TY - JOUR A1 - Blanco, Ignacio A1 - Kuchenbaecker, Karoline A1 - Cuadras, Daniel A1 - Wang, Xianshu A1 - Barrowdale, Daniel A1 - Ruiz de Garibay, Gorka A1 - Librado, Pablo A1 - Sanchez-Gracia, Alejandro A1 - Rozas, Julio A1 - Bonifaci, Núria A1 - McGuffog, Lesley A1 - Pankratz, Vernon S. A1 - Islam, Abul A1 - Mateo, Francesca A1 - Berenguer, Antoni A1 - Petit, Anna A1 - Català, Isabel A1 - Brunet, Joan A1 - Feliubadaló, Lidia A1 - Tornero, Eva A1 - Benítez, Javier A1 - Osorio, Ana A1 - Ramón y Cajal, Teresa A1 - Nevanlinna, Heli A1 - Aittomäki, Kristina A1 - Arun, Banu K. A1 - Toland, Amanda E. A1 - Karlan, Beth Y. A1 - Walsh, Christine A1 - Lester, Jenny A1 - Greene, Mark H. A1 - Mai, Phuong L. A1 - Nussbaum, Robert L. A1 - Andrulis, Irene L. A1 - Domchek, Susan M. A1 - Nathanson, Katherine L. A1 - Rebbeck, Timothy R. A1 - Barkardottir, Rosa B. A1 - Jakubowska, Anna A1 - Lubinski, Jan A1 - Durda, Katarzyna A1 - Jaworska-Bieniek, Katarzyna A1 - Claes, Kathleen A1 - Van Maerken, Tom A1 - Díez, Orland A1 - Hansen, Thomas V. A1 - Jønson, Lars A1 - Gerdes, Anne-Marie A1 - Ejlertsen, Bent A1 - De la Hoya, Miguel A1 - Caldés, Trinidad A1 - Dunning, Alison M. A1 - Oliver, Clare A1 - Fineberg, Elena A1 - Cook, Margaret A1 - Peock, Susan A1 - McCann, Emma A1 - Murray, Alex A1 - Jacobs, Chris A1 - Pichert, Gabriella A1 - Lalloo, Fiona A1 - Chu, Carol A1 - Dorkins, Huw A1 - Paterson, Joan A1 - Ong, Kai-Ren A1 - Teixeira, Manuel R. A1 - Hogervorst, Frans B. L. A1 - Van der Hout, Annemarie H. A1 - Seynaeve, Caroline A1 - Van der Luijt, Rob B. A1 - Ligtenberg, Marjolijn J. L. A1 - Devilee, Peter A1 - Wijnen, Juul T. A1 - Rookus, Matti A. A1 - Meijers-Heijboer, Hanne E. J. A1 - Blok, Marinus J. A1 - Van den Ouweland, Ans M. W. A1 - Aalfs, Cora M. A1 - Rodriguez, Gustavo C. A1 - Phillips, Kelly-Anne A. A1 - Piedmonte, Marion A1 - Nerenstone, Stacy R. A1 - Bae-Jump, Victoria L. A1 - O'Malley, David M. A1 - Schmutzler, Rita K. A1 - Wappenschmidt, Barbara A1 - Rhiem, Kerstin A1 - Engel, Christoph A1 - Meindl, Alfons A1 - Ditsch, Nina A1 - Arnold, Norbert A1 - Plendl, Hansjoerg J. A1 - Niederacher, Dieter A1 - Sutter, Christian A1 - Wang-Gohrke, Shan A1 - Steinemann, Doris A1 - Preisler-Adams, Sabine A1 - Kast, Karin A1 - Varon-Mateeva, Raymonda A1 - Gehrig, Andrea A1 - Bojesen, Anders A1 - Pedersen, Inge Sokilde A1 - Sunde, Lone A1 - Birk Jensen, Uffe A1 - Thomassen, Mads A1 - Kruse, Torben A. A1 - Foretova, Lenka A1 - Peterlongo, Paolo A1 - Bernard, Loris A1 - Peissel, Bernard A1 - Scuvera, Giulietta A1 - Manoukian, Siranoush A1 - Radice, Paolo A1 - Ottini, Laura A1 - Montagna, Marco A1 - Agata, Simona A1 - Maugard, Christine A1 - Simard, Jacques A1 - Soucy, Penny A1 - Berger, Andreas A1 - Fink-Retter, Anneliese A1 - Singer, Christian F. A1 - Rappaport, Christine A1 - Geschwantler-Kaulich, Daphne A1 - Tea, Muy-Kheng A1 - Pfeiler, Georg A1 - John, Esther M. A1 - Miron, Alex A1 - Neuhausen, Susan L. A1 - Terry, Mary Beth A1 - Chung, Wendy K. A1 - Daly, Mary B. A1 - Goldgar, David E. A1 - Janavicius, Ramunas A1 - Dorfling, Cecilia M. A1 - Van Rensburg, Elisabeth J. A1 - Fostira, Florentia A1 - Konstantopoulou, Irene A1 - Garber, Judy A1 - Godwin, Andrew K. A1 - Olah, Edith A1 - Narod, Steven A. A1 - Rennert, Gad A1 - Paluch, Shani Shimon A1 - Laitman, Yael A1 - Friedman, Eitan A1 - Liljegren, Annelie A1 - Rantala, Johanna A1 - Stenmark-Askmalm, Marie A1 - Loman, Niklas A1 - Imyanitov, Evgeny N. A1 - Hamann, Ute A1 - Spurdle, Amanda B. A1 - Healey, Sue A1 - Weitzel, Jeffrey N. A1 - Herzog, Josef A1 - Margileth, David A1 - Gorrini, Chiara A1 - Esteller, Manel A1 - Gómez, Antonio A1 - Sayols, Sergi A1 - Vidal, Enrique A1 - Heyn, Holger A1 - Stoppa-Lyonnet, Dominique A1 - Léoné, Melanie A1 - Barjhoux, Laure A1 - Fassy-Colcombet, Marion A1 - Pauw, Antoine de A1 - Lasset, Christine A1 - Fert Ferrer, Sandra A1 - Castera, Laurent A1 - Berthet, Pascaline A1 - Cornelis, François A1 - Bignon, Yves-Jean A1 - Damiola, Francesca A1 - Mazoyer, Sylvie A1 - Sinilnikova, Olga M. A1 - Maxwell, Christopher A. A1 - Vijai, Joseph A1 - Robson, Mark A1 - Kauff, Noah A1 - Corines, Marina J. A1 - Villano, Danylko A1 - Cunningham, Julie A1 - Lee, Adam A1 - Lindor, Noralane A1 - Lázaro, Conxi A1 - Easton, Douglas F. A1 - Offit, Kenneth A1 - Chenevix-Trench, Georgia A1 - Couch, Fergus J. A1 - Antoniou, Antonis C. A1 - Pujana, Miguel Angel T1 - Assessing associations between the AURKA-HMMR-TPX2-TUBG1 functional module and breast cancer risk in BRCA1/2 mutation carriers JF - PLoS ONE N2 - While interplay between BRCA1 and AURKA-RHAMM-TPX2-TUBG1 regulates mammary epithelial polarization, common genetic variation in HMMR (gene product RHAMM) may be associated with risk of breast cancer in BRCA1 mutation carriers. Following on these observations, we further assessed the link between the AURKA-HMMR-TPX2-TUBG1 functional module and risk of breast cancer in BRCA1 or BRCA2 mutation carriers. Forty-one single nucleotide polymorphisms (SNPs) were genotyped in 15,252 BRCA1 and 8,211 BRCA2 mutation carriers and subsequently analyzed using a retrospective likelihood approach. The association of HMMR rs299290 with breast cancer risk in BRCA1 mutation carriers was confirmed: per-allele hazard ratio (HR) = 1.10, 95% confidence interval (CI) 1.04 - 1.15, p = 1.9 x 10\(^{-4}\) (false discovery rate (FDR)-adjusted p = 0.043). Variation in CSTF1, located next to AURKA, was also found to be associated with breast cancer risk in BRCA2 mutation carriers: rs2426618 per-allele HR = 1.10, 95% CI 1.03 - 1.16, p = 0.005 (FDR-adjusted p = 0.045). Assessment of pairwise interactions provided suggestions (FDR-adjusted p\(_{interaction}\) values > 0.05) for deviations from the multiplicative model for rs299290 and CSTF1 rs6064391, and rs299290 and TUBG1 rs11649877 in both BRCA1 and BRCA2 mutation carriers. Following these suggestions, the expression of HMMR and AURKA or TUBG1 in sporadic breast tumors was found to potentially interact, influencing patients' survival. Together, the results of this study support the hypothesis of a causative link between altered function of