Combined genetic and splicing analysis of BRCA1 c.[594-2A>C; 641A>G] highlights the relevance of naturally occurring in-frame transcripts for developing disease gene variant classification algorithms

Miguel de la Hoya; Omar Soukarieh; Irene López-Perolio; Ana Vega; Logan C. Walker; Yvette van Ierland; Diana Baralle; Marta Santamariña; Vanessa Lattimore; Juul Wijnen; Philip Whiley; Ana Blanco; Michela Raponi; Jan Hauke; Barbara Wappenschmidt; Alexandra Becker; Thomas V.O. Hansen; Raquel Behar; Investigators KConFaB Investigators; Diether Niederacher; Norbert Arnold; Bernd Dworniczak; Doris Steinemann; Ulrike Faust; Wendy Rubinstein; Peter J. Hulick; Claude Houdayer; Sandrine M. Caputo; Laurent Castera; Tina Pesaran; Elizabeth Chao; Carole Brewer; Melissa C. Southey; Christi J. van Asperen; Christian F. Singer; Jan Sullivan; Nicola Poplawski; Phuong Mai; Julian Peto; Nichola Johnson; Barbara Burwinkel; Harald Surowy; Stig E. Bojesen; Henrik Flyger; Annika Lindblom; Sara Margolin; Jenny Chang-Claude; Anja Rudolph; Paolo Radice; Laura Galastri; Janet E. Olson; Emily Hallberg; Graham G. Giles; Roger L. Milne; Irene L. Andrulis; Gord Glendon; Per Hall; Kamila Czene; Fiona Blows; Mitul Shah; Qin Wang; Joe Dennis; Kyriaki Michailidou; Lesley McGuffog; Manjeet K. Bolla; Antonis C. Antoniou; Douglas F. Easton; Fergus J. Couch; Sean Tavtigian; Maaike P. Vreeswijk; Michael Parsons; Huong D. Meeks; Alexandra Martins; David E. Goldgar; Amanda B. Spurdle

doi:10.1093/hmg/ddw094

Combined genetic and splicing analysis of BRCA1 c.[594-2A>C; 641A>G] highlights the relevance of naturally occurring in-frame transcripts for developing disease gene variant classification algorithms

Miguel de la Hoya, Omar Soukarieh, Irene López-Perolio, Ana Vega, Logan C. Walker, Yvette van Ierland, Diana Baralle, Marta Santamariña, Vanessa Lattimore, Juul Wijnen, Philip Whiley, Ana Blanco, Michela Raponi, Jan Hauke, Barbara Wappenschmidt, Alexandra Becker, Thomas V.O. Hansen, Raquel Behar, Investigators KConFaB Investigators, Diether NiederacherNorbert Arnold, Bernd Dworniczak, Doris Steinemann, Ulrike Faust, Wendy Rubinstein, Peter J. Hulick, Claude Houdayer, Sandrine M. Caputo, Laurent Castera, Tina Pesaran, Elizabeth Chao, Carole Brewer, Melissa C. Southey, Christi J. van Asperen, Christian F. Singer, Jan Sullivan, Nicola Poplawski, Phuong Mai, Julian Peto, Nichola Johnson, Barbara Burwinkel, Harald Surowy, Stig E. Bojesen, Henrik Flyger, Annika Lindblom, Sara Margolin, Jenny Chang-Claude, Anja Rudolph, Paolo Radice, Laura Galastri, Janet E. Olson, Emily Hallberg, Graham G. Giles, Roger L. Milne, Irene L. Andrulis, Gord Glendon, Per Hall, Kamila Czene, Fiona Blows, Mitul Shah, Qin Wang, Joe Dennis, Kyriaki Michailidou, Lesley McGuffog, Manjeet K. Bolla, Antonis C. Antoniou, Douglas F. Easton, Fergus J. Couch, Sean Tavtigian, Maaike P. Vreeswijk, Michael Parsons, Huong D. Meeks, Alexandra Martins, David E. Goldgar, Amanda B. Spurdle

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

A recent analysis using family history weighting and co-observation classification modeling indicated that BRCA1 c.594-2A>C (IVS9-2A>C), previously described to cause exon 10 skipping (a truncating alteration), displays characteristics inconsistent with those of a high risk pathogenic BRCA1 variant. We used large-scale genetic and clinical resources from the ENIGMA, CIMBA and BCAC consortia to assess pathogenicity of c.594-2A>C. The combined odds for causality considering case-control, segregation and breast tumor pathology information was 3.23 x 10^-8. Our data indicate that c.594-2A>C is always in cis with c.641A>G. The spliceogenic effect of c.[594-2A>C;641A>G] was characterized using RNA analysis of human samples and splicing minigenes. As expected, c.[594-2A>C; 641A>G] caused exon 10 skipping, albeit not due to c.594-2A>C impairing the acceptor site but rather by c.641A>G modifying exon 10 splicing regulatory element(s). Multiple blood-based RNA assays indicated that the variant allele did not produce detectable levels of full-length transcripts, with a per allele BRCA1 expression profile composed of70-80% truncating transcripts, and20-30% of in-frame D9,10 transcripts predicted to encode a BRCA1 protein with tumor suppression function. We confirm that BRCA1c.[594-2A>C;641A>G] should not be considered a high-risk pathogenic variant. Importantly, results from our detailed mRNA analysis suggest that BRCA-associated cancer risk is likely not markedly increased for individuals who carry a truncating variant in BRCA1 exons 9 or 10, or any other BRCA1 allele that permits 20-30% of tumor suppressor function. More generally, our findings highlight the importance of assessing naturally occurring alternative splicing for clinical evaluation of variants in disease-causing genes.

