Genomic rearrangements account for more than one-third of the BRCA1 mutations in northern Italian breast/ovarian cancer families

doi:10.1093/hmg/ddg120

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Human Molecular Genetics, 2003, Vol. 12, No. 9 1055-1061
DOI: 10.1093/hmg/ddg120
© 2003 Oxford University Press

Genomic rearrangements account for more than one-third of the BRCA1 mutations in northern Italian breast/ovarian cancer families

Marco Montagna¹^,*, Maurizia Dalla Palma², Chiara Menin¹, Simona Agata², Arcangela De Nicolo², Luigi Chieco-Bianchi² and Emma D'Andrea²

¹IST-Genova c/o ²Department of Oncology and Surgical Sciences, Azienda Ospedaliera, Padua, Italy

Received January 13, 2003; Accepted March 6, 2003

The recent identification of major genomic rearrangements inbreast and breast/ovarian cancer families has widened the mutationalspectrum of the BRCA1 gene, thus increasing the number of informativepatients who can benefit from molecular screening. Numeroustypes of alterations have been identified in different populationswith variable frequencies, probably due to both ethnic diversityand the technical approach employed. In fact, although severalmethods have been successfully used to detect large genomicdeletions and insertions, most are laborious, time-consuming,and of variable sensitivity. In order to estimate the contributionof BRCA1 genomic rearrangements to breast/ovarian cancer predispositionin Italian families, we applied, for the first time as a diagnostictool, the recently described multiplex ligation-dependent probeamplification (MLPA) methodology. Among the 37 hereditary breast/ovariancancer (HBOC) families selected, all had a high prior probabilityof BRCA1 mutation, and 15 were previously shown to carry a mutationin either the BRCA2 (five families) or BRCA1 gene (10 families,including one genomic rearrangement). The application of BRCA1-MLPAto the remaining 22 uninformative families allowed the identificationof five additional genomic rearrangements. Moreover, we observedthat loss of constitutive heterozygosity of polymorphic markersin linkage disequilibrium is predictive of such BRCA1 alterations.By means of this approach, we demonstrate that BRCA1 genomicdeletions account for more than one-third (6/15) of the pathogenicBRCA1 mutations in our series. We therefore propose to systematicallyinclude MLPA in the BRCA1 mutational analysis of breast/ovariancancer families.

^* To whom correspondence should be addressed at: Department ofOncology and Surgical Sciences, Oncology Section, via Gattamelata64, I-35128 Padua, Italy. Tel: +39 498215881; Fax: +39 498072854;Email: montagna{at}unipd.it

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