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      Synergistic combination of valproic acid and oncolytic parvovirus H-1PV as a potential therapy against cervical and pancreatic carcinomas

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          Abstract

          The rat parvovirus H-1PV has oncolytic and tumour-suppressive properties potentially exploitable in cancer therapy. This possibility is being explored and results are encouraging, but it is necessary to improve the oncotoxicity of the virus. Here we show that this can be achieved by co-treating cancer cells with H-1PV and histone deacetylase inhibitors (HDACIs) such as valproic acid (VPA). We demonstrate that these agents act synergistically to kill a range of human cervical carcinoma and pancreatic carcinoma cell lines by inducing oxidative stress, DNA damage and apoptosis. Strikingly, in rat and mouse xenograft models, H-1PV/VPA co-treatment strongly inhibits tumour growth promoting complete tumour remission in all co-treated animals. At the molecular level, we found acetylation of the parvovirus nonstructural protein NS1 at residues K85 and K257 to modulate NS1-mediated transcription and cytotoxicity, both of which are enhanced by VPA treatment. These results warrant clinical evaluation of H-1PV/VPA co-treatment against cervical and pancreatic ductal carcinomas.

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          ONCOLYTIC VIROTHERAPY

          Stephen J. Russell, Kah-Whye Peng, John Bell (2012)
          Oncolytic virotherapy is an emerging treatment modality which uses replication competent viruses to destroy cancers. Advances in the past two years include preclinical proof of feasibility for a single-shot virotherapy cure, identification of drugs that accelerate intratumoral virus propagation, new strategies to maximize the immunotherapeutic potential of oncolytic virotherapy, and clinical confirmation of a critical viremic thereshold for vascular delivery and intratumoral virus replication. The primary clinical milestone was completion of accrual in a phase III trial of intratumoral herpes simplex virus therapy using talimogene laherparepvec for metastatic melanoma. Challenges for the field are to select ‘winners’ from a burgeoning number of oncolytic platforms and engineered derivatives, to transiently suppress but then unleash the power of the immune system to maximize both virus spread and anticancer immunity, to develop more meaningful preclinical virotherapy models and to manufacture viruses with orders of magnitude higher yields compared to established vaccine manufacturing processes.
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            Histone-deacetylase inhibitors: novel drugs for the treatment of cancer.

            Ricky W Johnstone (2002)
            The opposing actions of histone acetyltransferases (HATs) and histone deacetylases (HDACs) allow gene expression to be exquisitely regulated through chromatin remodelling. Aberrant transcription due to altered expression or mutation of genes that encode HATs, HDACs or their binding partners, is a key event in the onset and progression of cancer. HDAC inhibitors can reactivate gene expression and inhibit the growth and survival of tumour cells. The remarkable tumour specificity of these compounds, and their potency in vitro and in vivo, underscore the potential of HDAC inhibitors as exciting new agents for the treatment of cancer.
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              Acetylation is indispensable for p53 activation.

              Yi Tang, Wenhui Zhao, Yue Chen (2008)
              The activation of the tumor suppressor p53 facilitates the cellular response to genotoxic stress; however, the p53 response can only be executed if its interaction with its inhibitor Mdm2 is abolished. There have been conflicting reports on the question of whether p53 posttranslational modifications, such as phosphorylation or acetylation, are essential or only play a subtle, fine-tuning role in the p53 response. Thus, it remains unclear whether p53 modification is absolutely required for its activation. We have now identified all major acetylation sites of p53. Although unacetylated p53 retains its ability to induce the p53-Mdm2 feedback loop, loss of acetylation completely abolishes p53-dependent growth arrest and apoptosis. Notably, acetylation of p53 abrogates Mdm2-mediated repression by blocking the recruitment of Mdm2 to p53-responsive promoters, which leads to p53 activation independent of its phosphorylation status. Our study identifies p53 acetylation as an indispensable event that destabilizes the p53-Mdm2 interaction and enables the p53-mediated stress response.
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                Author and article information

                Journal
                Journal ID (nlm-ta): EMBO Mol Med
                Journal ID (iso-abbrev): EMBO Mol Med
                Journal ID (publisher-id): emmm
                Title: EMBO Molecular Medicine
                Publisher: Blackwell Publishing Ltd
                ISSN (Print): 1757-4676
                ISSN (Electronic): 1757-4684
                Publication date (Print): October 2013
                Publication date (Electronic): 17 September 2013
                Volume: 5
                Issue: 10
                Pages: 1537-1555
                Affiliations
                [1 ]Infection and Cancer Program, Tumor Virology Division (F010), German Cancer Research Center (DKFZ) Heidelberg, Germany
                [2 ]Institut d' Anatomie et Cytologie Pathologiques, Hopital Jean Minjoz Besançon, France
                [3 ]Department of Biostatistics, German Cancer Research Center (DKFZ) Heidelberg, Germany
                [4 ]Protein Analysis Facility, German Cancer Research Center (DKFZ) Heidelberg, Germany
                [5 ]CHU Saint-Jacques, Laboratoire de Biologie Moléculaire et Cellulaire Besançon, France
                [6 ]Institut de Recherche Contre les Cancers de l'Appareil Digestif Strasbourg, France
                Author notes
                * Corresponding author: Tel: +49 6221 424969; Fax: +49 6221 424962; E-mail: a.marchini@ 123456dkfz.de
                Article
                DOI: 10.1002/emmm.201302796
                PMC ID: 3799578
                PubMed ID: 24092664
                SO-VID: 1a3c76a9-4fba-4064-b610-1e24d8faa1a0
                Copyright © © 2013 The Authors. Published by John Wiley and Sons, Ltd on behalf of EMBO
                License:

                Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.

                History
                Date received : 25 March 2013
                Date revision received : 05 August 2013
                Date accepted : 07 August 2013
                Categories
                Subject: Research Articles

                ScienceOpen disciplines: Molecular medicine
                Keywords: h-1pv,pancreatic ductal adenocarcinomas,parvovirus ns1 protein,valproic acid,viral oncotherapy
                Data availability:
                ScienceOpen disciplines: Molecular medicine
                Keywords: h-1pv, pancreatic ductal adenocarcinomas, parvovirus ns1 protein, valproic acid, viral oncotherapy

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