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      FANCM c.5101C>T mutation associates with breast cancer survival and treatment outcome

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          Abstract

          Breast cancer (BC) is a heterogeneous disease, and different tumor characteristics and genetic variation may affect the clinical outcome. The FANCM c.5101C > T nonsense mutation in the Finnish population associates with increased risk of breast cancer, especially for triple‐negative breast cancer patients. To investigate the association of the mutation with disease prognosis, we studied tumor phenotype, treatment outcome, and patient survival in 3,933 invasive breast cancer patients, including 101 FANCM c.5101C > T mutation carriers and 3,832 non‐carriers. We also examined association of the mutation with nuclear immunohistochemical staining of DNA repair markers in 1,240 breast tumors. The FANCM c.5101C > T mutation associated with poor 10‐year breast cancer‐specific survival (hazard ratio (HR)=1.66, 95% confidence interval (CI) 1.09–2.52, p = 0.018), with a more pronounced survival effect among familial cases (HR = 2.93, 95% CI 1.5–5.76, p = 1.80 × 10 −3). Poor disease outcome of the carriers was also found among the estrogen receptor (ER) positive subgroup of patients (HR = 1.8, 95% CI 1.09–2.98, p = 0.021). Reduced survival was seen especially among patients who had not received radiotherapy (HR = 3.43, 95% CI 1.6–7.34, p = 1.50 × 10 −3) but not among radiotherapy treated patients (HR = 1.35, 95% CI 0.82–2.23, p = 0.237). Significant interaction was found between the mutation and radiotherapy ( p = 0.040). Immunohistochemical analyses show that c.5101C > T carriers have reduced PAR‐activity. Our results suggest that FANCM c.5101C > T nonsense mutation carriers have a reduced breast cancer survival but postoperative radiotherapy may diminish this survival disadvantage.

          Abstract

          What's new?

          Variations in DNA repair genes can predispose individuals to breast cancer, with one example being FANCM c.5101C > T, a nonsense mutation in the Fanconi Anemia DNA repair pathway. In previous work, FANCM c.5101C > T was associated with increased breast cancer risk in the Finnish population. Here, the mutation is further shown to be associated with adverse breast cancer outcome. Mutation‐positive Finnish patients exhibited reduced long‐term survival and increased risk of disease recurrence. Survival was worse particularly for patients who were not treated with radiotherapy, indicating that FANCM c.5101C>T may interact with radiotherapy to improve disease outcome in mutation carriers.

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          Poly(ADP-ribosyl)ation reactions in the regulation of nuclear functions.

          D D'Amours, S Desnoyers, I. D'silva (1999)
          Poly(ADP-ribosyl)ation is a post-translational modification of proteins. During this process, molecules of ADP-ribose are added successively on to acceptor proteins to form branched polymers. This modification is transient but very extensive in vivo, as polymer chains can reach more than 200 units on protein acceptors. The existence of the poly(ADP-ribose) polymer was first reported nearly 40 years ago. Since then, the importance of poly(ADP-ribose) synthesis has been established in many cellular processes. However, a clear and unified picture of the physiological role of poly(ADP-ribosyl)ation still remains to be established. The total dependence of poly(ADP-ribose) synthesis on DNA strand breaks strongly suggests that this post-translational modification is involved in the metabolism of nucleic acids. This view is also supported by the identification of direct protein-protein interactions involving poly(ADP-ribose) polymerase (113 kDa PARP), an enzyme catalysing the formation of poly(ADP-ribose), and key effectors of DNA repair, replication and transcription reactions. The presence of PARP in these multiprotein complexes, in addition to the actual poly(ADP-ribosyl)ation of some components of these complexes, clearly supports an important role for poly(ADP-ribosyl)ation reactions in DNA transactions. Accordingly, inhibition of poly(ADP-ribose) synthesis by any of several approaches and the analysis of PARP-deficient cells has revealed that the absence of poly(ADP-ribosyl)ation strongly affects DNA metabolism, most notably DNA repair. The recent identification of new poly(ADP-ribosyl)ating enzymes with distinct (non-standard) structures in eukaryotes and archaea has revealed a novel level of complexity in the regulation of poly(ADP-ribose) metabolism.
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            PARP is activated at stalled forks to mediate Mre11-dependent replication restart and recombination.

            Helen E. Bryant, Eva Petermann, Niklas Schultz (2009)
            If replication forks are perturbed, a multifaceted response including several DNA repair and cell cycle checkpoint pathways is activated to ensure faithful DNA replication. Here, we show that poly(ADP-ribose) polymerase 1 (PARP1) binds to and is activated by stalled replication forks that contain small gaps. PARP1 collaborates with Mre11 to promote replication fork restart after release from replication blocks, most likely by recruiting Mre11 to the replication fork to promote resection of DNA. Both PARP1 and PARP2 are required for hydroxyurea-induced homologous recombination to promote cell survival after replication blocks. Together, our data suggest that PARP1 and PARP2 detect disrupted replication forks and attract Mre11 for end processing that is required for subsequent recombination repair and restart of replication forks.
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              CHEK2*1100delC and susceptibility to breast cancer: a collaborative analysis involving 10,860 breast cancer cases and 9,065 controls from 10 studies.

