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      Down-regulation of a pro-apoptotic pathway regulated by PCAF/ADA3 in early stage gastric cancer

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          Abstract

          The loss of p300/CBP-associated protein (PCAF) expression is associated with poor clinical outcome in gastric cancer, and a potential bio-marker for invasive and aggressive tumors. However, the mechanism linking loss of PCAF to the onset of gastric cancer has not been identified. Given that PCAF and its binding partner transcriptional adaptor protein 3 (ADA3) were recently shown to regulate the intrinsic (mitochondrial) pathway to apoptosis via epigenetic regulation of phosphofurin acidic cluster sorting proteins 1 and 2 (PACS1, PACS2), we analyzed PCAF, ADA3, and PACS1/2 expression in 99 patient-matched surgical samples ranging from normal gastric mucosa, through pre-malignant chronic gastritis and intestinal metaplasia to stage I–III invasive cancers. PCAF mRNA levels were not reduced in either pre-malignant state but were significantly down-regulated in all stages of gastric cancer, commencing at AJCC stage I ( p < 0.05), thus linking reduced PCAF expression with early malignant change. Furthermore, patients with combined reduction of PCAF and PACS1 had significantly poorer overall survival ( p = 0.0257), confirmed in an independent dataset of 359 patients ( p = 5.8 × 10e-6). At the protein level, PCAF, ADA3, and PACS1 expression were all significantly down-regulated in intestinal-type gastric cancer, and correlated with reduced progression free survival. We conclude that a pro-apoptotic mechanism centered on the intrinsic (mitochondrial) pathway and regulated by PCAF/ADA3 can influence the progression from premalignant to malignant change, and thus act as a tumor suppression mechanism in gastric cancer.

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          Global estimates of cancer prevalence for 27 sites in the adult population in 2008.

          Freddie Bray, Jian-Song Ren, Eric Masuyer (2013)
          Recent estimates of global cancer incidence and survival were used to update previous figures of limited duration prevalence to the year 2008. The number of patients with cancer diagnosed between 2004 and 2008 who were still alive at the end of 2008 in the adult population is described by world region, country and the human development index. The 5-year global cancer prevalence is estimated to be 28.8 million in 2008. Close to half of the prevalence burden is in areas of very high human development that comprise only one-sixth of the world's population. Breast cancer continues to be the most prevalent cancer in the vast majority of countries globally; cervix cancer is the most prevalent cancer in much of Sub-Saharan Africa and Southern Asia and prostate cancer dominates in North America, Oceania and Northern and Western Europe. Stomach cancer is the most prevalent cancer in Eastern Asia (including China); oral cancer ranks as the most prevalent cancer in Indian men and Kaposi sarcoma has the highest 5-year prevalence among men in 11 countries in Sub-Saharan Africa. The methods used to estimate point prevalence appears to give reasonable results at the global level. The figures highlight the need for long-term care targeted at managing patients with certain very frequently diagnosed cancer forms. To be of greater relevance to cancer planning, the estimation of other time-based measures of global prevalence is warranted. Copyright © 2012 UICC.
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            Duration of nuclear NF-kappaB action regulated by reversible acetylation.

            Chen Lf, W Fischle, E Verdin (2001)
            The nuclear expression and action of the nuclear factor kappa B (NF-kappaB) transcription factor requires signal-coupled phosphorylation and degradation of the IkappaB inhibitors, which normally bind and sequester this pleiotropically active factor in the cytoplasm. The subsequent molecular events that regulate the termination of nuclear NF-kappaB action remain poorly defined, although the activation of de novo IkappaBalpha gene expression by NF-kappaB likely plays a key role. Our studies now demonstrate that the RelA subunit of NF-kappaB is subject to inducible acetylation and that acetylated forms of RelA interact weakly, if at all, with IkappaBalpha. Acetylated RelA is subsequently deacetylated through a specific interaction with histone deacetylase 3 (HDAC3). This deacetylation reaction promotes effective binding to IkappaBalpha and leads in turn to IkappaBalpha-dependent nuclear export of the complex through a chromosomal region maintenance-1 (CRM-1)-dependent pathway. Deacetylation of RelA by HDAC3 thus acts as an intranuclear molecular switch that both controls the duration of the NF-kappaB transcriptional response and contributes to the replenishment of the depleted cytoplasmic pool of latent NF-kappaB-IkappaBalpha complexes.
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              p53 sites acetylated in vitro by PCAF and p300 are acetylated in vivo in response to DNA damage.

