A hypermutation phenotype and somatic MSH6 mutations in recurrent human malignant gliomas after alkylator chemotherapy

Chris Hunter; Raffaella Smith; Daniel P. Cahill; Philip Stephens; Claire Stevens; Jon Teague; Chris Greenman; Sarah Edkins; Graham Bignell; Helen Davies; Sarah O'Meara; Adrian Parker; Tim Avis; Syd Barthorpe; Lisa Brackenbury; Gemma Buck; Adam Butler; Jody Clements; Jennifer Cole; Ed Dicks; Simon Forbes; Matthew Gorton; Kristian Gray; Kelly Halliday; Rachel Harrison; Katy Hills; Jonathon Hinton; Andy Jenkinson; David Jones; Vivienne Kosmidou; Ross Laman; Richard Lugg; Andrew Menzies; Janet Perry; Robert Petty; Keiran Raine; David Richardson; Rebecca Shepherd; Alexandra Small; Helen Solomon; Calli Tofts; Jennifer Varian; Sofie West; Sara Widaa; Andy Yates; Douglas F. Easton; Gregory Riggins; Jennifer E. Roy; Kymberly K. Levine; Wolf Mueller; Tracy T. Batchelor; David N. Louis; Michael R. Stratton; P. Andrew Futreal; Richard Wooster

doi:10.1158/0008-5472.CAN-06-0127

A hypermutation phenotype and somatic MSH6 mutations in recurrent human malignant gliomas after alkylator chemotherapy

Chris Hunter, Raffaella Smith, Daniel P. Cahill, Philip Stephens, Claire Stevens, Jon Teague, Chris Greenman, Sarah Edkins, Graham Bignell, Helen Davies, Sarah O'Meara, Adrian Parker, Tim Avis, Syd Barthorpe, Lisa Brackenbury, Gemma Buck, Adam Butler, Jody Clements, Jennifer Cole, Ed DicksSimon Forbes, Matthew Gorton, Kristian Gray, Kelly Halliday, Rachel Harrison, Katy Hills, Jonathon Hinton, Andy Jenkinson, David Jones, Vivienne Kosmidou, Ross Laman, Richard Lugg, Andrew Menzies, Janet Perry, Robert Petty, Keiran Raine, David Richardson, Rebecca Shepherd, Alexandra Small, Helen Solomon, Calli Tofts, Jennifer Varian, Sofie West, Sara Widaa, Andy Yates, Douglas F. Easton, Gregory Riggins, Jennifer E. Roy, Kymberly K. Levine, Wolf Mueller, Tracy T. Batchelor, David N. Louis, Michael R. Stratton, P. Andrew Futreal, Richard Wooster

School of Medicine

Research output: Contribution to journal › Article › peer-review

295 Scopus citations

Abstract

Malignant gliomas have a very poor prognosis. The current standard of care for these cancers consists of extended adjuvant treatment with the alkylating agent temozolomide after surgical resection and radiotherapy. Although a statistically significant increase in survival has been reported with this regimen, nearly all gliomas recur and become insensitive to further treatment with this class of agents. We sequenced 500 kb of genomic DNA corresponding to the kinase domains of 518 protein kinases in each of nine gliomas. Large numbers of somatic mutations were observed in two gliomas recurrent after alkylating agent treatment. The pattern of mutations in these cases showed strong similarity to that induced by alkylating agents in experimental systems. Further investigation revealed inactivating somatic mutations of the mismatch repair gene MSH6 in each case. We propose that inactivating somatic mutations of MSH6 confer resistance to alkylating agents in gliomas in vivo and concurrently unleash accelerated mutagenesis in resistant clones as a consequence of continued exposure to alkylating agents in the presence of defective mismatch repair. The evidence therefore suggests that when MSH6 is inactivated in gliomas, alkylating agents convert from induction of tumor cell death to promotion of neoplastic progression. These observations highlight the potential of large scale sequencing for revealing and elucidating mutagenic processes operative in individual human cancers.