Original language	English (US)
Pages (from-to)	2256-2268
Number of pages	13
Journal	Human molecular genetics
Volume	25
Issue number	11
DOIs	https://doi.org/10.1093/hmg/ddw094
State	Published - Jun 1 2016

ASJC Scopus subject areas

Molecular Biology
Genetics
Genetics(clinical)

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10.1093/hmg/ddw094

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de la Hoya, M., Soukarieh, O., López-Perolio, I., Vega, A., Walker, L. C., van Ierland, Y., Baralle, D., Santamariña, M., Lattimore, V., Wijnen, J., Whiley, P., Blanco, A., Raponi, M., Hauke, J., Wappenschmidt, B., Becker, A., Hansen, T. V. O., Behar, R., KConFaB Investigators, I., ... Spurdle, A. B. (2016). Combined genetic and splicing analysis of BRCA1 c.[594-2A>C; 641A>G] highlights the relevance of naturally occurring in-frame transcripts for developing disease gene variant classification algorithms. Human molecular genetics, 25(11), 2256-2268. https://doi.org/10.1093/hmg/ddw094

Combined genetic and splicing analysis of BRCA1 c.[594-2A>C; 641A>G] highlights the relevance of naturally occurring in-frame transcripts for developing disease gene variant classification algorithms. / de la Hoya, Miguel; Soukarieh, Omar; López-Perolio, Irene et al.
In: Human molecular genetics, Vol. 25, No. 11, 01.06.2016, p. 2256-2268.

Research output: Contribution to journal › Article › peer-review

de la Hoya, M, Soukarieh, O, López-Perolio, I, Vega, A, Walker, LC, van Ierland, Y, Baralle, D, Santamariña, M, Lattimore, V, Wijnen, J, Whiley, P, Blanco, A, Raponi, M, Hauke, J, Wappenschmidt, B, Becker, A, Hansen, TVO, Behar, R, KConFaB Investigators, I, Niederacher, D, Arnold, N, Dworniczak, B, Steinemann, D, Faust, U, Rubinstein, W, Hulick, PJ, Houdayer, C, Caputo, SM, Castera, L, Pesaran, T, Chao, E, Brewer, C, Southey, MC, van Asperen, CJ, Singer, CF, Sullivan, J, Poplawski, N, Mai, P, Peto, J, Johnson, N, Burwinkel, B, Surowy, H, Bojesen, SE, Flyger, H, Lindblom, A, Margolin, S, Chang-Claude, J, Rudolph, A, Radice, P, Galastri, L, Olson, JE, Hallberg, E, Giles, GG, Milne, RL, Andrulis, IL, Glendon, G, Hall, P, Czene, K, Blows, F, Shah, M, Wang, Q, Dennis, J, Michailidou, K, McGuffog, L, Bolla, MK, Antoniou, AC, Easton, DF, Couch, FJ, Tavtigian, S, Vreeswijk, MP, Parsons, M, Meeks, HD, Martins, A, Goldgar, DE & Spurdle, AB 2016, 'Combined genetic and splicing analysis of BRCA1 c.[594-2A>C; 641A>G] highlights the relevance of naturally occurring in-frame transcripts for developing disease gene variant classification algorithms', Human molecular genetics, vol. 25, no. 11, pp. 2256-2268. https://doi.org/10.1093/hmg/ddw094

@article{e166472182e74bcebf5c687b150b4284,

title = "Combined genetic and splicing analysis of BRCA1 c.[594-2A>C; 641A>G] highlights the relevance of naturally occurring in-frame transcripts for developing disease gene variant classification algorithms",

abstract = "A recent analysis using family history weighting and co-observation classification modeling indicated that BRCA1 c.594-2A>C (IVS9-2A>C), previously described to cause exon 10 skipping (a truncating alteration), displays characteristics inconsistent with those of a high risk pathogenic BRCA1 variant. We used large-scale genetic and clinical resources from the ENIGMA, CIMBA and BCAC consortia to assess pathogenicity of c.594-2A>C. The combined odds for causality considering case-control, segregation and breast tumor pathology information was 3.23 x 10-8. Our data indicate that c.594-2A>C is always in cis with c.641A>G. The spliceogenic effect of c.[594-2A>C;641A>G] was characterized using RNA analysis of human samples and splicing minigenes. As expected, c.[594-2A>C; 641A>G] caused exon 10 skipping, albeit not due to c.594-2A>C impairing the acceptor site but rather by c.641A>G modifying exon 10 splicing regulatory element(s). Multiple blood-based RNA assays indicated that the variant allele did not produce detectable levels of full-length transcripts, with a per allele BRCA1 expression profile composed of70-80% truncating transcripts, and20-30% of in-frame D9,10 transcripts predicted to encode a BRCA1 protein with tumor suppression function. We confirm that BRCA1c.[594-2A>C;641A>G] should not be considered a high-risk pathogenic variant. Importantly, results from our detailed mRNA analysis suggest that BRCA-associated cancer risk is likely not markedly increased for individuals who carry a truncating variant in BRCA1 exons 9 or 10, or any other BRCA1 allele that permits 20-30% of tumor suppressor function. More generally, our findings highlight the importance of assessing naturally occurring alternative splicing for clinical evaluation of variants in disease-causing genes.",

