Top

Published in:

Open Access 01-04-2015 | Preclinical study

Splicing analysis of 14 BRCA1 missense variants classifies nine variants as pathogenic

Authors: Lise B. Ahlborn, Mette Dandanell, Ane Y. Steffensen, Lars Jønson, Finn C. Nielsen, Thomas v. O. Hansen

Published in: Breast Cancer Research and Treatment | Issue 2/2015

Abstract

Pathogenic germline mutations in the BRCA1 gene predispose carriers to early onset breast and ovarian cancer. Clinical genetic screening of BRCA1 often reveals variants with uncertain clinical significance, complicating patient and family management. Therefore, functional examinations are urgently needed to classify whether these uncertain variants are pathogenic or benign. In this study, we investigated 14 BRCA1 variants by in silico splicing analysis and mini-gene splicing assay. All 14 alterations were missense variants located within the BRCT domain of BRCA1 and had previously been examined by functional analysis at the protein level. Results from a validated mini-gene splicing assay indicated that nine BRCA1 variants resulted in splicing aberrations leading to truncated transcripts and thus can be considered pathogenic (c.4987A>T/p.Met1663Leu, c.4988T>A/p.Met1663Lys, c.5072C>T/p.Thr1691Ile, c.5074G>C/p.Asp1692His, c.5074G>A/p.Asp1692Asn, c.5074G>T/p.Asp1692Tyr, c.5332G>A/p.Asp1778Asn, c.5332G>T/p.Asp1778Tyr, and c.5408G>C/p.Gly1803Ala), whereas five BRCA1 variants had no effect on splicing (c.4985T>C/p.Phe1662Ser, c.5072C>A/p.Thr1691Lys, c.5153G>C/p.Trp1718Ser, c.5154G>T/p.Trp1718Cys, and c.5333A>G/p.Asp1778Gly). Eight of the variants having an effect on splicing (c.4987A>T/p.Met1663Leu, c.4988T>A/p.Met1663Lys, c.5074G>C/p.Asp1692His, c.5074G>A/p.Asp1692Asn, c.5074G>T/p.Asp1692Tyr, c.5332G>A/p.Asp1778Asn, c.5332G>T/p.Asp1778Tyr, and c.5408G>C/p.Gly1803Ala) were previously determined to have no or an uncertain effect on the protein level, whereas one variant (c.5072C>T/p.Thr1691Ile) were shown to have a strong effect on the protein level as well. In conclusion, our study emphasizes that in silico splicing prediction and mini-gene splicing analysis are important for the classification of BRCA1 missense variants located close to exon/intron boundaries.

Antoniou A, Pharoah PD, Narod S et al (2003) Average risks of breast and ovarian cancer associated with BRCA1 or BRCA2 mutations detected in case Series unselected for family history: a combined analysis of 22 studies. Am J Hum Genet 72(5):1117–1130CrossRefPubMedCentralPubMed

King MC, Marks JH, Mandell JB (2003) Breast and ovarian cancer risks due to inherited mutations in BRCA1 and BRCA2. Science 302(5645):643–646CrossRefPubMed

van der Kolk DM, de Bock GH, Leegte BK et al (2010) Penetrance of breast cancer, ovarian cancer and contralateral breast cancer in BRCA1 and BRCA2 families: high cancer incidence at older age. Breast Cancer Res Treat 124(3):643–651CrossRefPubMed

Mavaddat N, Peock S, Frost D et al (2013) Cancer risks for BRCA1 and BRCA2 mutation carriers: results from prospective analysis of EMBRACE. J Natl Cancer Inst 105(11):812–822CrossRefPubMed

Spurdle AB, Healey S, Devereau A et al (2012) ENIGMA–evidence-based network for the interpretation of germline mutant alleles: an international initiative to evaluate risk and clinical significance associated with sequence variation in BRCA1 and BRCA2 genes. Hum Mutat 33(1):2–7CrossRefPubMedCentralPubMed

Goldgar DE, Easton DF, Deffenbaugh AM, Monteiro AN, Tavtigian SV, Couch FJ (2004) Integrated evaluation of DNA sequence variants of unknown clinical significance: application to BRCA1 and BRCA2. Am J Hum Genet 75(4):535–544CrossRefPubMedCentralPubMed

Sanz DJ, Acedo A, Infante M et al (2010) A high proportion of DNA variants of BRCA1 and BRCA2 is associated with aberrant splicing in breast/ovarian cancer patients. Clin Cancer Res 16(6):1957–1967CrossRefPubMed

Bonnet C, Krieger S, Vezain M et al (2008) Screening BRCA1 and BRCA2 unclassified variants for splicing mutations using reverse transcription PCR on patient RNA and an ex vivo assay based on a splicing reporter minigene. J Med Genet 45(7):438–446CrossRefPubMed

Thery JC, Krieger S, Gaildrat P et al (2011) Contribution of bioinformatics predictions and functional splicing assays to the interpretation of unclassified variants of the BRCA genes. Eur J Hum Genet 19(10):1052–1058CrossRefPubMedCentralPubMed

10.