AURKA-HMMR-TPX2-TUBG1 and breast carcinogenesis in BRCA1/2 mutation carriers. KW - genetic interaction networks KW - genome-wide association KW - expression signature KW - susceptibility loci KW - survival KW - modifiers KW - polymorphism KW - cell KW - chip-seq KW - elements Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-143469 VL - 10 IS - 4 ER - TY - JOUR A1 - Wilson, Duncan A1 - Ambler, Gareth A1 - Lee, Keon-Joo A1 - Lim, Jae-Sung A1 - Shiozawa, Masayuki A1 - Koga, Masatoshi A1 - Li, Linxin A1 - Lovelock, Caroline A1 - Chabriat, Hugues A1 - Hennerici, Michael A1 - Wong, Yuen Kwun A1 - Mak, Henry Ka Fung A1 - Prats-Sánchez, Luis A1 - Martínez-Domeño, Alejandro A1 - Inamura, Shigeru A1 - Yoshifuji, Kazuhisa A1 - Arsava, Ethem Murat A1 - Horstmann, Solveig A1 - Purrucker, Jan A1 - Lam, Bonnie Yin Ka A1 - Wong, Adrian A1 - Kim, Young Dae A1 - Song, Tae-Jin A1 - Schrooten, Maarten A1 - Lemmens, Robin A1 - Eppinger, Sebastian A1 - Gattringer, Thomas A1 - Uysal, Ender A1 - Tanriverdi, Zeynep A1 - Bornstein, Natan M A1 - Ben Assayag, Einor A1 - Hallevi, Hen A1 - Tanaka, Jun A1 - Hara, Hideo A1 - Coutts, Shelagh B A1 - Hert, Lisa A1 - Polymeris, Alexandros A1 - Seiffge, David J A1 - Lyrer, Philippe A1 - Algra, Ale A1 - Kappelle, Jaap A1 - Salman, Rustam Al-Shahi A1 - Jäger, Hans R A1 - Lip, Gregory Y H A1 - Mattle, Heinrich P A1 - Panos, Leonidas D A1 - Mas, Jean-Louis A1 - Legrand, Laurence A1 - Karayiannis, Christopher A1 - Phan, Thanh A1 - Gunkel, Sarah A1 - Christ, Nicolas A1 - Abrigo, Jill A1 - Leung, Thomas A1 - Chu, Winnie A1 - Chappell, Francesca A1 - Makin, Stephen A1 - Hayden, Derek A1 - Williams, David J A1 - Kooi, M Eline A1 - van Dam-Nolen, Dianne H K A1 - Barbato, Carmen A1 - Browning, Simone A1 - Wiegertjes, Kim A1 - Tuladhar, Anil M A1 - Maaijwee, Noortje A1 - Guevarra, Christine A1 - Yatawara, Chathuri A1 - Mendyk, Anne-Marie A1 - Delmaire, Christine A1 - Köhler, Sebastian A1 - van Oostenbrugge, Robert A1 - Zhou, Ying A1 - Xu, Chao A1 - Hilal, Saima A1 - Gyanwali, Bibek A1 - Chen, Christopher A1 - Lou, Min A1 - Staals, Julie A1 - Bordet, Régis A1 - Kandiah, Nagaendran A1 - de Leeuw, Frank-Erik A1 - Simister, Robert A1 - van der Lugt, Aad A1 - Kelly, Peter J A1 - Wardlaw, Joanna M A1 - Soo, Yannie A1 - Fluri, Felix A1 - Srikanth, Velandai A1 - Calvet, David A1 - Jung, Simon A1 - Kwa, Vincent I H A1 - Engelter, Stefan T A1 - Peters, Nils A1 - Smith, Eric E A1 - Yakushiji, Yusuke A1 - Necioglu Orken, Dilek A1 - Fazekas, Franz A1 - Thijs, Vincent A1 - Heo, Ji Hoe A1 - Mok, Vincent A1 - Veltkamp, Roland A1 - Ay, Hakan A1 - Imaizumi, Toshio A1 - Gomez-Anson, Beatriz A1 - Lau, Kui Kai A1 - Jouvent, Eric A1 - Rothwell, Peter M A1 - Toyoda, Kazunori A1 - Bae, Hee-Yoon A1 - Marti-Fabregas, Joan A1 - Werring, David J T1 - Cerebral microbleeds and stroke risk after ischaemic stroke or transient ischaemic attack: a pooled analysis of individual patient data from cohort studies JF - The Lancet Neurology N2 - Background Cerebral microbleeds are a neuroimaging biomarker of stroke risk. A crucial clinical