author = "{de la Hoya}, Miguel and Omar Soukarieh and Irene L{\'o}pez-Perolio and Ana Vega and Walker, {Logan C.} and {van Ierland}, Yvette and Diana Baralle and Marta Santamari{\~n}a and Vanessa Lattimore and Juul Wijnen and Philip Whiley and Ana Blanco and Michela Raponi and Jan Hauke and Barbara Wappenschmidt and Alexandra Becker and Hansen, {Thomas V.O.} and Raquel Behar and {KConFaB Investigators}, Investigators and Diether Niederacher and Norbert Arnold and Bernd Dworniczak and Doris Steinemann and Ulrike Faust and Wendy Rubinstein and Hulick, {Peter J.} and Claude Houdayer and Caputo, {Sandrine M.} and Laurent Castera and Tina Pesaran and Elizabeth Chao and Carole Brewer and Southey, {Melissa C.} and {van Asperen}, {Christi J.} and Singer, {Christian F.} and Jan Sullivan and Nicola Poplawski and Phuong Mai and Julian Peto and Nichola Johnson and Barbara Burwinkel and Harald Surowy and Bojesen, {Stig E.} and Henrik Flyger and Annika Lindblom and Sara Margolin and Jenny Chang-Claude and Anja Rudolph and Paolo Radice and Laura Galastri and Olson, {Janet E.} and Emily Hallberg and Giles, {Graham G.} and Milne, {Roger L.} and Andrulis, {Irene L.} and Gord Glendon and Per Hall and Kamila Czene and Fiona Blows and Mitul Shah and Qin Wang and Joe Dennis and Kyriaki Michailidou and Lesley McGuffog and Bolla, {Manjeet K.} and Antoniou, {Antonis C.} and Easton, {Douglas F.} and Couch, {Fergus J.} and Sean Tavtigian and Vreeswijk, {Maaike P.} and Michael Parsons and Meeks, {Huong D.} and Alexandra Martins and Goldgar, {David E.} and Spurdle, {Amanda B.}",

