Defective transcription-coupled repair in Cockayne syndrome B mice is associated with skin cancer predisposition

Gijsbertus T.J. Van der Horst; Harry Van Steeg; Rob J.W. Berg; Alain J. Van Gool; Jan De Wit; Geert Weeda; Hans Morreau; Rudolf B. Beems; Coen F. Van Kreijl; Frank R. De Gruijl; Dirk Bootsma; Jan H.J. Hoeijmakers

doi:10.1016/S0092-8674(00)80223-8

Defective transcription-coupled repair in Cockayne syndrome B mice is associated with skin cancer predisposition

Gijsbertus T.J. Van der Horst, Harry Van Steeg, Rob J.W. Berg, Alain J. Van Gool, Jan De Wit, Geert Weeda, Hans Morreau, Rudolf B. Beems, Coen F. Van Kreijl, Frank R. De Gruijl, Dirk Bootsma, Jan H.J. Hoeijmakers

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Abstract

A mouse model for the nucleotide excision repair disorder Cockayne syndrome (cs) was generated by mimicking a truncation in the CSB(ERCC6) gene of a CS-B patient. CSB-deficient mice exhibit all of the CS repair characteristics: ultraviolet (UV) sensitivity, inactivation of transcription- coupled repair, unaffected global genome repair, and inability to resume RNA synthesis after UV exposure. Other CS features thought to involve the functioning of basal transcription/repair factor TFIIH, such as growth failure and neurologic dysfunction, are present in mild form. In contrast to the human syndrome, CSB-deficient mice show increased susceptibility to skin cancer. Our results demonstrate that transcription-coupled repair of UV- induced cyclobutane pyrimidine dimers contributes to the prevention of carcinogenesis in mice. Further, they suggest that the lack of cancer predisposition in CS patients is attributable to a global genome repair process that in humans is more effective than in rodents.

Original language	English
Pages (from-to)	425-435
Number of pages	11
Journal	Cell
Volume	89
Issue number	3
DOIs	https://doi.org/10.1016/S0092-8674(00)80223-8
Publication status	Published - 2 May 1997
Externally published	Yes

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Van der Horst, G. T. J., Van Steeg, H., Berg, R. J. W., Van Gool, A. J., De Wit, J., Weeda, G., Morreau, H., Beems, R. B., Van Kreijl, C. F., De Gruijl, F. R., Bootsma, D., & Hoeijmakers, J. H. J. (1997). Defective transcription-coupled repair in Cockayne syndrome B mice is associated with skin cancer predisposition. Cell, 89(3), 425-435. https://doi.org/10.1016/S0092-8674(00)80223-8

@article{2ce6727073534efba3afd8c8410495d7,

title = "Defective transcription-coupled repair in Cockayne syndrome B mice is associated with skin cancer predisposition",

abstract = "A mouse model for the nucleotide excision repair disorder Cockayne syndrome (cs) was generated by mimicking a truncation in the CSB(ERCC6) gene of a CS-B patient. CSB-deficient mice exhibit all of the CS repair characteristics: ultraviolet (UV) sensitivity, inactivation of transcription- coupled repair, unaffected global genome repair, and inability to resume RNA synthesis after UV exposure. Other CS features thought to involve the functioning of basal transcription/repair factor TFIIH, such as growth failure and neurologic dysfunction, are present in mild form. In contrast to the human syndrome, CSB-deficient mice show increased susceptibility to skin cancer. Our results demonstrate that transcription-coupled repair of UV- induced cyclobutane pyrimidine dimers contributes to the prevention of carcinogenesis in mice. Further, they suggest that the lack of cancer predisposition in CS patients is attributable to a global genome repair process that in humans is more effective than in rodents.",

author = "{Van der Horst}, {Gijsbertus T.J.} and {Van Steeg}, Harry and Berg, {Rob J.W.} and {Van Gool}, {Alain J.} and {De Wit}, Jan and Geert Weeda and Hans Morreau and Beems, {Rudolf B.} and {Van Kreijl}, {Coen F.} and {De Gruijl}, {Frank R.} and Dirk Bootsma and Hoeijmakers, {Jan H.J.}",

