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      The tumor suppressor RASSF10 is upregulated upon contact inhibition and frequently epigenetically silenced in cancer

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          Abstract

          The Ras association domain family (RASSF) comprises a group of tumor suppressors that are frequently epigenetically inactivated in various tumor entities and linked to apoptosis, cell cycle control and microtubule stability. In this work, we concentrated on the newly identified putative tumor suppressor RASSF10. Methylation analysis reveals RASSF10 promoter hypermethylation in lung cancer, head and neck (HN) cancer, sarcoma and pancreatic cancer. An increase in RASSF10 methylation from normal tissues, primary tumors to cancer cell lines was observed. Methylation was reversed by 5-aza-2'-deoxycytidine treatment leading to reexpression of RASSF10. We further show that overexpression of RASSF10 suppresses colony formation in cancer cell lines. In addition, RASSF10 is upregulated by cell–cell contact and regulated on promoter level as well as endogenously by forskolin, protein kinase A (PKA) and activator Protein 1 (AP-1), linking RASSF10 to the cAMP signaling pathway. Knockdown of the AP-1 member JunD interfered with contact inhibition induced RASSF10 expression. In summary, we found RASSF10 to be epigenetically inactivated by hypermethylation of its CpG island promoter in lung, HN, sarcoma and pancreatic cancer. Furthermore, our novel findings suggest that tumor suppressor RASSF10 is upregulated by PKA and JunD signaling upon contact inhibition and that RASSF10 suppresses growth of cancer cells.

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          Most cited references48

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          Epigenetic inactivation of a RAS association domain family protein from the lung tumour suppressor locus 3p21.3.

          R Dammann, C LI, J. Yoon (2000)
          Allelic loss at the short arm of chromosome 3 is one of the most common and earliest events in the pathogenesis of lung cancer, and is observed in more than 90% of small-cell lung cancers (SCLCs) and in 50-80% of non-small-cell lung cancers (NSCLCs). Frequent and early loss of heterozygosity and the presence of homozygous deletions suggested a critical role of the region 3p21.3 in tumorigenesis and a region of common homozygous deletion in 3p21.3 was narrowed to 120 kb (ref. 5). Several putative tumour-suppressor genes located at 3p21 have been characterized, but none of these genes appear to be altered in lung cancer. Here we describe the cloning and characterization of a human RAS effector homologue (RASSF1) located in the 120-kb region of minimal homozygous deletion. We identified three transcripts, A, B and C, derived from alternative splicing and promoter usage. The major transcripts A and C were expressed in all normal tissues. Transcript A was missing in all SCLC cell lines analysed and in several other cancer cell lines. Loss of expression was correlated with methylation of the CpG-island promoter sequence of RASSF1A. The promoter was highly methylated in 24 of 60 (40%) primary lung tumours, and 4 of 41 tumours analysed carried missense mutations. Re-expression of transcript A in lung carcinoma cells reduced colony formation, suppressed anchorage-independent growth and inhibited tumour formation in nude mice. These characteristics indicate a potential role for RASSF1A as a lung tumour suppressor gene.
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            COBRA: a sensitive and quantitative DNA methylation assay.

            Z Xiong, P. Laird (1997)
            We report here on a quantitative technique called COBRA to determine DNA methylation levels at specific gene loci in small amounts of genomic DNA. Restriction enzyme digestion is used to reveal methylation-dependent sequence differences in PCR products of sodium bisulfite-treated DNA as described previously. We show that methylation levels in the original DNA sample are represented by the relative amounts of digested and undigested PCR product in a linearly quantitative fashion across a wide spectrum of DNA methylation levels. In addition, we show that this technique can be reliably applied to DNA obtained from microdissected paraffin-embedded tissue samples. COBRA thus combines the powerful features of ease of use, quantitative accuracy, and compatibility with paraffin sections.
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              p27Kip1, a cyclin-Cdk inhibitor, links transforming growth factor-beta and contact inhibition to cell cycle arrest.

              J Massagué, Y Kato, Beverly L. Roberts (1993)
              Cell-cell contact and TGF-beta can arrest the cell cycle in G1. Mv1Lu mink epithelial cells arrested by either mechanism are incapable of assembling active complexes containing the G1 cyclin, cyclin E, and its catalytic subunit, Cdk2. These growth inhibitory signals block Cdk2 activation by raising the threshold level of cyclin E necessary to activate Cdk2. In arrested cells the threshold is set higher than physiological cyclin E levels and is determined by an inhibitor that binds to cyclin E-Cdk2 complexes. A 27-kD protein that binds to and prevents the activation of cyclin E-Cdk2 complexes can be purified from arrested cells but not from proliferating cells, using cyclin E-Cdk2 affinity chromatography. p27 is present in proliferating cells, but it is sequestered and unavailable to interact with cyclin E-Cdk2 complexes. Cyclin D2-Cdk4 complexes bind competitively to and down-regulate the activity of p27 and may thereby act in a pathway that reverses Cdk2 inhibition and enables G1 progression.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Oncogenesis
                Journal ID (iso-abbrev): Oncogenesis
                Title: Oncogenesis
                Publisher: Nature Publishing Group
                ISSN (Electronic): 2157-9024
                Publication date (Print): June 2012
                Publication date (Electronic): 25 June 2012
                Publication date PMC-release: 1 June 2012
                Volume: 1
                Issue: 6
                Page: e18
                Affiliations
                [1 ]simpleInstitute for Genetics, Justus-Liebig-University, Universities of Giessen and Marburg Lung Center, Member of the German Center for Lung Research , Giessen, Germany
                [2 ]simpleDepartment of General and Visceral Surgery, Diakoniekrankenhaus Halle , Halle, Germany
                [3 ]simpleUniversity Clinic of Urology, Division of Molecular Urology, Friedrich-Alexander-University , Erlangen-Nürnberg, Germany
                Author notes
                [* ]simpleInstitute for Genetics, Justus-Liebig-University, Universities of Giessen and Marburg Lung Center, Member of the German Center for Lung Research , 35392 Giessen, Germany. E-mail: Reinhard.dammann@ 123456gen.bio.uni-giessen.de
                Article
                Publisher Item ID: oncsis201218
                DOI: 10.1038/oncsis.2012.18
                PMC ID: 3412644
                PubMed ID: 23552700
                SO-VID: 7c44902a-349f-47f1-9389-b0248844e42c
                Copyright © Copyright © 2012 Macmillan Publishers Limited
                License:

                This work is licensed under the Creative Commons Attribution-NonCommercial-No Derivative Works 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-nd/3.0/

                History
                Date received : 24 April 2012
                Date revision received : 10 May 2012
                Date accepted : 16 May 2012
                Categories
                Subject: Original Article

                ScienceOpen disciplines: Oncology & Radiotherapy
                Keywords: gene regulation,dna methylation,tumor suppressor,rassf10,epigenetics
                Data availability:
                ScienceOpen disciplines: Oncology & Radiotherapy
                Keywords: gene regulation, dna methylation, tumor suppressor, rassf10, epigenetics

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