Fine-mapping of 150 breast cancer risk regions identifies 191 likely target genes.

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Laura Fachal
Hugues Aschard
Jonathan Beesley
Daniel R Barnes
Jamie Allen
Siddhartha Kar
Karen A Pooley
Joe Dennis
Kyriaki Michailidou
Constance Turman
Penny Soucy
Audrey Lemaçon
Michael Lush
Jonathan P Tyrer
Maya Ghoussaini
Mahdi Moradi Marjaneh
Xia Jiang
Simona Agata
Kristiina Aittomäki
M Rosario Alonso
Irene L Andrulis
Hoda Anton-Culver
Natalia N Antonenkova
Adalgeir Arason
Volker Arndt
Kristan J Aronson
Banu K Arun
Bernd Auber
Paul L Auer
Jacopo Azzollini
Judith Balmaña
Rosa B Barkardottir
Daniel Barrowdale
Alicia Beeghly-Fadiel
Javier Benitez
Marina Bermisheva
Katarzyna Białkowska
Amie M Blanco
Carl Blomqvist
William Blot
Natalia V Bogdanova
Stig E Bojesen
Manjeet K Bolla
Bernardo Bonanni
Ake Borg
Kristin Bosse
Hiltrud Brauch
Hermann Brenner
Ignacio Briceno
Ian W Brock
Angela Brooks-Wilson
Thomas Brüning
Barbara Burwinkel
Saundra S Buys
Qiuyin Cai
Trinidad Caldés
Maria A Caligo
Nicola J Camp
Ian Campbell
Federico Canzian
Jason S Carroll
Brian D Carter
Jose E Castelao
Jocelyne Chiquette
Hans Christiansen
Wendy K Chung
Kathleen B M Claes
Christine L Clarke
J Margriet Collée
Sten Cornelissen
Fergus J Couch
Angela Cox
Simon S Cross
Cezary Cybulski
Kamila Czene
Mary B Daly
Miguel de la Hoya
Peter Devilee
Orland Diez
Yuan Chun Ding
Gillian S Dite
Susan M Domchek
Thilo Dörk
Isabel Dos-Santos-Silva
Arnaud Droit
Stéphane Dubois
Martine Dumont
Mercedes Duran
Lorraine Durcan
Miriam Dwek
Diana M Eccles
Christoph Engel
Mikael Eriksson
D Gareth Evans
Peter A Fasching
Olivia Fletcher
Giuseppe Floris
Henrik Flyger
Lenka Foretova
William D Foulkes
Eitan Friedman
Lin Fritschi
Debra Frost
Marike Gabrielson
Manuela Gago-Dominguez
Gaetana Gambino
Patricia A Ganz
Susan M Gapstur
Judy Garber
José A García-Sáenz
Mia M Gaudet
Vassilios Georgoulias
Graham G Giles
Gord Glendon
Andrew K Godwin
Mark S Goldberg
David E Goldgar
Anna González-Neira
Maria Grazia Tibiletti
Mark H Greene
Mervi Grip
Jacek Gronwald
Anne Grundy
Pascal Guénel
Eric Hahnen
Christopher A Haiman
Niclas Håkansson
Per Hall
Ute Hamann
Patricia A Harrington
Jaana M Hartikainen
Mikael Hartman
Wei He
Catherine S Healey
Bernadette A M Heemskerk-Gerritsen
Jane Heyworth
Peter Hillemanns
Frans B L Hogervorst
Antoinette Hollestelle
Maartje J Hooning
John L Hopper
Anthony Howell
Guanmengqian Huang
Peter J Hulick
Evgeny N Imyanitov
Claudine Isaacs
Motoki Iwasaki
Agnes Jager
Milena Jakimovska
Anna Jakubowska
Paul A James
Ramunas Janavicius
Rachel C Jankowitz
Esther M John
Nichola Johnson
Michael E Jones
Arja Jukkola-Vuorinen
Audrey Jung
Rudolf Kaaks
Daehee Kang
Pooja Middha Kapoor
Beth Y Karlan
Renske Keeman
Michael J Kerin
Elza Khusnutdinova
Johanna I Kiiski
Judy Kirk
Cari M Kitahara
Yon-Dschun Ko
Irene Konstantopoulou
Veli-Matti Kosma
Stella Koutros
Katerina Kubelka-Sabit
Ava Kwong
Kyriacos Kyriacou
Yael Laitman
Diether Lambrechts
Eunjung Lee
Goska Leslie
Jenny Lester
Fabienne Lesueur
Annika Lindblom
Wing-Yee Lo
Jirong Long
Artitaya Lophatananon
Jennifer T Loud
Jan Lubiński
Robert J MacInnis
Tom Maishman
Enes Makalic
Arto Mannermaa
Mehdi Manoochehri
Siranoush Manoukian
Sara Margolin
Maria Elena Martinez
Keitaro Matsuo
Tabea Maurer
Dimitrios Mavroudis
Rebecca Mayes
Lesley McGuffog
Catriona McLean
Noura Mebirouk
Alfons Meindl
Austin Miller
Nicola Miller
Marco Montagna
Fernando Moreno
Kenneth Muir
Anna Marie Mulligan
Victor M Muñoz-Garzon
Taru A Muranen
Steven A Narod
Rami Nassir
Katherine L Nathanson
Susan L Neuhausen
Heli Nevanlinna
Patrick Neven
Finn C Nielsen
