Jérémie Weber

ATM germline mutations in women with familial breast cancer and a relative with haematological malignancy

Biallelic inactivation of the ATM gene causes ataxia–telangiectasia (A–T), a complex neurological disease associated with a high risk of leukaemias and lymphomas. Mothers of A–T children, obligate ATM heterozygote mutation carriers, have a breast cancer (BC) relative risk of about 3. The frequency of ATM carriers in BC women with a BC family history has been estimated to be 2.70%. To further our clinical understanding of familial BC and examine whether haematological malignancies are predictive of ATM germline mutation, we estimated the frequency of heterozygote mutation carriers in a series of 122 BC women with a family history of both BC and haematological malignancy and without BRCA1/2 mutation. The gene screening was performed with a new high throughput method, EMMA (enhanced mismatch mutation analysis). Amongst 28 different ATM variants, eight mutations have been identified in eight patients: two mutations leading to a putative truncated protein and six being likely deleterious mutations. One of the truncating mutations was initially interpreted as a missense mutation, p.Asp2597Tyr, but is actually a splice mutation (c.7789G>T/p.Asp2597_Lys2643>LysfsX3). The estimated frequency of ATM heterozygote mutation carriers in our series is 6.56% (95% CI: 2.16–10.95), a significantly higher figure than that observed in the general population, estimated to be between 0.3 and 0.6%. Although a trend towards an increased frequency of ATM carriers was observed, it was not different from that observed in a population of familial BC women not selected for haematological malignancy as the frequency of ATM carriers was 2.70%, a value situated in the confidence interval of our study.

Enhanced Mismatch Mutation Analysis: Simultaneous Detection of Point Mutations and Large Scale Rearrangements by Capillary Electrophoresis, Application to BRCA1 and BRCA2

We present the routine diagnostic application of EMMA (Enhanced Mismatch Mutation Analysis, Fluigent), a new, fast, reliable, and cost-effective method for mutation screening. This method is based on heteroduplex analysis by capillary electrophoresis and relies on the use of innovative matrices increasing the electrophoretic mobility differences between homoduplex and heteroduplex DNA, which is further enhanced by the addition of nucleosides in the separation matrix. Nucleosides interact with heteroduplex mismatched bases, hence increasing mobility difference with homoduplex. As separations are performed by multi-capillary electrophoresis, it allows for high automation, low cost, and high throughput. Moreover, EMMA, in combination with limiting PCR conditions, can be used to achieve the simultaneous detection of point mutation and large scale rearrangement in a single run.We now report on the routine diagnostic use of this method for BRCA1 and BRCA2 screening. The coding sequence and exon-intron junctions of BRCA1 and BRCA2 were amplified in 24 multiplex PCRs using a single condition. PCRs were electrophoresed with a single analytical condition on an ABI3100, and data were analyzed using dedicated software (Emmalys).The strength of this new method relies on the following assets: (1) a single condition of analysis: modeling related to melting domain is not required (2) simultaneous detection of point mutations and large scale rearrangements, (3) optimized and ready-to-use polymer that can be used on various ABI sequencers, (4) easy to use, (5) low reagent costs, and (6) throughput.