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01-11-2010 | Preclinical study

Screening for genomic rearrangements in BRCA1 and BRCA2 genes in Czech high-risk breast/ovarian cancer patients: high proportion of population specific alterations in BRCA1 gene

Authors: Ivana Ticha, Zdenek Kleibl, Jana Stribrna, Jaroslav Kotlas, Martina Zimovjanova, Martin Mateju, Michal Zikan, Petr Pohlreich

Published in: Breast Cancer Research and Treatment | Issue 2/2010

Abstract

Large genomic rearrangements (LGR) represent substantial proportion of pathogenic mutations in the BRCA1 gene, whereas the frequency of rearrangements in the BRCA2 gene is low in many populations. We screened for LGRs in BRCA1 and BRCA2 genes by multiplex ligation-dependent probe amplification (MLPA) in 521 unrelated patients negative for BRCA1/2 point mutations selected from 655 Czech high-risk breast and/or ovarian cancer patients. Besides long range PCR, a chromosome 17-specific oligonucleotide-based array comparative genomic hybridization (aCGH) was used for accurate location of deletions. We identified 14 patients carrying 8 different LGRs in BRCA1 that accounted for 12.3% of all pathogenic BRCA1 mutations. No LGRs were detected in the BRCA2 gene. In a subgroup of 239 patients from high-risk families, we found 12 LGRs (5.0%), whereas two LGRs were revealed in a subgroup of 282 non-familial cancer cases (0.7%). Five LGRs (deletion of exons 1–17, 5–10, 13–19, 18–22 and 21–24) were novel; two LGRs (deletion of exons 5–14 and 21–22) belong to the already described Czech-specific mutations; one LGR (deletion of exons 1–2) was reported from several countries. The deletions of exons 1–17 and 5–14, identified each in four families, represented Czech founder mutations. The present study indicates that screening for LGRs in BRCA1 should include patients from breast or ovarian cancer families as well as high-risk patients with non-familial cancer, in particular cases with early-onset breast or ovarian cancer. On the contrary, our analyses do not support the need to screen for LGRs in the BRCA2 gene. Implementation of chromosome-specific aCGH could markedly facilitate the design of primers for amplification and sequence analysis of junction fragments, especially in deletions overlapping gene boundaries.

Anglian Breast Cancer Study Group (2000) Prevalence and penetrance of BRCA1 and BRCA2 mutations in a population-based series of breast cancer cases. Br J Cancer 83:1301–1308CrossRef

Malone KE, Daling JR, Doody DR, Hsu L, Bernstein L, Coates RJ, Marchbanks PA, Simon MS, McDonald JA, Norman SA, Strom BL, Burkman RT, Ursin G, Deapen D, Weiss LK, Folger S, Madeoy JJ, Friedrichsen DM, Suter NM, Humphrey MC, Spirtas R, Ostrander EA (2006) Prevalence and predictors of BRCA1 and BRCA2 mutations in a population-based study of breast cancer in white and black American women ages 35 to 64 years. Cancer Res 66:8297–8308CrossRefPubMed

Mateju M, Stribrna J, Zikan M, Kleibl Z, Janatova M, Kormunda S, Novotny J, Soucek P, Petruzelka L, Pohlreich P (2010) Population-based study of BRCA1/2 mutations: family history based criteria identify minority of mutation carriers. Neoplasma 57(4)

Hogervorst FB, Nederlof PM, Gille JJ, McElgunn CJ, Grippeling M, Pruntel R, Regnerus R, van Welsem T, van Spaendonk R, Menko FH, Kluijt I, Dommering C, Verhoef S, Schouten JP, van’t Veer LJ, Pals G (2003) Large genomic deletions and duplications in the BRCA1 gene identified by a novel quantitative method. Cancer Res 63:1449–1453PubMed

Mazoyer S (2005) Genomic rearrangements in the BRCA1 and BRCA2 genes. Hum Mutat 25:415–422CrossRefPubMed

de la Hoya M, Gutierrez-Enriquez S, Velasco E, Osorio A, Sanchez de Abajo A, Vega A, Salazar R, Esteban E, Llort G, Gonzalez-Sarmiento R, Carracedo A, Benitez J, Miner C, Diez O, Diaz-Rubio E, Caldes T (2006) Genomic rearrangements at the BRCA1 locus in Spanish families with breast/ovarian cancer. Clin Chem 52:1480–1485CrossRefPubMed