Original language	English (US)
Pages (from-to)	3987-3991
Number of pages	5
Journal	Cancer Research
Volume	66
Issue number	8
DOIs	https://doi.org/10.1158/0008-5472.CAN-06-0127
State	Published - Apr 15 2006

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1158/0008-5472.CAN-06-0127

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Hunter, C., Smith, R., Cahill, D. P., Stephens, P., Stevens, C., Teague, J., Greenman, C., Edkins, S., Bignell, G., Davies, H., O'Meara, S., Parker, A., Avis, T., Barthorpe, S., Brackenbury, L., Buck, G., Butler, A., Clements, J., Cole, J., ... Wooster, R. (2006). A hypermutation phenotype and somatic MSH6 mutations in recurrent human malignant gliomas after alkylator chemotherapy. Cancer Research, 66(8), 3987-3991. https://doi.org/10.1158/0008-5472.CAN-06-0127

Hunter, C, Smith, R, Cahill, DP, Stephens, P, Stevens, C, Teague, J, Greenman, C, Edkins, S, Bignell, G, Davies, H, O'Meara, S, Parker, A, Avis, T, Barthorpe, S, Brackenbury, L, Buck, G, Butler, A, Clements, J, Cole, J, Dicks, E, Forbes, S, Gorton, M, Gray, K, Halliday, K, Harrison, R, Hills, K, Hinton, J, Jenkinson, A, Jones, D, Kosmidou, V, Laman, R, Lugg, R, Menzies, A, Perry, J, Petty, R, Raine, K, Richardson, D, Shepherd, R, Small, A, Solomon, H, Tofts, C, Varian, J, West, S, Widaa, S, Yates, A, Easton, DF, Riggins, G, Roy, JE, Levine, KK, Mueller, W, Batchelor, TT, Louis, DN, Stratton, MR, Futreal, PA & Wooster, R 2006, 'A hypermutation phenotype and somatic MSH6 mutations in recurrent human malignant gliomas after alkylator chemotherapy', Cancer Research, vol. 66, no. 8, pp. 3987-3991. https://doi.org/10.1158/0008-5472.CAN-06-0127

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title = "A hypermutation phenotype and somatic MSH6 mutations in recurrent human malignant gliomas after alkylator chemotherapy",

abstract = "Malignant gliomas have a very poor prognosis. The current standard of care for these cancers consists of extended adjuvant treatment with the alkylating agent temozolomide after surgical resection and radiotherapy. Although a statistically significant increase in survival has been reported with this regimen, nearly all gliomas recur and become insensitive to further treatment with this class of agents. We sequenced 500 kb of genomic DNA corresponding to the kinase domains of 518 protein kinases in each of nine gliomas. Large numbers of somatic mutations were observed in two gliomas recurrent after alkylating agent treatment. The pattern of mutations in these cases showed strong similarity to that induced by alkylating agents in experimental systems. Further investigation revealed inactivating somatic mutations of the mismatch repair gene MSH6 in each case. We propose that inactivating somatic mutations of MSH6 confer resistance to alkylating agents in gliomas in vivo and concurrently unleash accelerated mutagenesis in resistant clones as a consequence of continued exposure to alkylating agents in the presence of defective mismatch repair. The evidence therefore suggests that when MSH6 is inactivated in gliomas, alkylating agents convert from induction of tumor cell death to promotion of neoplastic progression. These observations highlight the potential of large scale sequencing for revealing and elucidating mutagenic processes operative in individual human cancers.",

author = "Chris Hunter and Raffaella Smith and Cahill, {Daniel P.} and Philip Stephens and Claire Stevens and Jon Teague and Chris Greenman and Sarah Edkins and Graham Bignell and Helen Davies and Sarah O'Meara and Adrian Parker and Tim Avis and Syd Barthorpe and Lisa Brackenbury and Gemma Buck and Adam Butler and Jody Clements and Jennifer Cole and Ed Dicks and Simon Forbes and Matthew Gorton and Kristian Gray and Kelly Halliday and Rachel Harrison and Katy Hills and Jonathon Hinton and Andy Jenkinson and David Jones and Vivienne Kosmidou and Ross Laman and Richard Lugg and Andrew Menzies and Janet Perry and Robert Petty and Keiran Raine and David Richardson and Rebecca Shepherd and Alexandra Small and Helen Solomon and Calli Tofts and Jennifer Varian and Sofie West and Sara Widaa and Andy Yates and Easton, {Douglas F.} and Gregory Riggins and Roy, {Jennifer E.} and Levine, {Kymberly K.} and Wolf Mueller and Batchelor, {Tracy T.} and Louis, {David N.} and Stratton, {Michael R.} and Futreal, {P. Andrew} and Richard Wooster",

