Molecular diagnostics are increasingly performed routinely in the diagnosis and management of patients with melanoma due to the development of novel therapies that target specific genetic mutations. The development of next-generation sequencing (NGS) technologies has enabled to sequence multiple cancer-driving genes in a single assay, with improved sensitivity in mutation detection. The main objective of this study was the design and implementation of a melanoma-specific sequencing panel, and the identification of the spectrum of somatic mutations in a series of primary melanoma samples. A custom panel was designed to cover the coding regions of 35 melanoma-related genes. Panel average coverage was 2,575.5 reads per amplicon, with 92,8% of targeted bases covered ≥500×. Deep coverage enabled sensitive discovery of mutations in as low as 0.5% mutant allele frequency. Eighty-five percent (85/100) of the melanomas had at least one somatic mutation. The most prevalent mutated genes were BRAF (50%;50/199), NRAS (15%;15/100), PREX2 (14%;14/100), GRIN2A (13%;13/100), and ERBB4 (12%;12/100). Turn-around-time and costs for NGS-based analysis was reduced in comparison to conventional molecular approaches. The results of this study demonstrate the cost-effectiveness and feasibility of a custom-designed targeted NGS panel, and suggest the implementation of targeted NGS into daily routine practice.
During the first 6 years of the Program of Genetic Counselling in Cancer of Valencia (eastern Spain), 310 mutations (155 in BRCA1 and 155 in BRCA2) in 1,763 hereditary breast (BC) and ovarian cancer (OC) families were identified. Of the mutations found 105 were distinct (53 in BRCA1 and 52 in BRCA2), eight new and 37 recurrent. Two of the novel mutations were frame-shift placed in exons 2 and 11 of BRCA1 and the remaining six were placed in BRCA2; four frame-shift (three in exon 11 and one in exon 23), one deletion of the entire exon 19 and one in the intervening sequence of exon 22. The BRCA1 mutations with higher recurrence were c.66_68delAG, c.5123C > A, c.1961delA, c.3770_3771delAG and c.5152+5G > A that covered 45.2% of mutations of this gene. The age of onset of BCs of c.68_69delAG mutation carriers occurs later than for the other recurrent mutations of this gene (45 vs. 37 years; p = 0.008). The BRCA2 mutations with higher recurrence were c.9026_9030delATCAT, c.3264insT and c.8978_8991del14 which represented 43.2% of all mutations in this gene, being the most recurrent mutation by far c.9026_9030delATCAT that represents 21.3% of BRCA2 mutations and 10.6% of all mutations. Probands with family histories of BC and OC, or OC and/or BC in at least two first degree relatives, were the more likely to have BRCA1/BRCA2 mutations (35.2% of the total mutations). And that most BRCA1mutations (73.19% mutations) occurred in probands with early-onset BC or with family history of OC.
This study aims to identify signatures of miR associated with hereditary, BRCA1 or BRCA2 mutation positive breast cancer (BC), and non-hereditary BC, either sporadic (SBC) or non-informative (BRCAX). Moreover, we search for signatures associated with tumor stage, immunohistochemistry and tumor molecular profile. Twenty formalin fixed paraffin embedded (FFPE) BCs, BRCA1, BRCA2, BRCAX and SBC, five per group were studied. Affymetrix platform miRNA v.3.0 was used to perform miR expression analysis. ER, PR, HER2 and Ki67 protein expression was analyzed by immunohistochemistry. BRCA1, BRCA2 and RASSF1 methylation analysis, AURKA copy number variations, and BRCA1 and BRCA2 deletions, were studied by MLPA. We validated eight of the miR selected by the arrays in 77 BCs by qRT-PCR. The miR profiles associated with tumor features were studied applying the Sparse Partial Least Squares Discriminant Analysis. MiR discrimination capability to distinguish hereditary and non-hereditary BC was analyzed by the discriminant function. With 15 out of 1,733 hsa-miRs, it was possible to differentiate the four groups. BRCA1, BRCA2 and SBC were associated with clusters of hyper-expressed miRs, and BRCAX with hypo-expressed miRs. Hsa-miR-4417 and hsa-miR-423-3p expressions (included among the eight validated miRs) differentiated 70.1 % of hereditary and non-hereditary BCs. We found miR profiles associated with tumor features like node involvement, histological grade, ER, PR and HER2 expression. Regarding molecular parameters, we only found a weak association of miRs in BC harboring losses in AURKA. We conclude that array miR expression profiles can differentiate the four study groups using FFPE BC. However, miRs expression estimated by qRT-PCR differentiates only hereditary and non-inherited BCs. The miR expression array is a simple and rapid approach that could be useful to facilitate the identification of those SBC carrying genetic or epigenetic changes in BRCA genes responsible of BRCA-like phenotype. These patients could benefit from the treatment with PARP inhibitors.