              (2004)
              Previous studies of families with multiple cases of breast cancer have indicated that a frameshift alteration in the CHEK2 gene, 1100delC, is associated with an elevated frequency of breast cancer in such families, but the risk associated with the variant in other situations is uncertain. To evaluate the breast cancer risk associated with this variant, 10,860 breast cancer cases and 9,065 controls from 10 case-control studies in five countries were genotyped. CHEK2*1100delC was found in 201 cases (1.9%) and 64 controls (0.7%) (estimated odds ratio 2.34; 95% CI 1.72-3.20; P=.0000001). There was some evidence of a higher prevalence of CHEK2*1100delC among cases with a first-degree relative affected with breast cancer (odds ratio 1.44; 95% CI 0.93-2.23; P=.10) and of a trend for a higher breast cancer odds ratio at younger ages at diagnosis (P=.002). These results confirm that CHEK2*1100delC confers an increased risk of breast cancer and that this risk is apparent in women unselected for family history. The results are consistent with the hypothesis that CHEK2*1100delC multiplies the risks associated with susceptibility alleles in other genes to increase the risk of breast cancer.
              Article 0 comments Cited 131 times – based on 0 reviews     Review now
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                Author and article information

                Contributors
                Heli Nevanlinna: heli.nevanlinna@hus.fi
                Journal
                Journal ID (nlm-ta): Int J Cancer
                Journal ID (iso-abbrev): Int. J. Cancer
                Journal ID (doi): 10.1002/(ISSN)1097-0215
                Journal ID (publisher-id): IJC
                Title: International Journal of Cancer
                Publisher: John Wiley and Sons Inc. (Hoboken )
                ISSN (Print): 0020-7136
                ISSN (Electronic): 1097-0215
                Publication date (Electronic): 19 September 2016
                Publication date (Print): 15 December 2016
                Volume: 139
                Issue: 12 ( doiID: 10.1002/ijc.v139.12 )
                Pages: 2760-2770
                Affiliations
                [ 1 ] Department of Obstetrics and GynecologyUniversity of Helsinki and Helsinki University Hospital HelsinkiFinland
                [ 2 ] Laboratory of Cancer Genetics and Tumor BiologyCancer and Translational Medicine Research Unit, Biocenter Oulu, University of Oulu OuluFinland
                [ 3 ] Laboratory of Cancer Genetics and Tumor Biology, Northern Finland Laboratory CentreNordLab OuluFinland
                [ 4 ]Danish Cancer Society Research Center CopenhagenDenmark
                [ 5 ] Department of Biochemistry and Biophysics, Division of Translational Medicine and Chemical Biology, Science for Life Laboratory Karolinska Institute StockholmSweden
                [ 6 ] School of Medicine, Institute of Clinical Medicine, Pathology and Forensic Medicine, and Cancer Center of Eastern Finland University of Eastern Finland KuopioFinland
                [ 7 ]Imaging Center, Clinical Pathology, Kuopio University Hospital KuopioFinland
                [ 8 ]School of Medicine, Institute of Clinical Medicine, Oncology KuopioFinland
                [ 9 ]Cancer Center, Kuopio University Hospital KuopioFinland
                [ 10 ]BioMediTech, University of Tampere and Fimlab Laboratories TampereFinland
                [ 11 ] Department of Clinical GeneticsUniversity of Helsinki and Helsinki University Hospital HelsinkiFinland
                [ 12 ] Department of OncologyUniversity of Helsinki and Helsinki University Hospital HelsinkiFinland
                Author notes
                [*] [* ] Correspondence to: Dr. Heli Nevanlinna, Helsinki University Central Hospital, Department of Obstetrics and Gynecology, Biomedicum Helsinki, PO Box 700, 00029 HUS, Finland, Tel.: +358 9 4717 1750, Fax: +358 9 4717 1751, E‐mail: heli.nevanlinna@ 123456hus.fi
                Article
                Publisher ID: IJC30394
                DOI: 10.1002/ijc.30394
                PMC ID: 5095781
                PubMed ID: 27542569
                SO-VID: 1e047732-9644-430c-84b4-7a10aba01ddf
                Copyright © © 2016 The Authors International Journal of Cancer published by John Wiley & Sons Ltd on behalf of UICC
                License:

                This is an open access article under the terms of the Creative Commons Attribution‐NonCommercial‐NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.

                History
                Date received : 30 March 2016
                Date accepted : 19 July 2016
                Page count
                Figures: 2, Tables: 3, Pages: 11, Words: 5391
                Funding
                Funded by: Paulo Foundation
                Funded by: Finnish Cultural Foundation
                Funded by: Biomedicum Helsinki Foundation
                Funded by: Swedish Research Council and CancerFonden
                Funded by: Oulun Yliopisto
                Funded by: Helsinki University Central Hospital Research Fund
                Funded by: Sigrid Juselius Foundation
                Funded by: Cancer Society of Finland
                Funded by: The Danish Cancer Society
                Funded by: Novo Nordisk Foundation
                Funded by: Suomen Akatemia
                Award ID: 132473
                Award ID: 250083
                Award ID: 284605
                Funded by: Danish National Research Foundation
                Funded by: University of Oulu Support Foundation
                Funded by: Governmental EVO funds for Oulu University Hospital-based research activities
                Funded by: Government Funding of Kuopio University Hospital Grants
                Funded by: Strategic fund of the University of Eastern Finland
                Categories
                Subject: Cancer Genetics and Epigenetics
                Subject: Cancer Genetics and Epigenetics
                Custom metadata
                source-schema-version-number 2.0
                component-id ijc30394
                cover-date 15 December 2016
                details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_NLMPMC version:4.9.6 mode:remove_FC converted:04.11.2016

                ScienceOpen disciplines: Oncology & Radiotherapy
                Keywords: fancm,breast cancer,survival,dna repair,radiotherapy
                Data availability:
                ScienceOpen disciplines: Oncology & Radiotherapy
                Keywords: fancm, breast cancer, survival, dna repair, radiotherapy

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