Steffensen AY, Dandanell M, Jonson L et al (2014) Functional characterization of BRCA1 gene variants by mini-gene splicing assay. Eur J Hum Genet 22(12):1362–1368CrossRefPubMedCentralPubMed

11.

Lee MS, Green R, Marsillac SM et al (2010) Comprehensive analysis of missense variations in the BRCT domain of BRCA1 by structural and functional assays. Cancer Res 70(12):4880–4890CrossRefPubMedCentralPubMed

12.

Abkevich V, Zharkikh A, Deffenbaugh AM et al (2004) Analysis of missense variation in human BRCA1 in the context of interspecific sequence variation. J Med Genet 41(7):492–507CrossRefPubMedCentralPubMed

13.

Chasman D, Adams RM (2001) Predicting the functional consequences of non-synonymous single nucleotide polymorphisms: structure-based assessment of amino acid variation. J Mol Biol 307(2):683–706CrossRefPubMed

14.

Chenevix-Trench G, Healey S, Lakhani S et al (2006) Genetic and histopathologic evaluation of BRCA1 and BRCA2 DNA sequence variants of unknown clinical significance. Cancer Res 66(4):2019–2027CrossRefPubMed

15.

Lovelock PK, Healey S, Au W et al (2006) Genetic, functional, and histopathological evaluation of two C-terminal BRCA1 missense variants. J Med Genet 43(1):74–83CrossRefPubMedCentralPubMed

16.

Miki Y, Swensen J, Shattuck-Eidens D et al (1994) A strong candidate for the breast and ovarian cancer susceptibility gene BRCA1. Science 266(5182):66–71CrossRefPubMed

17.

Szabo C, Masiello A, Ryan JF, Brody LC (2000) The breast cancer information core: database design, structure, and scope. Hum Mutat 16(2):123–131CrossRefPubMed

18.

Frank TS, Deffenbaugh AM, Reid JE et al (2002) Clinical characteristics of individuals with germline mutations in BRCA1 and BRCA2: analysis of 10,000 individuals. J Clin Oncol 20(6):1480–1490CrossRefPubMed

19.

Baralle D, Lucassen A, Buratti E (2009) Missed threads. The impact of pre-mRNA splicing defects on clinical practice. EMBO Rep 10(8):810–816CrossRefPubMedCentralPubMed

20.

Exome Aggregation Consortium (ExAC), Cambridge http://exac.broadinstitute.org

21.

Karchin R, Monteiro AN, Tavtigian SV, Carvalho MA, Sali A (2007) Functional impact of missense variants in BRCA1 predicted by supervised learning. PLoS Comput Biol 3(2):e26CrossRefPubMedCentralPubMed

22.

Rowling PJ, Cook R, Itzhaki LS (2010) Toward classification of BRCA1 missense variants using a biophysical approach. J Biol Chem 285(26):20080–20087CrossRefPubMedCentralPubMed

23.

Bergthorsson JT, Jonasdottir A, Johannesdottir G et al (1998) Identification of a novel splice-site mutation of the BRCA1 gene in two breast cancer families: screening reveals low frequency in Icelandic breast cancer patients. Hum Mutat Suppl 1:S195–S197CrossRef

24.

Vallon-Christersson J, Cayanan C, Haraldsson K et al (2001) Functional analysis of BRCA1 C-terminal missense mutations identified in breast and ovarian cancer families. Hum Mol Genet 10(4):353–360CrossRefPubMed

25.

Thomassen M, Blanco A, Montagna M et al (2012) Characterization of BRCA1 and BRCA2 splicing variants: a collaborative report by ENIGMA consortium members. Breast Cancer Res Treat 132(3):1009–1023CrossRefPubMed

26.

