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

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          Summary

          In contrast to its close homolog CDK4, the cell cycle kinase CDK6 is expressed at high levels in lymphoid malignancies. In a model for p185 BCR-ABL+ B-acute lymphoid leukemia, we show that CDK6 is part of a transcription complex that induces the expression of the tumor suppressor p16 INK4a and the pro-angiogenic factor VEGF-A. This function is independent of CDK6’s kinase activity. High CDK6 expression thus suppresses proliferation by upregulating p16 INK4a, providing an internal safeguard. However, in the absence of p16 INK4a, 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 p16 INK4a.

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          CDK inhibitors: positive and negative regulators of G1-phase progression.

          C Sherr, J. M. Roberts (1999)
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            The biology of vascular endothelial growth factor.

            T Davis-Smyth, N Ferrara (1997)
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              Role of the INK4a locus in tumor suppression and cell mortality.

              Manuel Serrano, Han-Woong Lee, Lynda Chin (1996)
              The cell cycle inhibitor p16INK4a is inactivated in many human tumors and in families with hereditary melanoma and pancreatic cancer. Tumor-associated alterations in the INK4a locus may also affect the overlapping gene encoding p19ARF and the adjacent gene encoding p15I1NK4b, both negative regulators of cell proliferation. We report the phenotype of mice carrying a targeted deletion of the INK4a locus that eliminates both p16INK4a and p19ARF. The mice are viable but develop spontaneous tumors at an early age and are highly sensitive to carcinogenic treatments. INK4a-deficient primary fibroblasts proliferate rapidly and have a high colony-formation efficiency. In contrast with normal cells, the introduction of activated Ha-ras into INK4a-deficient fibroblasts can result in neoplastic transformation. These findings directly demonstrate that the INK4a locus functions to suppress neoplastic growth.
              Article 0 comments Cited 238 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Veronika Sexl
                Journal
                Journal ID (nlm-ta): Cancer Cell
                Journal ID (iso-abbrev): Cancer Cell
                Title: Cancer Cell
                Publisher: Cell Press
                ISSN (Print): 1535-6108
                ISSN (Electronic): 1878-3686
                Publication date PMC-release: 12 August 2013
                Publication date (Print): 12 August 2013
                Volume: 24
                Issue: 2
                Pages: 167-181
                Affiliations
                [1 ]Institute of Pharmacology and Toxicology, University of Veterinary Medicine Vienna, 1210 Vienna, Austria
                [2 ]Institute of Animal Breeding and Genetics, University of Veterinary Medicine Vienna, 1210 Vienna, Austria
                [3 ]Clinical Division of Oncology, Department of Medicine I, Comprehensive Cancer Center, Medical University of Vienna, 1090 Vienna, Austria
                [4 ]Institute of Pharmacology, Center of Biomolecular Medicine and Pharmacology, Medical University of Vienna, 1090 Vienna, Austria
                [5 ]Department of Clinical Pathology, Medical University of Vienna, 1090 Vienna, Austria
                [6 ]Department of Laboratory Medicine, Medical University of Vienna, 1090 Vienna, Austria
                [7 ]Department of Dermatology, Medical University of Vienna, 1090 Vienna, Austria
                [8 ]Research Institute of Molecular Pathology, Vienna Biocenter, 1030 Vienna, Austria
                [9 ]CeMM Research Center for Molecular Medicine of the Austrian Academy of Sciences, 1090 Vienna, Austria
                [10 ]Ludwig Boltzmann Institute for Cancer Research, 1090 Vienna, Austria
                [11 ]Department of Pathology, Medical University of Graz, 8036 Graz, Austria
                [12 ]Cambridge Institute for Medical Research and Wellcome Trust/MRC Stem Cell Institute, University of Cambridge, Cambridge CB2 0XY, UK
                [13 ]Department of Hematology, University of Cambridge, Cambridge CB2 0XY, UK
                [14 ]Department of Hematology, Addenbrooke’s Hospital, Cambridge CB2 0XY, UK
                [15 ]Cell Division and Cancer Group, Molecular Oncology Programme, Centro Nacional de Investigaciones Oncológicas (CNIO), 28029 Madrid, Spain
                Author notes
                []Corresponding author veronika.sexl@ 123456vetmeduni.ac.at
                [16]

                These authors contributed equally to this work

                Article
                Publisher ID: CCELL1738
                DOI: 10.1016/j.ccr.2013.07.012
                PMC ID: 3743049
                PubMed ID: 23948297
                SO-VID: 00968bbf-8cf8-4219-a470-dbff9fdd00ee
                Copyright © © 2013 ELL & Excerpta Medica.
                License:

                This document may be redistributed and reused, subject to certain conditions.

                History
                Date received : 23 November 2012
                Date revision received : 17 May 2013
                Date accepted : 22 July 2013
                Categories
                Subject: Article

                ScienceOpen disciplines: Oncology & Radiotherapy
                Data availability:
                ScienceOpen disciplines: Oncology & Radiotherapy

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