note = "Funding Information: We thank all the families and individuals that participated in this research. We thank Paul Pharoah and the Ovarian Cancer Association Consortium for providing summary information on the frequency of the BRCA1 c.594-2A>C variant in ovarian cancer cases and controls. We acknowledge the contributions of Georgia Chenevix-Trench to CIMBA and the kConFaB resource, and additional study-specific acknowledgements as noted below. NZBCS: Anne Smith, Bridget Robinson, Caroline Lintott, John Pearson, Yen Phung George Wiggins and the family members for their valuable contributions. The Netherlands Consortium: FransHogervorst for assistance in data collation, Dr M. Olderode-Berends from the University Medical Centre Groningen and Dr E. van Riel from University Medical Centre Utrecht for providing blood samples for RNA studies, and Elsa Bik from the Leiden University Medical Centre, The Netherlands for excellent technical assistance. kConFab: Heather Thorne, Eveline Niedermayr, all the kConFab research nurses and staff, the heads and staff of the Family Cancer Clinics, and the Clinical Follow Up Study for their contributions to this resource. GC-HBOC: Dieter Sch€afer, Center Frankfurt, for providing DNA samples and Juliane K{\"o}hler for excellent technical assistance. Northshore: Tina Selkirk for assistance in data collation. French Consortium: the French oncogeneticists, and the UNICANCER Genetic Group (UGG) lead by Dr Catherine Nogu{\`e}s. BCFR-AU: Maggie Angelakos, Judi Maskiell, Gillian Dite, Helen Tsimiklis. MUV: Daniela Muhr for assistance in data collation. BBCS: Eileen Williams, Elaine Ryder-Mills, Kara Sargus. BSUCH: Peter Bugert, Medical Faculty Mannheim. CGPS: Staff and participants of the Copenhagen General Population Study. For the excellent technical assistance: Dorthe Uldall Andersen, Maria Birna Arnadottir, Anne Bank, Dorthe Kjeldga° rd Hansen. The Danish Breast Cancer Group (DBCG) is acknowledged for the tumor information. The Danish Cancer Biobank is acknowledged for providing infrastructure for the collection of blood samples for the cases. MARIE: Alina Vrieling, Katharina Buck, MuhabbetCelik, Ursula Eilber and Sabine Behrens. MBCSG: SiranoushManoukian, Bernard Peissel, Jacopo Azzollini and Fernando Ravagnani of the Fondazione IRCCS IstitutoNazionaleTumori (INT), Milan, Italy; BernandoBonanni, Monica Barile and Irene Feroce of the IstitutoEuropeo di Oncologia (IEO), Milan, Italy; and the personnel of the Cogentech Cancer Genetic Test Laboratory, Milan, Italy. OFBCR: Teresa Selander, Nayana Weerasooriya. SEARCH: Marie Mack. COGS: Paul Pharoah, Andrew Berchuck (OCAC), Georgia Chenevix-Trench, Ken Offit (CIMBA), Alison M. Dunning, Andrew Lee, Ed Dicks, Craig Luccarini, the staff of the Centre for Genetic Epidemiology Laboratory, Javier Benitez, Anna Gonzalez-Neira, the staff of the CNIO genotyping unit, Jacques Simard, Daniel C. Tessier, Francois Bacot, Daniel Vincent, Sylvie La Boissi{\`e} re, Frederic Robidoux, the staff of the McGill University and G{\'e}nome Qu{\'e}bec Innovation Centre, Sune F. Nielsen, Borge G. Nordestgaard, the staff of the Copenhagen DNA laboratory, Julie M. Cunningham, Sharon A. Windebank, Christopher A. Hilker, Jeffrey Meyer, the staff of Mayo Clinic Genotyping Core Facility. AM and INSERM: Dr Sophie Krieger for contributing with DNA samples, Professor Thierry Fr{\'e}bourg for providing patient's samples for RNA analysis, and Aur{\'e}lieDrouet and Gaia Castelain for technical assistance. Conflicts of interest: Tina Pesaran and Elizabeth Chao are paid employees of Ambry Genetics. All other authors have declared no conflicts of interest. The research described was supported by Spanish Instituto de Salud Carlos III funding, an initiative of the Spanish Ministry of Economy and Innovation partially supported by European Regional Development FEDER Funds [PI12/00539 and PI15/00059 to M.d.H., PI13/02030 to A.V.]; the French Ministry of Higher Education and Research [to O.S.]; the University of Otago, Mackenzie Charitable Foundation, Maria Lupton, and .Health Research Council of New Zealand [to L.W.]; UK Higher Education Funding Council Senior Fellowship Scheme, the University of Southampton [to D.B.]; Cancer research UK [to D.B., M.R.]; FamilienHede Nielsen Foundation fund [to T.V.O.H.]; Cancer Research-UK Senior Cancer Research Fellowship [to A.C.A.]; National Institute of Health [CA128978 and CA11616 to F.J.C.]; an NIH specialized program of research excellence in breast cancer to the Mayo Clinic [P50 CA116201 to F.J.C.]; and the US Breast Cancer Research Foundation [to F.J.C.]; translational grant from the French National Cancer Institute and Direction G{\'e}n{\'e}rale de l'Offre des Soins (INCa-DGOS AAP/CFB/CI) and a grant from the French North-West Canceropole (CNO) [to A.M.]; The Cancer Council Queensland [APP1086286 to A.B.S.]; the NHMRC Senior Research Fellowship Scheme [ID 1061779 to A.B.S.]; NHMRC Project grant scheme [ID 1010719 to A.B.S.]. Additional infrastructure support to consortium members is as follows:kConFab infrastructure has been supported by funding from the National Breast Cancer Foundation, National Health and Medical Research Council, the Queensland Cancer Fund, the Cancer Councils of New South Wales, Victoria, Tasmania and South Australia, and the Cancer Foundation of Western Australia [to kConFab, and the kConFab Clinical Follow-up study]. The German Consortium of Hereditary Breast and Ovarian Cancer (GC-HBOC) is supported by the German Cancer Aid (grant no 109076, Rita K. Schmutzler) and by the Center for Molecular Medicine Cologne (CMMC) The French consortium is supported by the French National Cancer Institute. EMBRACE is supported by Cancer Research UK Grants C1287/ A10118 and C1287/A11990. BCFR was supported by grant UM1 CA164920 from the National Cancer Institute. The content of this manuscript does not necessarily reflect the views or policies of the National Cancer Institute or any of the collaborating centers in the Breast Cancer Family Registry (BCFR), nor does mention of trade names, commercial products, or organizations imply endorsement by the US Government or the BCFR. The BBCS is funded by Cancer Research UK and Breakthrough Breast Cancer (recently merged with Breast Cancer Campaign forming Breast Cancer Now) and acknowledges NHS funding to the NIHR Biomedical Research Centre, and the National Cancer Research Network (NCRN). The BSUCH study was supported by the Dietmar-Hopp Foundation, the Helmholtz Society and the German Cancer Research Center (DKFZ). The CGPS was supported by the Chief Physician Johan Boserup and LiseBoserup Fund, the Danish Medical Research Council and Herlev Hospital KARBAC was supported financially through the regional agreement on medical training and clinical research (ALF) between Stockholm City Council and KarolinskaInstitutet, and from the Stockholm Cancer Foundation and the Swedish Cancer Society. KARBAC was supported financially through the regional agreement on medical training and clinical research (ALF) between Stockholm City Council and KarolinskaInstitutet, and from the Stockholm Cancer Foundation and the Swedish Cancer Society. The MARIE study was supported by the Deutsche Krebshilfee.V. [70-2892-BR I], the Hamburg Cancer Society, the German Cancer Research Center and the Federal Ministry of Education and Research (BMBF) Germany [01KH0402]. The MARIE study was supported by the Deutsche Krebshilfee.V. [70-2892-BR I], the Hamburg Cancer Society, the German Cancer Research Center and the Federal Ministry of Education and Research (BMBF) Germany [01KH0402]. MBCSG is supported by grants from the Italian Association for Cancer Research (AIRC) and by funds from the Italian citizens who allocated the 5/1000 share of their tax payment according to Italian laws in support of the Fondazione IRCCS IstitutoNazionaleTumori. The MCBCS was supported by the NIH grant CA128978 and a Specialized Program of Research Excellence (SPORE) in Breast Cancer [CA116201], the Breast Cancer Research Foundation and a generous gift from the David F. and Margaret T. Grohne Family Foundation and the Ting Tsung and Wei Fong Chao Foundation. MCCS cohort recruitment was funded by VicHealth and Cancer Council Victoria. The MCCS was further supported by Australian NHMRC grants 209057, 251553 and 504711 and by infrastructure provided by Cancer Council Victoria. OFBCR was supported by grant UM1 CA164920 from the National Cancer Institute. The content of this manuscript does not necessarily reflect the views or policies of the National Cancer Institute or any of the collaborating centers in the Breast Cancer Family Registry (BCFR), nor does mention of trade names, commercial products, or organizations imply endorsement by the US Government or the BCFR. The pKARMA study was supported by M€arit and Hans Rausings Initiative Against Breast Cancer, and the Swedish Medical Research Counsel. SEARCH was supported by grants CRUK A490/A11021, C490/ A16561. Funding for the iCOGS infrastructure came from: the European Community's Seventh Framework Programme under grant agreement no. 223175 (HEALTH-F2-2009-223175) (COGS), Cancer Research UK (C1287/A10118, C1287/A 10710, C12292/ A11174, C1281/A12014, C5047/A8384, C5047/A15007, C5047/ A10692), the National Institutes of Health (CA128978) and Post- Cancer GWAS initiative (1U19 CA148537, 1U19 CA148065 and 1U19 CA148112 - the GAME-ON initiative), the Department of Defence (W81XWH-10-1-0341), the Canadian Institutes of Health Research (CIHR) for the CIHR Team in Familial Risks of Breast Cancer, Komen Foundation for the Cure, the Breast Cancer Research Foundation and the Ovarian Cancer Research Fund. CIMBA data management was supported by Cancer Research-UK grant C12292/A11174 and C1287/A10118. BCAC is funded by Cancer Research UK [C1287/A10118, C1287/A12014] and by the European Communit{\'y}s Seventh Framework Programme under grant agreement number 223175 (grant number HEALTH-F2-2009-223175) (COGS). Publisher Copyright: {\textcopyright} The Author 2016.",

