DNA damage-activated kinase Chk2 is independent of proliferation or differentiation yet correlates with tissue biology

C. Lukas; J. Bartkova; L. Latella; J. Falck; N. Mailand; T. Schroeder; M. Sehested; J. Lukas; J. Bartek

DNA damage-activated kinase Chk2 is independent of proliferation or differentiation yet correlates with tissue biology

C. Lukas, J. Bartkova, L. Latella, J. Falck, N. Mailand, T. Schroeder, M. Sehested, J. Lukas, J. Bartek

Fondazione Santa Lucia

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

Abstract

The Chk2 kinase is a tumor suppressor and key transducer of DNA-damage checkpoints. We show that the human Chk2 protein is relatively stable, nuclear, and responding to γ-radiation throughout the cell cycle. Contrary to the retinoblastoma protein-regulated, labile Chk1 kinase restricted to S-G ₂ phases, Chk2 remains activatable even in quiescent and differentiating cells. In human tissues, Chk2 is homogeneously expressed in renewing cell populations such as epidermis or intestine, heterogeneous in conditionally renewing tissues, and absent or cytoplasmic in static tissues such as muscle or brain. These data highlight striking differences between Chk2 and Chk1 and show unexpected correlation of Chk2 expression with tissue biology.

Original language	English
Pages (from-to)	4990-4993
Number of pages	4
Journal	Cancer Research
Volume	61
Issue number	13
Publication status	Published - Jul 1 2001

ASJC Scopus subject areas

Cancer Research
Oncology

Cite this

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abstract = "The Chk2 kinase is a tumor suppressor and key transducer of DNA-damage checkpoints. We show that the human Chk2 protein is relatively stable, nuclear, and responding to γ-radiation throughout the cell cycle. Contrary to the retinoblastoma protein-regulated, labile Chk1 kinase restricted to S-G 2 phases, Chk2 remains activatable even in quiescent and differentiating cells. In human tissues, Chk2 is homogeneously expressed in renewing cell populations such as epidermis or intestine, heterogeneous in conditionally renewing tissues, and absent or cytoplasmic in static tissues such as muscle or brain. These data highlight striking differences between Chk2 and Chk1 and show unexpected correlation of Chk2 expression with tissue biology.",

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AU - Lukas, C.

AU - Bartkova, J.

AU - Latella, L.

AU - Falck, J.

AU - Mailand, N.

AU - Schroeder, T.

AU - Sehested, M.

AU - Lukas, J.

AU - Bartek, J.

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N2 - The Chk2 kinase is a tumor suppressor and key transducer of DNA-damage checkpoints. We show that the human Chk2 protein is relatively stable, nuclear, and responding to γ-radiation throughout the cell cycle. Contrary to the retinoblastoma protein-regulated, labile Chk1 kinase restricted to S-G 2 phases, Chk2 remains activatable even in quiescent and differentiating cells. In human tissues, Chk2 is homogeneously expressed in renewing cell populations such as epidermis or intestine, heterogeneous in conditionally renewing tissues, and absent or cytoplasmic in static tissues such as muscle or brain. These data highlight striking differences between Chk2 and Chk1 and show unexpected correlation of Chk2 expression with tissue biology.

AB - The Chk2 kinase is a tumor suppressor and key transducer of DNA-damage checkpoints. We show that the human Chk2 protein is relatively stable, nuclear, and responding to γ-radiation throughout the cell cycle. Contrary to the retinoblastoma protein-regulated, labile Chk1 kinase restricted to S-G 2 phases, Chk2 remains activatable even in quiescent and differentiating cells. In human tissues, Chk2 is homogeneously expressed in renewing cell populations such as epidermis or intestine, heterogeneous in conditionally renewing tissues, and absent or cytoplasmic in static tissues such as muscle or brain. These data highlight striking differences between Chk2 and Chk1 and show unexpected correlation of Chk2 expression with tissue biology.

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DNA damage-activated kinase Chk2 is independent of proliferation or differentiation yet correlates with tissue biology

Abstract

ASJC Scopus subject areas

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