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AU - Smith, Raffaella

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AU - Stephens, Philip

AU - Stevens, Claire

AU - Teague, Jon

AU - Greenman, Chris

AU - Edkins, Sarah

AU - Bignell, Graham

AU - Davies, Helen

AU - O'Meara, Sarah

AU - Parker, Adrian

AU - Avis, Tim

AU - Barthorpe, Syd

AU - Brackenbury, Lisa

AU - Buck, Gemma

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AU - Clements, Jody

AU - Cole, Jennifer

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AU - Forbes, Simon

AU - Gorton, Matthew

AU - Gray, Kristian

AU - Halliday, Kelly

AU - Harrison, Rachel

AU - Hills, Katy

AU - Hinton, Jonathon

AU - Jenkinson, Andy

AU - Jones, David

AU - Kosmidou, Vivienne

AU - Laman, Ross

AU - Lugg, Richard

AU - Menzies, Andrew

AU - Perry, Janet

AU - Petty, Robert

AU - Raine, Keiran

AU - Richardson, David

AU - Shepherd, Rebecca

AU - Small, Alexandra

AU - Solomon, Helen

AU - Tofts, Calli

AU - Varian, Jennifer

AU - West, Sofie

AU - Widaa, Sara

AU - Yates, Andy

AU - Easton, Douglas F.

AU - Riggins, Gregory

AU - Roy, Jennifer E.

AU - Levine, Kymberly K.

AU - Mueller, Wolf

AU - Batchelor, Tracy T.

AU - Louis, David N.

AU - Stratton, Michael R.

AU - Futreal, P. Andrew

AU - Wooster, Richard

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N2 - Malignant gliomas have a very poor prognosis. The current standard of care for these cancers consists of extended adjuvant treatment with the alkylating agent temozolomide after surgical resection and radiotherapy. Although a statistically significant increase in survival has been reported with this regimen, nearly all gliomas recur and become insensitive to further treatment with this class of agents. We sequenced 500 kb of genomic DNA corresponding to the kinase domains of 518 protein kinases in each of nine gliomas. Large numbers of somatic mutations were observed in two gliomas recurrent after alkylating agent treatment. The pattern of mutations in these cases showed strong similarity to that induced by alkylating agents in experimental systems. Further investigation revealed inactivating somatic mutations of the mismatch repair gene MSH6 in each case. We propose that inactivating somatic mutations of MSH6 confer resistance to alkylating agents in gliomas in vivo and concurrently unleash accelerated mutagenesis in resistant clones as a consequence of continued exposure to alkylating agents in the presence of defective mismatch repair. The evidence therefore suggests that when MSH6 is inactivated in gliomas, alkylating agents convert from induction of tumor cell death to promotion of neoplastic progression. These observations highlight the potential of large scale sequencing for revealing and elucidating mutagenic processes operative in individual human cancers.

AB - Malignant gliomas have a very poor prognosis. The current standard of care for these cancers consists of extended adjuvant treatment with the alkylating agent temozolomide after surgical resection and radiotherapy. Although a statistically significant increase in survival has been reported with this regimen, nearly all gliomas recur and become insensitive to further treatment with this class of agents. We sequenced 500 kb of genomic DNA corresponding to the kinase domains of 518 protein kinases in each of nine gliomas. Large numbers of somatic mutations were observed in two gliomas recurrent after alkylating agent treatment. The pattern of mutations in these cases showed strong similarity to that induced by alkylating agents in experimental systems. Further investigation revealed inactivating somatic mutations of the mismatch repair gene MSH6 in each case. We propose that inactivating somatic mutations of MSH6 confer resistance to alkylating agents in gliomas in vivo and concurrently unleash accelerated mutagenesis in resistant clones as a consequence of continued exposure to alkylating agents in the presence of defective mismatch repair. The evidence therefore suggests that when MSH6 is inactivated in gliomas, alkylating agents convert from induction of tumor cell death to promotion of neoplastic progression. These observations highlight the potential of large scale sequencing for revealing and elucidating mutagenic processes operative in individual human cancers.

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A hypermutation phenotype and somatic MSH6 mutations in recurrent human malignant gliomas after alkylator chemotherapy

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