Engert S, Wappenschmidt B, Betz B, Kast K, Kutsche M, Hellebrand H, Goecke TO, Kiechle M, Niederacher D, Schmutzler RK, Meindl A (2008) MLPA screening in the BRCA1 gene from 1,506 German hereditary breast cancer cases: novel deletions, frequent involvement of exon 17, and occurrence in single early-onset cases. Hum Mutat 29:948–958CrossRefPubMed

Gad S, Caux-Moncoutier V, Pages-Berhouet S, Gauthier-Villars M, Coupier I, Pujol P, Frenay M, Gilbert B, Maugard C, Bignon YJ, Chevrier A, Rossi A, Fricker JP, Nguyen TD, Demange L, Aurias A, Bensimon A, Stoppa-Lyonnet D (2002) Significant contribution of large BRCA1 gene rearrangements in 120 French breast and ovarian cancer families. Oncogene 21:6841–6847CrossRefPubMed

Hansen TV, Jonson L, Albrechtsen A, Andersen MK, Ejlertsen B, Nielsen FC (2009) Large BRCA1 and BRCA2 genomic rearrangements in Danish high risk breast-ovarian cancer families. Breast Cancer Res Treat 115:315–323CrossRefPubMed

10.

Puget N, Stoppa-Lyonnet D, Sinilnikova OM, Pages S, Lynch HT, Lenoir GM, Mazoyer S (1999) Screening for germ-line rearrangements and regulatory mutations in BRCA1 led to the identification of four new deletions. Cancer Res 59:455–461PubMed

11.

Petrij-Bosch A, Peelen T, van Vliet M, van Eijk R, Olmer R, Drusedau M, Hogervorst FB, Hageman S, Arts PJ, Ligtenberg MJ, Meijers-Heijboer H, Klijn JG, Vasen HF, Cornelisse CJ, ‘t Veer LJ, Bakker E, van Ommen GJ, Devilee P (1997) BRCA1 genomic deletions are major founder mutations in Dutch breast cancer patients. Nat Genet 17:341–345CrossRefPubMed

12.

Agata S, Viel A, Della PL, Cortesi L, Fersini G, Callegaro M, Dalla PM, Dolcetti R, Federico M, Venuta S, Miolo G, D’Andrea E, Montagna M (2006) Prevalence of BRCA1 genomic rearrangements in a large cohort of Italian breast and breast/ovarian cancer families without detectable BRCA1 and BRCA2 point mutations. Genes Chromosomes Cancer 45:791–797CrossRefPubMed

13.

Smith TM, Lee MK, Szabo CI, Jerome N, McEuen M, Taylor M, Hood L, King MC (1996) Complete genomic sequence and analysis of 117 kb of human DNA containing the gene BRCA1. Genome Res 6:1029–1049CrossRefPubMed

14.

Puget N, Gad S, Perrin-Vidoz L, Sinilnikova OM, Stoppa-Lyonnet D, Lenoir GM, Mazoyer S (2002) Distinct BRCA1 rearrangements involving the BRCA1 pseudogene suggest the existence of a recombination hot spot. Am J Hum Genet 70:858–865CrossRefPubMed

15.

Buffone A, Capalbo C, Ricevuto E, Sidoni T, Ottini L, Falchetti M, Cortesi E, Marchetti P, Scambia G, Tomao S, Rinaldi C, Zani M, Ferraro S, Frati L, Screpanti I, Gulino A, Giannini G (2007) Prevalence of BRCA1 and BRCA2 genomic rearrangements in a cohort of consecutive Italian breast and/or ovarian cancer families. Breast Cancer Res Treat 106:289–296CrossRefPubMed

16.

Preisler-Adams S, Schonbuchner I, Fiebig B, Welling B, Dworniczak B, Weber BH (2006) Gross rearrangements in BRCA1 but not BRCA2 play a notable role in predisposition to breast and ovarian cancer in high-risk families of German origin. Cancer Genet Cytogenet 168:44–49CrossRefPubMed

17.

Pylkas K, Erkko H, Nikkila J, Solyom S, Winqvist R (2008) Analysis of large deletions in BRCA1, BRCA2 and PALB2 genes in Finnish breast and ovarian cancer families. BMC Cancer 8:146CrossRefPubMed

18.

Staaf J, Torngren T, Rambech E, Johansson U, Persson C, Sellberg G, Tellhed L, Nilbert M, Borg A (2008) Detection and precise mapping of germline rearrangements in BRCA1, BRCA2, MSH2, and MLH1 using zoom-in array comparative genomic hybridization (aCGH). Hum Mutat 29:555–564CrossRefPubMed

19.