The polymorphic genetic differences among individuals may modify the high risk for breast cancer (BC) and/or ovarian cancer (OC) susceptibility conferred by BRCA1 and BRCA2 mutations. In the present study we investigate the relevance of RAD51 -135C > G, TP53 R72P, NQO1*2 and CASP8 D302H polymorphisms as potential modifiers of BC and/or OC susceptibility conferred by these mutations. The study group encompasses 390 BRCA1/BRCA2 mutation carriers (182 affected with BC and/or OC and 208 unaffected) of 131 unrelated families studied in the Program of Genetic Counselling on Cancer of Valencia Community. The polymorphisms were detected in genomic DNA by ASRA method or real time PCR using fluorescently labeled probes. We found similar incidence of RAD51 -135C > G, TP53 R72P and NQO1*2 polymorphisms among affected and unaffected individuals considering BRCA1/BRCA2 mutations together and separately. However, the CASP8 D302H polymorphism was strongly associated with the absence of BC [OR = 3.41 (95% CI 1.33-8.78, P = 0.01)]. In fact, in the females with CASP8 D302H polymorphism the BC appeared at a median age of 58 in opposition to the 47 years observed for the wild type subjects (P = 0.03). Furthermore, the CASP8 D302H positive females showed a 50% probability of being free of BC by the age of 78 versus the 2% of the CASP8 negative ones. Our results support that the presence of the CASP8 D302H polymorphism diminishes the high risk of BC conferred by BRCA1 and BRCA2 mutations, making possible that some of the carriers could escape from suffering BC along their life span.
The true prevalence of BRCA1/BRCA2 (BRCAs) germline mutations in sporadic breast or ovarian cancer (SBC/SOC) in Caucasian population is not well established. The aim of the study is to establish the prevalence of BRCAs mutations in SBC to ponder its relevance in the programs of genetic counseling in cancer and to explore the genotype-phenotype relationship of these particular breast cancers. The study was performed in 495 SBC. We sought 46 BRCA1 and 53 BRCA2 pathogenic mutations reported in the Spanish population. We followed a high resolution melting method performed in the LightCycler 480 (Roche Diagnostics) for the screening of these Spanish mutations using 49 primer pairs. Eight different deleterious mutations, one of them novel, were detected in nine patients, five without family history of BC/OC, what yields a true prevalence of 1.05% for BRCAs mutations in SBC. Furthermore, we found 18 unknown variants. Larger tumour size (T > 1) and earlier presentation are the independent parameters associated with the presence of BRCAs pathogenic mutations in SBC (P < 0.01) and the BRCA1 mutations carriers develop steroid-receptors negative tumors. Our results indicate that the true prevalence of BRCAs germline deleterious mutations in SBC of Spaniards is low. However, this does not lessens its relevance since the presence of BRCAs mutations in SBC could represent circa 16% of total BRCAs mutations detected in BC. SBCs of BRCAs mutation carriers have phenotype more aggressiveness than SBC without BRCAs mutation.
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