A Kinase-Independent Function of CDK6 Links the Cell Cycle to Tumor Angiogenesis

Karoline Kollmann; Gerwin Heller; Christine Schneckenleithner; Wolfgang Warsch; Ruth Scheicher; René G. Ott; Markus Schäfer; Sabine Fajmann; Michaela Schlederer; Ana‐Iris Schiefer; Ursula Reichart; Matthias Mayerhofer; Christoph Höeller; Sabine Zöchbauer‐Müller; Dontscho Kerjaschki; Christoph Bock; Lukas Kenner; Gerald Höefler; Michael Freissmuth; Anthony R. Green; Richard Moriggl; Meinrad Busslinger; Marcos Malumbres; Veronika Sexl

doi:10.1016/j.ccr.2013.07.012

A Kinase-Independent Function of CDK6 Links the Cell Cycle to Tumor Angiogenesis

Karoline Kollmann(University of Veterinary Medicine Vienna), Gerwin Heller(Comprehensive Cancer Center Vienna), Christine Schneckenleithner(University of Veterinary Medicine Vienna), Wolfgang Warsch(University of Veterinary Medicine Vienna), Ruth Scheicher(University of Veterinary Medicine Vienna), René G. Ott(Medical University of Vienna), Markus Schäfer(Vienna Biocenter), Sabine Fajmann(University of Veterinary Medicine Vienna), Michaela Schlederer(Medical University of Vienna), Ana‐Iris Schiefer(Medical University of Vienna), Ursula Reichart(University of Veterinary Medicine Vienna), Matthias Mayerhofer(Medical University of Vienna), Christoph Höeller(Medical University of Vienna), Sabine Zöchbauer‐Müller(Comprehensive Cancer Center Vienna), Dontscho Kerjaschki(Medical University of Vienna), Christoph Bock(CeMM Research Center for Molecular Medicine), Lukas Kenner(Ludwig Boltzmann Institute for Cancer Research), Gerald Höefler(Medical University of Graz), Michael Freissmuth(Medical University of Vienna), Anthony R. Green(Addenbrooke's Hospital), Richard Moriggl(Ludwig Boltzmann Institute for Cancer Research), Meinrad Busslinger(Medical University of Vienna), Marcos Malumbres(Spanish National Cancer Research Centre), Veronika Sexl(University of Veterinary Medicine Vienna)

Cancer Cell

August 1, 2013

10.1016/j.ccr.2013.07.012

Cited by 311Open Access

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Abstract

In contrast to its close homolog CDK4, the cell cycle kinase CDK6 is expressed at high levels in lymphoid malignancies. In a model for p185BCR-ABL+ B-acute lymphoid leukemia, we show that CDK6 is part of a transcription complex that induces the expression of the tumor suppressor p16INK4a and the pro-angiogenic factor VEGF-A. This function is independent of CDK6's kinase activity. High CDK6 expression thus suppresses proliferation by upregulating p16INK4a, providing an internal safeguard. However, in the absence of p16INK4a, CDK6 can exert its full tumor-promoting function by enhancing proliferation and stimulating angiogenesis. The finding that CDK6 connects cell-cycle progression to angiogenesis confirms CDK6's central role in hematopoietic malignancies and could underlie the selection pressure to upregulate CDK6 and silence p16INK4a.

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