question is whether cerebral microbleeds indicate patients with recent ischaemic stroke or transient ischaemic attack in whom the rate of future intracranial haemorrhage is likely to exceed that of recurrent ischaemic stroke when treated with antithrombotic drugs. We therefore aimed to establish whether a large burden of cerebral microbleeds or particular anatomical patterns of cerebral microbleeds can identify ischaemic stroke or transient ischaemic attack patients at higher absolute risk of intracranial haemorrhage than ischaemic stroke. Methods We did a pooled analysis of individual patient data from cohort studies in adults with recent ischaemic stroke or transient ischaemic attack. Cohorts were eligible for inclusion if they prospectively recruited adult participants with ischaemic stroke or transient ischaemic attack; included at least 50 participants; collected data on stroke events over at least 3 months follow-up; used an appropriate MRI sequence that is sensitive to magnetic susceptibility; and documented the number and anatomical distribution of cerebral microbleeds reliably using consensus criteria and validated scales. Our prespecified primary outcomes were a composite of any symptomatic intracranial haemorrhage or ischaemic stroke, symptomatic intracranial haemorrhage, and symptomatic ischaemic stroke. We registered this study with the PROSPERO international prospective register of systematic reviews, number CRD42016036602. Findings Between Jan 1, 1996, and Dec 1, 2018, we identified 344 studies. After exclusions for ineligibility or declined requests for inclusion, 20 322 patients from 38 cohorts (over 35 225 patient-years of follow-up; median 1·34 years [IQR 0·19–2·44]) were included in our analyses. The adjusted hazard ratio [aHR] comparing patients with cerebral microbleeds to those without was 1·35 (95% CI 1·20–1·50) for the composite outcome of intracranial haemorrhage and ischaemic stroke; 2·45 (1·82–3·29) for intracranial haemorrhage and 1·23 (1·08–1·40) for ischaemic stroke. The aHR increased with increasing cerebral microbleed burden for intracranial haemorrhage but this effect was less marked for ischaemic stroke (for five or more cerebral microbleeds, aHR 4·55 [95% CI 3·08–6·72] for intracranial haemorrhage vs 1·47 [1·19–1·80] for ischaemic stroke; for ten or more cerebral microbleeds, aHR 5·52 [3·36–9·05] vs 1·43 [1·07–1·91]; and for ≥20 cerebral microbleeds, aHR 8·61 [4·69–15·81] vs 1·86 [1·23–2·82]). However, irrespective of cerebral microbleed anatomical distribution or burden, the rate of ischaemic stroke exceeded that of intracranial haemorrhage (for ten or more cerebral microbleeds, 64 ischaemic strokes [95% CI 48–84] per 1000 patient-years vs 27 intracranial haemorrhages [17–41] per 1000 patient-years; and for ≥20 cerebral microbleeds, 73 ischaemic strokes [46–108] per 1000 patient-years vs 39 intracranial haemorrhages [21–67] per 1000 patient-years). Interpretation In patients with recent ischaemic stroke or transient ischaemic attack, cerebral microbleeds are associated with a greater relative hazard (aHR) for subsequent intracranial haemorrhage than for ischaemic stroke, but the absolute risk of ischaemic stroke is higher than that of intracranial haemorrhage, regardless of cerebral microbleed presence, antomical distribution, or burden. Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-233710 VL - 18 ER - TY - JOUR A1 - Westbury, Sarah K A1 - Turro, Ernest A1 - Greene, Daniel A1 - Lentaigne, Claire A1 - Kelly, Anne M A1 - Bariana, Tadbir K A1 - Simeoni, Ilenia A1 - Pillois, Xavier A1 - Attwood, Antony A1 - Austin, Steve A1 - Jansen, Sjoert BG A1 - Bakchoul, Tamam A1 - Crisp-Hihn, Abi A1 - Erber, Wendy N A1 - Favier, Rémi A1 - Foad, Nicola A1 - Gattens, Michael A1 - Jolley, Jennifer D A1 - Liesner, Ri A1 - Meacham, Stuart A1 - Millar, Carolyn M A1 - Nurden, Alan T A1 - Peerlinck, Kathelijne A1 - Perry, David J A1 - Poudel, Pawan A1 - Schulman, Sol A1 - Schulze, Harald A1 - Stephens, Jonathan C A1 - Furie, Bruce A1 - Robinson, Peter N A1 - van Geet, Chris A1 - Rendon, Augusto A1 - Gomez, Keith A1 - Laffan, Michael A A1 - Lambert, Michele P A1 - Nurden, Paquita A1 - Ouwehand, Willem H A1 - Richardson, Sylvia A1 - Mumford, Andrew D A1 - Freson, Kathleen T1 - Human phenotype ontology annotation and cluster analysis to unravel genetic defects in 707 cases with unexplained bleeding and platelet disorders JF - Genome Medicine N2 - Background: Heritable bleeding and platelet disorders (BPD) are heterogeneous and frequently have an unknown genetic basis. The BRIDGE-BPD study aims to discover new causal genes for BPD by high throughput sequencing using cluster analyses based on improved and standardised deep, multi-system phenotyping of cases. Methods: We report a new approach in which the clinical and laboratory characteristics of BPD cases are annotated with adapted Human Phenotype Ontology (HPO) terms. Cluster analyses are then used to characterise groups of cases with similar HPO terms and variants in the same genes. Results: We show that 60% of index cases with heritable BPD enrolled at 10 European or US centres were annotated with HPO terms indicating abnormalities in organ systems other than blood or blood-forming tissues, particularly the nervous system. Cases within pedigrees clustered closely together on the bases of their HPO-coded phenotypes, as did cases sharing several clinically suspected syndromic disorders. Cases subsequently found to harbour variants in ACTN1 also clustered closely, even though diagnosis of this recently described disorder was not possible using only the clinical and laboratory data available to the enrolling clinician. Conclusions: These findings validate our novel HPO-based phenotype clustering methodology for known BPD, thus providing a new discovery tool for BPD of unknown genetic basis. This approach will also be relevant for other rare diseases with significant genetic heterogeneity. KW - disease KW - thrombocytopenia KW - guidelines KW - complex Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-143329 VL - 7 IS - 36 ER -