year = "2016",

month = jun,

day = "1",

doi = "10.1093/hmg/ddw094",

language = "English (US)",

volume = "25",

pages = "2256--2268",

journal = "Human molecular genetics",

issn = "0964-6906",

publisher = "Oxford University Press",

number = "11",

}

TY - JOUR

T1 - Combined genetic and splicing analysis of BRCA1 c.[594-2A>C; 641A>G] highlights the relevance of naturally occurring in-frame transcripts for developing disease gene variant classification algorithms

AU - de la Hoya, Miguel

AU - Soukarieh, Omar

AU - López-Perolio, Irene

AU - Vega, Ana

AU - Walker, Logan C.

AU - van Ierland, Yvette

AU - Baralle, Diana

AU - Santamariña, Marta

AU - Lattimore, Vanessa

AU - Wijnen, Juul

AU - Whiley, Philip

AU - Blanco, Ana

AU - Raponi, Michela

AU - Hauke, Jan

AU - Wappenschmidt, Barbara

AU - Becker, Alexandra

AU - Hansen, Thomas V.O.

AU - Behar, Raquel

AU - KConFaB Investigators, Investigators

AU - Niederacher, Diether

AU - Arnold, Norbert

AU - Dworniczak, Bernd

AU - Steinemann, Doris

AU - Faust, Ulrike

AU - Rubinstein, Wendy

AU - Hulick, Peter J.

AU - Houdayer, Claude

AU - Caputo, Sandrine M.

AU - Castera, Laurent

AU - Pesaran, Tina

AU - Chao, Elizabeth

AU - Brewer, Carole

AU - Southey, Melissa C.

AU - van Asperen, Christi J.

AU - Singer, Christian F.

AU - Sullivan, Jan

AU - Poplawski, Nicola

AU - Mai, Phuong

AU - Peto, Julian

AU - Johnson, Nichola

AU - Burwinkel, Barbara

AU - Surowy, Harald

AU - Bojesen, Stig E.

AU - Flyger, Henrik

AU - Lindblom, Annika

AU - Margolin, Sara

AU - Chang-Claude, Jenny

AU - Rudolph, Anja

AU - Radice, Paolo

AU - Galastri, Laura

AU - Olson, Janet E.