note = "Funding Information: Correspondence should be addressed to G. T. J. v. d. H. We are very grateful to Dr. N. J. Galjart, Dr. A. Berns, and Dr. W. Gu for providing us with materials. C. van Oostrom is kindly acknowledged for performing DMBA survival experiments. We thank Dr. W. Slob for his help in statistical data analysis and M. Kuit for photographic work. This research was supported by The Netherlands Organization for Scientific Research (contract PGN 901-01-093), a fellowship of the Royal Academy of Arts and Sciences of The Netherlands (to G. W.), grants from the Dutch Cancer Society (projects EUR 90-20 and EUR 94-763), and a Human Frontier Science Programme. ",

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AU - Van der Horst, Gijsbertus T.J.

AU - Van Steeg, Harry

AU - Berg, Rob J.W.

AU - Van Gool, Alain J.

AU - De Wit, Jan

AU - Weeda, Geert

AU - Morreau, Hans

AU - Beems, Rudolf B.

AU - Van Kreijl, Coen F.

AU - De Gruijl, Frank R.

AU - Bootsma, Dirk

AU - Hoeijmakers, Jan H.J.

N1 - Funding Information: Correspondence should be addressed to G. T. J. v. d. H. We are very grateful to Dr. N. J. Galjart, Dr. A. Berns, and Dr. W. Gu for providing us with materials. C. van Oostrom is kindly acknowledged for performing DMBA survival experiments. We thank Dr. W. Slob for his help in statistical data analysis and M. Kuit for photographic work. This research was supported by The Netherlands Organization for Scientific Research (contract PGN 901-01-093), a fellowship of the Royal Academy of Arts and Sciences of The Netherlands (to G. W.), grants from the Dutch Cancer Society (projects EUR 90-20 and EUR 94-763), and a Human Frontier Science Programme.

PY - 1997/5/2

Y1 - 1997/5/2

N2 - A mouse model for the nucleotide excision repair disorder Cockayne syndrome (cs) was generated by mimicking a truncation in the CSB(ERCC6) gene of a CS-B patient. CSB-deficient mice exhibit all of the CS repair characteristics: ultraviolet (UV) sensitivity, inactivation of transcription- coupled repair, unaffected global genome repair, and inability to resume RNA synthesis after UV exposure. Other CS features thought to involve the functioning of basal transcription/repair factor TFIIH, such as growth failure and neurologic dysfunction, are present in mild form. In contrast to the human syndrome, CSB-deficient mice show increased susceptibility to skin cancer. Our results demonstrate that transcription-coupled repair of UV- induced cyclobutane pyrimidine dimers contributes to the prevention of carcinogenesis in mice. Further, they suggest that the lack of cancer predisposition in CS patients is attributable to a global genome repair process that in humans is more effective than in rodents.

AB - A mouse model for the nucleotide excision repair disorder Cockayne syndrome (cs) was generated by mimicking a truncation in the CSB(ERCC6) gene of a CS-B patient. CSB-deficient mice exhibit all of the CS repair characteristics: ultraviolet (UV) sensitivity, inactivation of transcription- coupled repair, unaffected global genome repair, and inability to resume RNA synthesis after UV exposure. Other CS features thought to involve the functioning of basal transcription/repair factor TFIIH, such as growth failure and neurologic dysfunction, are present in mild form. In contrast to the human syndrome, CSB-deficient mice show increased susceptibility to skin cancer. Our results demonstrate that transcription-coupled repair of UV- induced cyclobutane pyrimidine dimers contributes to the prevention of carcinogenesis in mice. Further, they suggest that the lack of cancer predisposition in CS patients is attributable to a global genome repair process that in humans is more effective than in rodents.

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Defective transcription-coupled repair in Cockayne syndrome B mice is associated with skin cancer predisposition

Abstract

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