Loss of CBP causes T cell lymphomagenesis in synergy with p27 Kip1 insufficiency

Ningling Kang-Decker; Caili Tong; Fayçal Boussouar; Darren J. Baker; Wu Xu; Alexey A. Leontovich; William R. Taylor; Paul K. Brindle; Jan M.A. Van Deursen

doi:10.1016/S1535-6108(04)00022-4

Loss of CBP causes T cell lymphomagenesis in synergy with p27 ^Kip1 insufficiency

Ningling Kang-Decker, Caili Tong, Fayçal Boussouar, Darren J. Baker, Wu Xu, Alexey A. Leontovich, William R. Taylor, Paul K. Brindle, Jan M.A. Van Deursen

Hormel Institute

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

86 Scopus citations

Abstract

CBP can function as a tumor suppressor, but the mechanisms that govern oncogenesis in its absence are unknown. Here we show that CBP inactivation in mouse thymocytes leads to lymphoma. Although CBP has been implicated in the transactivation functions of p53, development of these tumors does not seem to involve loss of p53 activity. CBP-null tumors show reduced levels of p27 ^Kip1 and increased levels of cyclin E and Skp2, two oncoproteins that can promote p27^Kip1 proteolysis. Reduction of p27 ^Kip1 by introduction of a p27^Kip1-null allele into CBP knockout mice accelerates lymphomagenesis and seems to obviate the requirement for Skp2 and cyclin E upregulation. These data suggest that CBP loss mediates lymphomagenesis in cooperation with a mechanism that reduces p27^Kip1 abundance.

Original language	English (US)
Pages (from-to)	177-189
Number of pages	13
Journal	Cancer Cell
Volume	5
Issue number	2
DOIs	https://doi.org/10.1016/S1535-6108(04)00022-4
State	Published - Feb 2004

Bibliographical note

Funding Information:
We thank Peter Aplan for the TCR Cβ2 probe. We thank Rick Bram, Fergus Couch, David McKean, Junjie Chen, Larry Karnitz, Janine van Ree, and Ralf Janknecht for critically reviewing our manuscript, helpful discussions, or reagents. We are grateful to Karthik Jeganathan for help with various Western blot analyses. This work was supported by DOD IDEA AWARD BC010517, NIH grants R01-CA76385 and P30-CA21765, and the American Lebanese Syrian Associated Charities of St. Jude Children's Research Hospital.

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title = "Loss of CBP causes T cell lymphomagenesis in synergy with p27 Kip1 insufficiency",

abstract = "CBP can function as a tumor suppressor, but the mechanisms that govern oncogenesis in its absence are unknown. Here we show that CBP inactivation in mouse thymocytes leads to lymphoma. Although CBP has been implicated in the transactivation functions of p53, development of these tumors does not seem to involve loss of p53 activity. CBP-null tumors show reduced levels of p27 Kip1 and increased levels of cyclin E and Skp2, two oncoproteins that can promote p27Kip1 proteolysis. Reduction of p27 Kip1 by introduction of a p27Kip1-null allele into CBP knockout mice accelerates lymphomagenesis and seems to obviate the requirement for Skp2 and cyclin E upregulation. These data suggest that CBP loss mediates lymphomagenesis in cooperation with a mechanism that reduces p27Kip1 abundance.",

author = "Ningling Kang-Decker and Caili Tong and Fay{\c c}al Boussouar and Baker, {Darren J.} and Wu Xu and Leontovich, {Alexey A.} and Taylor, {William R.} and Brindle, {Paul K.} and {Van Deursen}, {Jan M.A.}",

note = "Funding Information: We thank Peter Aplan for the TCR Cβ2 probe. We thank Rick Bram, Fergus Couch, David McKean, Junjie Chen, Larry Karnitz, Janine van Ree, and Ralf Janknecht for critically reviewing our manuscript, helpful discussions, or reagents. We are grateful to Karthik Jeganathan for help with various Western blot analyses. This work was supported by DOD IDEA AWARD BC010517, NIH grants R01-CA76385 and P30-CA21765, and the American Lebanese Syrian Associated Charities of St. Jude Children's Research Hospital. ",

year = "2004",

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doi = "10.1016/S1535-6108(04)00022-4",

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AU - Kang-Decker, Ningling

AU - Tong, Caili

AU - Boussouar, Fayçal

AU - Baker, Darren J.

AU - Xu, Wu

AU - Leontovich, Alexey A.

AU - Taylor, William R.

AU - Brindle, Paul K.

AU - Van Deursen, Jan M.A.

N1 - Funding Information: We thank Peter Aplan for the TCR Cβ2 probe. We thank Rick Bram, Fergus Couch, David McKean, Junjie Chen, Larry Karnitz, Janine van Ree, and Ralf Janknecht for critically reviewing our manuscript, helpful discussions, or reagents. We are grateful to Karthik Jeganathan for help with various Western blot analyses. This work was supported by DOD IDEA AWARD BC010517, NIH grants R01-CA76385 and P30-CA21765, and the American Lebanese Syrian Associated Charities of St. Jude Children's Research Hospital.

PY - 2004/2

Y1 - 2004/2

N2 - CBP can function as a tumor suppressor, but the mechanisms that govern oncogenesis in its absence are unknown. Here we show that CBP inactivation in mouse thymocytes leads to lymphoma. Although CBP has been implicated in the transactivation functions of p53, development of these tumors does not seem to involve loss of p53 activity. CBP-null tumors show reduced levels of p27 Kip1 and increased levels of cyclin E and Skp2, two oncoproteins that can promote p27Kip1 proteolysis. Reduction of p27 Kip1 by introduction of a p27Kip1-null allele into CBP knockout mice accelerates lymphomagenesis and seems to obviate the requirement for Skp2 and cyclin E upregulation. These data suggest that CBP loss mediates lymphomagenesis in cooperation with a mechanism that reduces p27Kip1 abundance.

AB - CBP can function as a tumor suppressor, but the mechanisms that govern oncogenesis in its absence are unknown. Here we show that CBP inactivation in mouse thymocytes leads to lymphoma. Although CBP has been implicated in the transactivation functions of p53, development of these tumors does not seem to involve loss of p53 activity. CBP-null tumors show reduced levels of p27 Kip1 and increased levels of cyclin E and Skp2, two oncoproteins that can promote p27Kip1 proteolysis. Reduction of p27 Kip1 by introduction of a p27Kip1-null allele into CBP knockout mice accelerates lymphomagenesis and seems to obviate the requirement for Skp2 and cyclin E upregulation. These data suggest that CBP loss mediates lymphomagenesis in cooperation with a mechanism that reduces p27Kip1 abundance.

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