Wappenschmidt B, Becker AA, Hauke J et al (2012) Analysis of 30 putative BRCA1 splicing mutations in hereditary breast and ovarian cancer families identifies exonic splice site mutations that escape in silico prediction. PLoS One 7(12):e50800CrossRefPubMedCentralPubMed

27.

Houdayer C, Caux-Moncoutier V, Krieger S et al (2012) Guidelines for splicing analysis in molecular diagnosis derived from a set of 327 combined in silico/in vitro studies on BRCA1 and BRCA2 variants. Hum Mutat 33(8):1228–1238CrossRefPubMed

28.

Gough CA, Gojobori T, Imanishi T (2007) Cancer-related mutations in BRCA1-BRCT cause long-range structural changes in protein-protein binding sites: a molecular dynamics study. Proteins 66(1):69–86CrossRefPubMed

29.

Kuo WH, Lin PH, Huang AC et al (2012) Multimodel assessment of BRCA1 mutations in Taiwanese (ethnic Chinese) women with early-onset, bilateral or familial breast cancer. J Hum Genet 57(2):130–138CrossRefPubMed

30.

Williams RS, Lee MS, Hau DD, Glover JN (2004) Structural basis of phosphopeptide recognition by the BRCT domain of BRCA1. Nat Struct Mol Biol 11(6):519–525CrossRefPubMed

31.

Easton DF, Deffenbaugh AM, Pruss D et al (2007) A systematic genetic assessment of 1,433 sequence variants of unknown clinical significance in the BRCA1 and BRCA2 breast cancer-predisposition genes. Am J Hum Genet 81(5):873–883CrossRefPubMedCentralPubMed

32.

Colombo M, De Vecchi G, Caleca L et al (2013) Comparative in vitro and in silico analyses of variants in splicing regions of BRCA1 and BRCA2 genes and characterization of novel pathogenic mutations. PLoS One 8(2):e57173CrossRefPubMedCentralPubMed

33.

Colombo M, Blok MJ, Whiley P et al (2014) Comprehensive annotation of splice junctions supports pervasive alternative splicing at the BRCA1 locus: a report from the ENIGMA consortium. Hum Mol Genet 23(14):3666–3680CrossRefPubMed

34.

Spurdle AB, Couch FJ, Hogervorst FB, Radice P, Sinilnikova OM (2008) Prediction and assessment of splicing alterations: implications for clinical testing. Hum Mutat 29(11):1304–1313CrossRefPubMedCentralPubMed

35.

Walker LC, Whiley PJ, Houdayer C et al (2013) Evaluation of a 5-tier scheme proposed for classification of sequence variants using bioinformatic and splicing assay data: inter-reviewer variability and promotion of minimum reporting guidelines. Hum Mutat 34(10):1424–1431CrossRefPubMed

Title: Splicing analysis of 14 BRCA1 missense variants classifies nine variants as pathogenic
Authors: Lise B. Ahlborn
Mette Dandanell
Ane Y. Steffensen
Lars Jønson
Finn C. Nielsen
Thomas v. O. Hansen
Publication date: 01-04-2015
Publisher: Springer US
Published in: Breast Cancer Research and Treatment / Issue 2/2015
Print ISSN: 0167-6806
Electronic ISSN: 1573-7217
DOI: https://doi.org/10.1007/s10549-015-3313-7

Webinar | 19-02-2024 | 17:30 (CET)

Keynote webinar | Spotlight on antibody–drug conjugates in cancer

Watch now

Antibody–drug conjugates (ADCs) are novel agents that have shown promise across multiple tumor types. Explore the current landscape of ADCs in breast and lung cancer with our experts, and gain insights into the mechanism of action, key clinical trials data, existing challenges, and future directions.

Dr. Véronique Diéras

Prof. Fabrice Barlesi

Developed by: Springer Medicine

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 2/2015

Integrative transcriptome-wide analyses reveal critical HER2-regulated mRNAs and lincRNAs in HER2+ breast cancer

Predictive role of HER2/neu, topoisomerase-II-alpha, and tissue inhibitor of metalloproteinases (TIMP-1) for response to adjuvant taxane-based chemotherapy in patients with intermediate-risk breast cancer: results from the WSG-AGO EC-Doc trial

Breast cancer incidence after hormonal treatments for infertility: systematic review and meta-analysis of population-based studies

High tumor budding stratifies breast cancer with metastatic properties

Smoking and survival in female breast cancer patients

The impact of breast cancer-related lymphedema on the ability to perform upper extremity activities of daily living

Keynote webinar | Spotlight on antibody–drug conjugates in cancer