Agata S, Dalla PM, Callegaro M, Scaini MC, Menin C, Ghiotto C, Nicoletto O, Zavagno G, Chieco-Bianchi L, D’Andrea E, Montagna M (2005) Large genomic deletions inactivate the BRCA2 gene in breast cancer families. J Med Genet 42:e64CrossRefPubMed

20.

Gutierrez-Enriquez S, de la Hoya M, Martinez-Bouzas C, Sanchez dA, Cajal T, Llort G, Blanco I, Beristain E, Diaz-Rubio E, Alonso C, Tejada MI, Caldes T, Diez O (2007) Screening for large rearrangements of the BRCA2 gene in Spanish families with breast/ovarian cancer. Breast Cancer Res Treat 103:103–107CrossRefPubMed

21.

Tournier I, Paillerets BB, Sobol H, Stoppa-Lyonnet D, Lidereau R, Barrois M, Mazoyer S, Coulet F, Hardouin A, Chompret A, Lortholary A, Chappuis P, Bourdon V, Bonadona V, Maugard C, Gilbert B, Nogues C, Frebourg T, Tosi M (2004) Significant contribution of germline BRCA2 rearrangements in male breast cancer families. Cancer Res 64:8143–8147CrossRefPubMed

22.

Vasickova P, Machackova E, Lukesova M, Damborsky J, Horky O, Pavlu H, Kuklova J, Kosinova V, Navratilova M, Foretova L (2007) High occurrence of BRCA1 intragenic rearrangements in hereditary breast and ovarian cancer syndrome in the Czech Republic. BMC Med Genet 8:32CrossRefPubMed

23.

Zikan M, Pohlreich P, Stribrna J, Kleibl Z, Cibula D (2008) Novel complex genomic rearrangement of the BRCA1 gene. Mutat Res 637:205–208PubMed

24.

Bartonkova H, Foretová L, Helmichová E, Kalábová R, Kleibl Z, Konopásek B, Krutílková V, Macháčková E, Novotný J, Petráková K, Petruželka L, Plevová P, Pohlreich P, Rob L, Skovajsová M, Veselý J, Žaloudík J (2003) Doporučené zásady péče o nemocné s nádory prsu a vaječníků a zdravé osoby se zárodečnými mutacemi genů BRCA1 nebo BRCA2 [Recommendations for care of patients with breast and ovarian cancer and healthy individuals with germline mutations in BRCA1 or BRCA2 gene]. Klin Onkol 16:28–34

25.

Plevová P, Novotný J, Petráková K, Palácová M, Kalábová R, Schneiderová M, Foretová L (2009) Syndrom hereditárního karcinomu prsu a ovarií [Hereditary breast and ovarian cancer syndrome]. Klin Onkol 22(Suppl):S8–11

26.

Pohlreich P, Stribrna J, Kleibl Z, Zikan M, Kalbacova R, Petruzelka L, Konopasek B (2003) Mutations of the BRCA1 gene in hereditary breast and ovarian cancer in the Czech Republic. Med Princ Pract 12:23–29CrossRefPubMed

27.

Pohlreich P, Zikan M, Stribrna J, Kleibl Z, Janatova M, Kotlas J, Zidovska J, Novotny J, Petruzelka L, Szabo C, Matous B (2005) High proportion of recurrent germline mutations in the BRCA1 gene in breast and ovarian cancer patients from the Prague area. Breast Cancer Res 7:R728–R736CrossRefPubMed

28.

Parmigiani G, Berry D, Aguilar O (1998) Determining carrier probabilities for breast cancer-susceptibility genes BRCA1 and BRCA2. Am J Hum Genet 62:145–158CrossRefPubMed

29.

Workman C, Jensen LJ, Jarmer H, Berka R, Gautier L, Nielser HB, Saxild HH, Nielsen C, Brunak S, Knudsen S (2002) A new non-linear normalization method for reducing variability in DNA microarray experiments. Genome Biol 3: research0048.1–16

30.

Olshen AB, Venkatraman ES, Lucito R, Wigler M (2004) Circular binary segmentation for the analysis of array-based DNA copy number data. Biostatistics 5:557–572CrossRefPubMed

31.

den Dunnen JT, Antonarakis SE (2000) Mutation nomenclature extensions and suggestions to describe complex mutations: a discussion. Hum Mutat 15:7–12CrossRef

32.