Liene Nikitina-Zake
Aaron Norman
Kenneth Offit
Edith Olah
Olufunmilayo I Olopade
Håkan Olsson
Nick Orr
Ana Osorio
V Shane Pankratz
Janos Papp
Sue K Park
Tjoung-Won Park-Simon
Michael T Parsons
James Paul
Inge Sokilde Pedersen
Bernard Peissel
Beth Peshkin
Paolo Peterlongo
Julian Peto
Dijana Plaseska-Karanfilska
Karolina Prajzendanc
Ross Prentice
Nadege Presneau
Darya Prokofyeva
Miquel Angel Pujana
Katri Pylkäs
Paolo Radice
Susan J Ramus
Johanna Rantala
Rohini Rau-Murthy
Gad Rennert
Harvey A Risch
Mark Robson
Atocha Romero
Maria Rossing
Emmanouil Saloustros
Estela Sánchez-Herrero
Dale P Sandler
Marta Santamariña
Christobel Saunders
Elinor J Sawyer
Maren T Scheuner
Daniel F Schmidt
Rita K Schmutzler
Andreas Schneeweiss
Minouk J Schoemaker
Ben Schöttker
Peter Schürmann
Christopher Scott
Rodney J Scott
Leigha Senter
Caroline M Seynaeve
Mitul Shah
Priyanka Sharma
Chen-Yang Shen
Xiao-Ou Shu
Christian F Singer
Thomas P Slavin
Snezhana Smichkoska
Melissa C Southey
John J Spinelli
Amanda B Spurdle
Jennifer Stone
Dominique Stoppa-Lyonnet
Christian Sutter
Anthony J Swerdlow
Rulla M Tamimi
Yen Yen Tan
William J Tapper
Jack A Taylor
Manuel R Teixeira
Maria Tengström
Soo Hwang Teo
Mary Beth Terry
Alex Teulé
Mads Thomassen
Darcy L Thull
Marc Tischkowitz
Amanda E Toland
Rob A E M Tollenaar
Ian Tomlinson
Diana Torres
Gabriela Torres-Mejía
Melissa A Troester
Thérèse Truong
Nadine Tung
Maria Tzardi
Hans-Ulrich Ulmer
Celine M Vachon
Christi J van Asperen
Lizet E van der Kolk
Elizabeth J van Rensburg
Ana Vega
Alessandra Viel
Joseph Vijai
Maartje J Vogel
Qin Wang
Barbara Wappenschmidt
Clarice R Weinberg
Jeffrey N Weitzel
Camilla Wendt
Hans Wildiers
Robert Winqvist
Alicja Wolk
Anna H Wu
Drakoulis Yannoukakos
Yan Zhang
Wei Zheng
David Hunter
Paul D P Pharoah
Jenny Chang-Claude
Montserrat García-Closas
Marjanka K Schmidt
Roger L Milne
Vessela N Kristensen
Juliet D French
Stacey L Edwards
Antonis C Antoniou
Georgia Chenevix-Trench
Jacques Simard
Douglas F Easton
Peter Kraft
Alison M Dunning

Abstract

Genome-wide association studies have identified breast cancer risk variants in over 150 genomic regions, but the mechanisms underlying risk remain largely unknown. These regions were explored by combining association analysis with in silico genomic feature annotations. We defined 205 independent risk-associated signals with the set of credible causal variants in each one. In parallel, we used a Bayesian approach (PAINTOR) that combines genetic association, linkage disequilibrium and enriched genomic features to determine variants with high posterior probabilities of being causal. Potentially causal variants were significantly over-represented in active gene regulatory regions and transcription factor binding sites. We applied our INQUSIT pipeline for prioritizing genes as targets of those potentially causal variants, using gene expression (expression quantitative trait loci), chromatin interaction and functional annotations. Known cancer drivers, transcription factors and genes in the developmental, apoptosis, immune system and DNA integrity checkpoint gene ontology pathways were over-represented among the highest-confidence target genes.

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Nature genetics

Volume 52
Issue nr. 1
Pages 56-73
Publication date 01-01-2020

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Publisher website (DOI) 10.1038/s41588-019-0537-1
Europe PubMed Central 31911677
Pubmed 31911677

Fine-mapping of 150 breast cancer risk regions identifies 191 likely target genes.

Abstract

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