AU - Hallberg, Emily

AU - Giles, Graham G.

AU - Milne, Roger L.

AU - Andrulis, Irene L.

AU - Glendon, Gord

AU - Hall, Per

AU - Czene, Kamila

AU - Blows, Fiona

AU - Shah, Mitul

AU - Wang, Qin

AU - Dennis, Joe

AU - Michailidou, Kyriaki

AU - McGuffog, Lesley

AU - Bolla, Manjeet K.

AU - Antoniou, Antonis C.

AU - Easton, Douglas F.

AU - Couch, Fergus J.

AU - Tavtigian, Sean

AU - Vreeswijk, Maaike P.

AU - Parsons, Michael

AU - Meeks, Huong D.

AU - Martins, Alexandra

AU - Goldgar, David E.

AU - Spurdle, Amanda B.

N1 - Funding Information: We thank all the families and individuals that participated in this research. We thank Paul Pharoah and the Ovarian Cancer Association Consortium for providing summary information on the frequency of the BRCA1 c.594-2A>C variant in ovarian cancer cases and controls. We acknowledge the contributions of Georgia Chenevix-Trench to CIMBA and the kConFaB resource, and additional study-specific acknowledgements as noted below. NZBCS: Anne Smith, Bridget Robinson, Caroline Lintott, John Pearson, Yen Phung George Wiggins and the family members for their valuable contributions. The Netherlands Consortium: FransHogervorst for assistance in data collation, Dr M. Olderode-Berends from the University Medical Centre Groningen and Dr E. van Riel from University Medical Centre Utrecht for providing blood samples for RNA studies, and Elsa Bik from the Leiden University Medical Centre, The Netherlands for excellent technical assistance. kConFab: Heather Thorne, Eveline Niedermayr, all the kConFab research nurses and staff, the heads and staff of the Family Cancer Clinics, and the Clinical Follow Up Study for their contributions to this resource. GC-HBOC: Dieter Sch€afer, Center Frankfurt, for providing DNA samples and Juliane Köhler for excellent technical assistance. Northshore: Tina Selkirk for assistance in data collation. French Consortium: the French oncogeneticists, and the UNICANCER Genetic Group (UGG) lead by Dr Catherine Noguès. BCFR-AU: Maggie Angelakos, Judi Maskiell, Gillian Dite, Helen Tsimiklis. MUV: Daniela Muhr for assistance in data collation. BBCS: Eileen Williams, Elaine Ryder-Mills, Kara Sargus. BSUCH: Peter Bugert, Medical Faculty Mannheim. CGPS: Staff and participants of the Copenhagen General Population Study. For the excellent technical assistance: Dorthe Uldall Andersen, Maria Birna Arnadottir, Anne Bank, Dorthe Kjeldga° rd Hansen. The Danish Breast Cancer Group (DBCG) is acknowledged for the tumor information. The Danish Cancer Biobank is acknowledged for providing infrastructure for the collection of blood samples for the cases. MARIE: Alina Vrieling, Katharina Buck, MuhabbetCelik, Ursula Eilber and Sabine Behrens. MBCSG: SiranoushManoukian, Bernard Peissel, Jacopo Azzollini and Fernando Ravagnani of the Fondazione IRCCS IstitutoNazionaleTumori (INT), Milan, Italy; BernandoBonanni, Monica Barile and Irene Feroce of the IstitutoEuropeo di Oncologia (IEO), Milan, Italy; and the personnel of the Cogentech Cancer Genetic Test Laboratory, Milan, Italy. OFBCR: Teresa Selander, Nayana Weerasooriya. SEARCH: Marie Mack. COGS: Paul Pharoah, Andrew Berchuck (OCAC), Georgia Chenevix-Trench, Ken Offit (CIMBA), Alison M. Dunning, Andrew Lee, Ed Dicks, Craig Luccarini, the staff of the Centre for Genetic Epidemiology Laboratory, Javier Benitez, Anna Gonzalez-Neira, the staff of the CNIO genotyping unit, Jacques Simard, Daniel C. Tessier, Francois Bacot, Daniel Vincent, Sylvie La Boissiè re, Frederic Robidoux, the staff of the McGill University and Génome Québec Innovation Centre, Sune F. Nielsen, Borge G. Nordestgaard, the staff of the Copenhagen DNA laboratory, Julie M. Cunningham, Sharon A. Windebank, Christopher A. Hilker, Jeffrey Meyer, the staff of Mayo Clinic Genotyping Core Facility. AM and INSERM: Dr Sophie Krieger for contributing with DNA samples, Professor Thierry Frébourg for providing patient's samples for RNA analysis, and AurélieDrouet and Gaia Castelain for technical assistance. Conflicts of interest: Tina Pesaran and Elizabeth Chao are paid employees of Ambry Genetics. All other authors have declared no conflicts of interest. The research described was supported by Spanish Instituto de Salud Carlos III funding, an initiative of the Spanish Ministry of Economy and Innovation partially supported by European Regional Development FEDER Funds [PI12/00539 and PI15/00059 to M.d.H., PI13/02030 to A.V.]; the French Ministry of Higher Education and Research [to O.S.]; the University of Otago, Mackenzie Charitable Foundation, Maria Lupton, and .Health Research Council of New Zealand [to L.W.]; UK Higher Education Funding Council Senior Fellowship Scheme, the University of Southampton [to D.B.]; Cancer research UK [to D.B., M.R.]; FamilienHede Nielsen Foundation fund [to T.V.O.H.]; Cancer Research-UK Senior Cancer Research Fellowship [to A.C.A.]; National Institute of Health [CA128978 and CA11616 to F.J.C.]; an NIH specialized program of research excellence in breast cancer to the Mayo Clinic [P50 CA116201 to F.J.C.]; and the US Breast Cancer Research Foundation [to F.J.C.]; translational grant from the French National Cancer Institute and Direction Générale de l'Offre des Soins (INCa-DGOS AAP/CFB/CI) and a grant from the French North-West Canceropole (CNO) [to A.M.]; The Cancer Council Queensland [APP1086286 to A.B.S.]; the NHMRC Senior Research Fellowship Scheme [ID 1061779 to A.B.S.]; NHMRC Project grant scheme [ID 1010719 to A.B.S.]