Contributions of ATM mutations to familial breast and ovarian cancer.

This study addresses the prevalence of ATM mutations and the association with breast cancer in Austrian families selected for a history of breast or ovarian cancer or both [hereditary breast and ovarian cancer (HBOC)]. In 270 HBOC families previously screened for BRCA1 and BRCA2 mutations, 137 different sequence alterations of ATM were identified. Seven of these were mutations presumed to cause ataxia telangiectasia based on their effect on the ATM protein, including five that caused a protein truncation and two missense mutations in the catalytic kinase domain of the highly conserved COOH terminus of the protein. The seven mutations were found in 10 families (3.7%). In addition, one missense variant, L1420F, was observed in 13 HBOC families (4.8%) but was not observed in any of the 122 healthy volunteers with no history of breast cancer. In addition, the variant segregated with breast cancer in some of the families, suggesting that it may be pathogenic for breast cancer. Sixty-two additional variants of potential significance were observed in 65 HBOC families, but not in healthy controls. These variants included 24 sequence alterations with possible effects on splicing or protein-protein interactions. This study indicates that there is a significant prevalence of ATM mutations in breast and ovarian cancer families and adds to a growing body of evidence that ATM mutations confer increased susceptibility to breast cancer.

Mutation of the ATM gene is not involved in the pathogenesis of either follicle center lymphoma or its transformation to higher-grade lymphoma.

Loss of function of the ataxia-telangiectasia mutated (ATM) gene, located on human chromosome 11q22-23, is the cause of ataxia-telangiectasia (A-T), which is associated with an extremely high risk for lymphoma. Abnormalities in 11q22-23, including deletions and mutations of the ATM gene, have been reported in T-cell prolymphocytic leukemias, B-CLL and in mantle cell lymphoma. In a survey of gene expression in follicle center lymphomas (FCL) and diffuse large B-cell lymphomas (DLBCL), almost all FCL expressed significant levels of ATM and the majority of DLBCL expressed low levels of ATM. This finding raised the possibility that the transformation of some FCL to DLBCL might be associated with inactivation of the ATM gene. Therefore, we analyzed biopsy specimens of 17 patients with FCL obtained at the time of diagnosis, four subsequent biopsies obtained at the time of FCL relapse and seven subsequent biopsies at the time of transformation to DLBCL. A comprehensive analysis of the ATM gene was performed by denaturing high performance liquid chromatography and sequencing. The analysis covered all of the 66 exons including the 9168 base pairs of ATM coding sequence as well as 16,676 base pairs of non-coding sequence. Twenty-eight known polymorphisms and rare sequence variants were observed, but no classic A-T mutations were detected. In 11 tumors, both tumor B-cells and normal T-cells were sorted for separate examination, and in each case, polymorphisms and rare variants were present in both tumor and normal cells. No new ATM gene mutations were associated with transformation from FCL to DLBCL. Thus, ATM gene mutations do not play a pivotal role either in the pathogenesis of FCL or in its transformation to DLBCL.