To optimize the molecular diagnosis of hereditary breast and ovarian cancer (HBOC), we developed a next-generation sequencing (NGS)-based screening based on the capture of a panel of genes involved, or suspected to be involved in HBOC, on pooling of indexed DNA and on paired-end sequencing in an Illumina GAIIx platform, followed by confirmation by Sanger sequencing or MLPA/QMPSF. The bioinformatic pipeline included CASAVA, NextGENe, CNVseq and Alamut-HT. We validated this procedure by the analysis of 59 patients' DNAs harbouring SNVs, indels or large genomic rearrangements of BRCA1 or BRCA2. We also conducted a blind study in 168 patients comparing NGS versus Sanger sequencing or MLPA analyses of BRCA1 and BRCA2. All mutations detected by conventional procedures were detected by NGS. We then screened, using three different versions of the capture set, a large series of 708 consecutive patients. We detected in these patients 69 germline deleterious alterations within BRCA1 and BRCA2, and 4 TP53 mutations in 468 patients also tested for this gene. We also found 36 variations inducing either a premature codon stop or a splicing defect among other genes: 5/708 in CHEK2, 3/708 in RAD51C, 1/708 in RAD50, 7/708 in PALB2, 3/708 in MRE11A, 5/708 in ATM, 3/708 in NBS1, 1/708 in CDH1, 3/468 in MSH2, 2/468 in PMS2, 1/708 in BARD1, 1/468 in PMS1 and 1/468 in MLH3. These results demonstrate the efficiency of NGS in performing molecular diagnosis of HBOC. Detection of mutations within other genes than BRCA1 and BRCA2 highlights the genetic heterogeneity of HBOC. In BRCA1 and BRCA2 mutation carriers, the cumulative risk of breast cancer at 70 years has been estimated to 65 and 45%, respectively, and the risk of ovarian cancer to 39 and 10%, respectively. 3 The identification of a deleterious BRCA1/BRCA2 mutation within a family is crucial for the medical follow-up, as mutation carriers should be offered annual MRI or, alternatively, prophylactic mastectomy and prophylactic salpingooophorectomy. Furthermore, in a breast cancer patient, the detection of a germline BRCA1 or BRCA2 mutation may have important therapeutic consequences: complete mastectomy instead of partial mastectomy and, in the future, the prescription of specific targeted therapies, such as PARP inhibitors. 4,5 Considering the medical consequences of the identification of a germline BRCA1 or BRCA2 mutation and the frequency of mutation carriers, which has
7184 Background: The efficacy of epidermal growth factor receptor (EGFR) tyrosine kinase inhibitors (TKI) has been reported in lung adenocarcinoma patients with tumoral EGFR mutations. Those mutations were found mainly by direct genomic sequencing on snap-frozen surgical specimens. Conversely, TKIs are used in metastatic patients who do not undergo tumor resection. In these patients, there is a need for routine sensitive molecular procedures, to overcome the small size of non-surgical bronchoscopy paraffin-embedded biopsy samples. Methods: Patients were selected on clinical and pathological characteristics: never (n = 43) or former smokers, patients with non-squamous NSCLC (n = 105) or patients with bronchioloalveolar adenocarcinoma (n = 34). Direct genomic sequencing assay was performed as reported elsewhere. Denaturing, high-performance, liquid chromatography (DHPLC) assay was performed with EGFR-specific primers that amplify exons 18, 19, and 21. A multiplex, allele-specific, oligonucleotide PCR (MASO-PCR) assay was carried out with a set of primers that identify the 14 most frequent molecular events described for the EGFR gene, which covers 90% of EGFR gain-of-function mutations described to date. Results: 123 samples were screened from 105 non-squamous NSCLC patients (female/male ratio = 0.84). Non-surgical biopsy specimens were available in 38 patients. EGFR mutations were detected by at least two of three procedures in 18/105 patients (17%). In paraffin-embedded specimens with low tumor content, EGFR heterozygous mutations were found either by MASO-PCR alone (n = 2, confirmed in the matched surgical sample by another procedure), or both by MASO-PCR and DHPLC (n = 16); they were missed by nucleotidic sequencing in 6 samples. 18 patients received TKI. 6 dramatic responses were achieved in patients with EGFR mutation, while no mutation could be found in non-responsive patients. Overall disease control was obtained in 8/18 patients (44%). Conclusions: MASO-PCR and DHPLC appear more sensitive than direct sequencing in non-surgical paraffin-embedded biopsies, which represent the bulk of samples in lung cancer patients. We propose that the cost-effective MASO-PCR be used for routine screening of EGFR mutations in NSCLC patients. No significant financial relationships to disclose.
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