KW - genomics

KW - human

KW - mitochondrial DNA

KW - mutational signature

KW - sequencing

KW - somatic mutation

U2 - 10.7554/elife.02935

DO - 10.7554/elife.02935

M3 - Article

AN - SCOPUS:84994324806

SN - 2050-084X

VL - 3

SP - e02935

JO - eLIFE

JF - eLIFE

ER -

Origins and functional consequences of somatic mitochondrial DNA mutations in human cancer

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