. Additional infrastructure support to consortium members is as follows:kConFab infrastructure has been supported by funding from the National Breast Cancer Foundation, National Health and Medical Research Council, the Queensland Cancer Fund, the Cancer Councils of New South Wales, Victoria, Tasmania and South Australia, and the Cancer Foundation of Western Australia [to kConFab, and the kConFab Clinical Follow-up study]. The German Consortium of Hereditary Breast and Ovarian Cancer (GC-HBOC) is supported by the German Cancer Aid (grant no 109076, Rita K. Schmutzler) and by the Center for Molecular Medicine Cologne (CMMC) The French consortium is supported by the French National Cancer Institute. EMBRACE is supported by Cancer Research UK Grants C1287/ A10118 and C1287/A11990. BCFR was supported by grant UM1 CA164920 from the National Cancer Institute. The content of this manuscript does not necessarily reflect the views or policies of the National Cancer Institute or any of the collaborating centers in the Breast Cancer Family Registry (BCFR), nor does mention of trade names, commercial products, or organizations imply endorsement by the US Government or the BCFR. The BBCS is funded by Cancer Research UK and Breakthrough Breast Cancer (recently merged with Breast Cancer Campaign forming Breast Cancer Now) and acknowledges NHS funding to the NIHR Biomedical Research Centre, and the National Cancer Research Network (NCRN). The BSUCH study was supported by the Dietmar-Hopp Foundation, the Helmholtz Society and the German Cancer Research Center (DKFZ). The CGPS was supported by the Chief Physician Johan Boserup and LiseBoserup Fund, the Danish Medical Research Council and Herlev Hospital KARBAC was supported financially through the regional agreement on medical training and clinical research (ALF) between Stockholm City Council and KarolinskaInstitutet, and from the Stockholm Cancer Foundation and the Swedish Cancer Society. KARBAC was supported financially through the regional agreement on medical training and clinical research (ALF) between Stockholm City Council and KarolinskaInstitutet, and from the Stockholm Cancer Foundation and the Swedish Cancer Society. The MARIE study was supported by the Deutsche Krebshilfee.V. [70-2892-BR I], the Hamburg Cancer Society, the German Cancer Research Center and the Federal Ministry of Education and Research (BMBF) Germany [01KH0402]. The MARIE study was supported by the Deutsche Krebshilfee.V. [70-2892-BR I], the Hamburg Cancer Society, the German Cancer Research Center and the Federal Ministry of Education and Research (BMBF) Germany [01KH0402]. MBCSG is supported by grants from the Italian Association for Cancer Research (AIRC) and by funds from the Italian citizens who allocated the 5/1000 share of their tax payment according to Italian laws in support of the Fondazione IRCCS IstitutoNazionaleTumori. The MCBCS was supported by the NIH grant CA128978 and a Specialized Program of Research Excellence (SPORE) in Breast Cancer [CA116201], the Breast Cancer Research Foundation and a generous gift from the David F. and Margaret T. Grohne Family Foundation and the Ting Tsung and Wei Fong Chao Foundation. MCCS cohort recruitment was funded by VicHealth and Cancer Council Victoria. The MCCS was further supported by Australian NHMRC grants 209057, 251553 and 504711 and by infrastructure provided by Cancer Council Victoria. OFBCR was supported by grant UM1 CA164920 from the National Cancer Institute. The content of this manuscript does not necessarily reflect the views or policies of the National Cancer Institute or any of the collaborating centers in the Breast Cancer Family Registry (BCFR), nor does mention of trade names, commercial products, or organizations imply endorsement by the US Government or the BCFR. The pKARMA study was supported by M€arit and Hans Rausings Initiative Against Breast Cancer, and the Swedish Medical Research Counsel. SEARCH was supported by grants CRUK A490/A11021, C490/ A16561. Funding for the iCOGS infrastructure came from: the European Community's Seventh Framework Programme under grant agreement no. 223175 (HEALTH-F2-2009-223175) (COGS), Cancer Research UK (C1287/A10118, C1287/A 10710, C12292/ A11174, C1281/A12014, C5047/A8384, C5047/A15007, C5047/ A10692), the National Institutes of Health (CA128978) and Post- Cancer GWAS initiative (1U19 CA148537, 1U19 CA148065 and 1U19 CA148112 - the GAME-ON initiative), the Department of Defence (W81XWH-10-1-0341), the Canadian Institutes of Health Research (CIHR) for the CIHR Team in Familial Risks of Breast Cancer, Komen Foundation for the Cure, the Breast Cancer Research Foundation and the Ovarian Cancer Research Fund. CIMBA data management was supported by Cancer Research-UK grant C12292/A11174 and C1287/A10118. BCAC is funded by Cancer Research UK [C1287/A10118, C1287/A12014] and by the European Communitýs Seventh Framework Programme under grant agreement number 223175 (grant number HEALTH-F2-2009-223175) (COGS). Publisher Copyright: © The Author 2016.