              Kevin Berger, Edward M. Scolnick, Raymond Trievel (1999)
              The p53 tumor suppressor protein is a sequence-specific transcription factor that modulates the response of cells to DNA damage. Recent studies suggest that full transcriptional activity of p53 requires the coactivators CREB binding protein (CBP)/p300 and PCAF. These coactivators interact with each other, and both possess intrinsic histone acetyltransferase activity. Furthermore, p300 acetylates p53 to activate its sequence-specific DNA binding activity in vitro. In this study, we demonstrate that PCAF also acetylates p53 in vitro at a lysine residue distinct from that acetylated by p300 and thereby increases p53's ability to bind to its cognate DNA site. We have generated antibodies to acetylated p53 peptides at either of the two lysine residues that are targeted by PCAF or p300 and have demonstrated that these antibodies are highly specific for both acetylation and the particular site. Using these antibodies, we detect acetylation of these sites in vivo, and interestingly, acetylation at both sites increases in response to DNA-damaging agents. These data indicate that site-specific acetylation of p53 increases under physiological conditions that activate p53 and identify CBP/p300 and PCAF as the probable enzymes that modify p53 in vivo.
              Article 0 comments Cited 120 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Joseph A. Trapani: +613 8559 5939 , joe.trapani@petermac.org
                Journal
                Journal ID (nlm-ta): Cell Death Dis
                Journal ID (iso-abbrev): Cell Death Dis
                Title: Cell Death & Disease
                Publisher: Nature Publishing Group UK (London )
                ISSN (Electronic): 2041-4889
                Publication date (Electronic): 18 April 2018
                Publication date PMC-release: 18 April 2018
                Publication date Collection: May 2018
                Volume: 9
                Issue: 5
                Electronic Location Identifier: 442
                Affiliations
                [1 ]ISNI 0000 0001 2179 088X, GRID grid.1008.9, Sir Peter MacCallum Department of Oncology, , The University of Melbourne, ; Parkville, VIC Australia
                [2 ]ISNI 0000000403978434, GRID grid.1055.1, Cancer Immunology Program, , Peter MacCallum Cancer Centre, ; Melbourne, VIC Australia
                [3 ]ISNI 0000 0004 1936 7857, GRID grid.1002.3, School of Clinical Sciences, , Monash University, ; Clayton, VIC Australia
                [4 ]ISNI 0000000403978434, GRID grid.1055.1, Upper Gastrointestinal Translational Research Laboratory, , Peter MacCallum Cancer Centre, ; Melbourne, VIC Australia
                [5 ]ISNI 0000 0001 2179 088X, GRID grid.1008.9, Department of Medicine, Royal Melbourne Hospital, , The University of Melbourne, ; Parkville, VIC Australia
                [6 ]ISNI 0000000403978434, GRID grid.1055.1, Cancer Therapeutics Program, , Peter MacCallum Cancer Centre, ; Melbourne, VIC Australia
                Author information
                http://orcid.org/0000-0001-5956-9611
                Article
                Publisher ID: 470
                DOI: 10.1038/s41419-018-0470-8
                PMC ID: 5906598
                PubMed ID: 29670108
                SO-VID: 5e4042a6-6cd8-48bd-b0ee-e6c2eeff2031
                Copyright © © The Author(s) 2018
                License:

                Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.

                History
                Date received : 6 July 2017
                Date revision received : 10 January 2018
                Date accepted : 6 March 2018
                Categories
                Subject: Article
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                issue-copyright-statement © The Author(s) 2018

                ScienceOpen disciplines: Cell biology
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                ScienceOpen disciplines: Cell biology

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