International Human Genome Sequencing Consortium (2004) Finishing the euchromatic sequence of the human genome. Nature 431:931–945CrossRef

33.

Soukupova J, Dundr P, Kleibl Z, Pohlreich P (2008) Contribution of mutations in ATM to breast cancer development in the Czech population. Oncol Rep 19:1505–1510PubMed

34.

Montagna M, Dalla PM, Menin C, Agata S, De Nicolo A, Chieco-Bianchi L, D’Andrea E (2003) Genomic rearrangements account for more than one-third of the BRCA1 mutations in northern Italian breast/ovarian cancer families. Hum Mol Genet 12:1055–1061CrossRefPubMed

35.

Hartmann C, John AL, Klaes R, Hofmann W, Bielen R, Koehler R, Janssen B, Bartram CR, Arnold N, Zschocke J (2004) Large BRCA1 gene deletions are found in 3% of German high-risk breast cancer families. Hum Mutat 24:534CrossRefPubMed

36.

Lindor NM, Lindor RA, Apicella C, Dowty JG, Ashley A, Hunt K, Mincey BA, Wilson M, Smith MC, Hopper JL (2007) Predicting BRCA1 and BRCA2 gene mutation carriers: comparison of LAMBDA, BRCAPRO, Myriad II, and modified Couch models. Fam Cancer 6:473–482CrossRefPubMed

37.

Antoniou AC, Hardy R, Walker L, Evans DG, Shenton A, Eeles R, Shanley S, Pichert G, Izatt L, Rose S, Douglas F, Eccles D, Morrison PJ, Scott J, Zimmern RL, Easton DF, Pharoah PD (2008) Predicting the likelihood of carrying a BRCA1 or BRCA2 mutation: validation of BOADICEA, BRCAPRO, IBIS, Myriad and the Manchester scoring system using data from UK genetics clinics. J Med Genet 45:425–431CrossRefPubMed

38.

van Harssel JJ, van Roozendaal CE, Detisch Y, Brandão RD, Paulussen AD, Zeegers M, Blok MJ, Gómez García EB (2009) Efficiency of BRCAPRO and Myriad II mutation probability thresholds versus cancer history criteria alone for BRCA1/2 mutation detection. Fam Cancer. doi 10.1007/s10689-009-9305-1

39.

Narod SA, Foulkes WD (2004) BRCA1 and BRCA2: 1994 and beyond. Nat Rev Cancer 4:665–676CrossRefPubMed

40.

Breast Cancer information Core database (BIC). http://resarch.nhgri.nih.gov/BIC. Accessed 26 Nov 2009

41.

Walsh T, Casadei S, Coats KH, Swisher E, Stray SM, Higgins J, Roach KC, Mandell J, Lee MK, Ciernikova S, Foretova L, Soucek P, King MC (2006) Spectrum of mutations in BRCA1, BRCA2, CHEK2, and TP53 in families at high risk of breast cancer. JAMA 295:1379–1388CrossRefPubMed

42.

Casilli F, Tournier I, Sinilnikova OM, Coulet F, Soubrier F, Houdayer C, Hardouin A, Berthet P, Sobol H, Bourdon V, Muller D, Fricker JP, Capoulade-Metay C, Chompret A, Nogues C, Mazoyer S, Chappuis P, Maillet P, Philippe C, Lortholary A, Gesta P, Bezieau S, Toulas C, Gladieff L, Maugard CM, Provencher DM, Dugast C, Delvincourt C, Nguyen TD, Faivre L, Bonadona V, Frebourg T, Lidereau R, Stoppa-Lyonnet D, Tosi M (2006) The contribution of germline rearrangements to the spectrum of BRCA2 mutations. J Med Genet 43:e49CrossRefPubMed

Title: Screening for genomic rearrangements in BRCA1 and BRCA2 genes in Czech high-risk breast/ovarian cancer patients: high proportion of population specific alterations in BRCA1 gene
Authors: Ivana Ticha
Zdenek Kleibl
Jana Stribrna
Jaroslav Kotlas
Martina Zimovjanova
Martin Mateju
Michal Zikan
Petr Pohlreich
Publication date: 01-11-2010
Publisher: Springer US
Published in: Breast Cancer Research and Treatment / Issue 2/2010
Print ISSN: 0167-6806
Electronic ISSN: 1573-7217
DOI: https://doi.org/10.1007/s10549-010-0745-y

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