PY - 2016/6/1

Y1 - 2016/6/1

N2 - A recent analysis using family history weighting and co-observation classification modeling indicated that BRCA1 c.594-2A>C (IVS9-2A>C), previously described to cause exon 10 skipping (a truncating alteration), displays characteristics inconsistent with those of a high risk pathogenic BRCA1 variant. We used large-scale genetic and clinical resources from the ENIGMA, CIMBA and BCAC consortia to assess pathogenicity of c.594-2A>C. The combined odds for causality considering case-control, segregation and breast tumor pathology information was 3.23 x 10-8. Our data indicate that c.594-2A>C is always in cis with c.641A>G. The spliceogenic effect of c.[594-2A>C;641A>G] was characterized using RNA analysis of human samples and splicing minigenes. As expected, c.[594-2A>C; 641A>G] caused exon 10 skipping, albeit not due to c.594-2A>C impairing the acceptor site but rather by c.641A>G modifying exon 10 splicing regulatory element(s). Multiple blood-based RNA assays indicated that the variant allele did not produce detectable levels of full-length transcripts, with a per allele BRCA1 expression profile composed of70-80% truncating transcripts, and20-30% of in-frame D9,10 transcripts predicted to encode a BRCA1 protein with tumor suppression function. We confirm that BRCA1c.[594-2A>C;641A>G] should not be considered a high-risk pathogenic variant. Importantly, results from our detailed mRNA analysis suggest that BRCA-associated cancer risk is likely not markedly increased for individuals who carry a truncating variant in BRCA1 exons 9 or 10, or any other BRCA1 allele that permits 20-30% of tumor suppressor function. More generally, our findings highlight the importance of assessing naturally occurring alternative splicing for clinical evaluation of variants in disease-causing genes.

AB - A recent analysis using family history weighting and co-observation classification modeling indicated that BRCA1 c.594-2A>C (IVS9-2A>C), previously described to cause exon 10 skipping (a truncating alteration), displays characteristics inconsistent with those of a high risk pathogenic BRCA1 variant. We used large-scale genetic and clinical resources from the ENIGMA, CIMBA and BCAC consortia to assess pathogenicity of c.594-2A>C. The combined odds for causality considering case-control, segregation and breast tumor pathology information was 3.23 x 10-8. Our data indicate that c.594-2A>C is always in cis with c.641A>G. The spliceogenic effect of c.[594-2A>C;641A>G] was characterized using RNA analysis of human samples and splicing minigenes. As expected, c.[594-2A>C; 641A>G] caused exon 10 skipping, albeit not due to c.594-2A>C impairing the acceptor site but rather by c.641A>G modifying exon 10 splicing regulatory element(s). Multiple blood-based RNA assays indicated that the variant allele did not produce detectable levels of full-length transcripts, with a per allele BRCA1 expression profile composed of70-80% truncating transcripts, and20-30% of in-frame D9,10 transcripts predicted to encode a BRCA1 protein with tumor suppression function. We confirm that BRCA1c.[594-2A>C;641A>G] should not be considered a high-risk pathogenic variant. Importantly, results from our detailed mRNA analysis suggest that BRCA-associated cancer risk is likely not markedly increased for individuals who carry a truncating variant in BRCA1 exons 9 or 10, or any other BRCA1 allele that permits 20-30% of tumor suppressor function. More generally, our findings highlight the importance of assessing naturally occurring alternative splicing for clinical evaluation of variants in disease-causing genes.

UR - http://www.scopus.com/inward/record.url?scp=84998631505&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84998631505&partnerID=8YFLogxK

U2 - 10.1093/hmg/ddw094

DO - 10.1093/hmg/ddw094

M3 - Article

C2 - 27008870

AN - SCOPUS:84998631505

SN - 0964-6906

VL - 25

SP - 2256

EP - 2268

JO - Human molecular genetics

JF - Human molecular genetics

IS - 11

ER -

Combined genetic and splicing analysis of BRCA1 c.[594-2A>C; 641A>G] highlights the relevance of naturally occurring in-frame transcripts for developing disease gene variant classification algorithms

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