Genetic risk transmission in a family affected by familial breast cancer.

Breast Cancer is the most common malignancy among women. Family history is the strongest single predictor of breast cancer risk, and thus great attention has been focused on BRCA1 and BRCA2 genes whose mutations lead to a high risk of developing this disease. Today, only 25% of high- and moderate-risk genes are known, suggesting the importance of the discovery of new risk modifiers. Therefore, the investigation of new polygenic alterations is of great importance, especially if considered high- and moderate-risk variants. In this study, the transmission of BRCA1-2 polymorphisms in association with the transmission of polymorphisms in the genes NUMA1, CCND1, COX11, FGFR2, TNRC9 and SLC4A7 were examined in all members of a family with the BRCA2 c.6447_6448dup mutation. This is the first study about the transmission of high-risk polygenic variants in all members of a family with a strong history of breast cancer. The results about the possible polygenic variant associations that could increase and modify the risk suggested the importance to search new variants to better manage patients and their family members.

BRCA1/2 and clinical outcome in a monoinstitutional cohort of women with hereditary breast cancer.

The clinical outcome of BRCA mutation carriers and non-carriers still remains a topic of discussion. In order to interpret controversial data, in the present study, we analyzed a large consecutive monoinstitutional series of breast cancer patients and relatives with familial features carrying or not carrying BRCA mutations. The intense research in recent years regarding the clinical genetics of patients with breast or ovarian cancer and their relatives has allowed the organization of a unique database comprising anamnestic, clinical, pathological and molecular data. Families with two or more cases of breast cancer under the age of 50 years, or with three cases at any age, were identified. From June, 2003 to June, 2010, a total of 202 patients (136 probands + 66 relatives) from 45 families were included in the analysis. A total of 136 (49 carrier and 87 non-carrier) cases had a cancer diagnosis at the time of their genetic testing. Twenty and 24 events were observed in the carrier and control group, respectively. The 10-year disease-free suvival rate was 57% for patients in the control group compared with 50% for patients carrying a BRCA mutation (P=0.15 by log-rank test). Finally, 66 (32 genetic and 34 control) cases were unaffected at the time of molecular analysis, and 6 new cases of cancer were observed in the carriers, while no new cases were detected in the control cohort. Thus, at age 50, 40% of carriers had a high risk of disease (P=0.0069 by log-rank test). Our data support the hypothesis that the presence of BRCA mutations does not alter the clinical outcome for hereditary breast cancer patients. Conversely, BRCA mutations are proven to be crucial for prediction of risk in healthy relatives from carrier families.

HOX gene methylation status analysis in patients with hereditary breast cancer.

Cancer development is related not only to genetic alterations but also to aberrant epigenetic changes that could lead to heritable gene patterns critical for neoplastic initiation and progression. Knowledge of epigenetic regulation in cancer cells is useful for both the understanding of carcinogenesis and for the possibility of using epigenetic drugs. HOX genes deregulation have a crucial role in oncogenesis process and tumor suppression. In this report, the methylation of HOXA1, HOXA9, HOXA10, HOXB13, HNF1B, OTX1, TLX1 genes have been analyzed in patients with hereditary breast cancer. This is the first study analyzing BRCA mutational status of patients with respect to methylation of HOX genes. HOXA10 has been found to be methylated in all patients analyzed but never in healthy subjects. With respect to clinical pathological information, hypermethylation of all studied genes, with the exception of OTX1, was significantly associated with absence of HER2 neu expression (P<0.05). Moreover, hypermethylation of HOXB13, HOXA10 and HOXA1 was associated with a high proliferation index (Mib1≥10%, P<0.05) and hypermethylation of HOXB13 and HOXA10 also with high expression of estrogen and progesterone receptors. These preliminary data suggest a possible involvement of HOX genes in familial breast cancer as marker helpful to identify high-risk patients.

Different methylation and microRNA expression pattern in male and female familial breast cancer.

Epigenetic regulation, has been very scarcely explored in familial breast cancer (BC). In the present study RASSF1A and RAR beta promoter methylation and miR17, miR21, miR 124, and let-7a expression were investigated to highlight possible differences of epigenetic regulation between male and female familial BC, also in comparison with sporadic BC. These epigenetic alterations were studied in 56 familial BC patients (27 males and 29 females) and in 16 female sporadic cases. RASSF1A resulted more frequently methylated in men than women (76% vs. 28%, respectively, P = 0.0001), while miR17 and let-7a expression frequency was higher in women than in men (miR17: 66% in women vs. 41% in men, P < 0.05; let-7a: 45% in women vs. 15% in men, P = 0.015). RASSF1A methylation affected 27.6% of familial BC while 83% of familial cases showed high expression of the gene (P = 0.025); on the contrary, only 17% of familial BC presented RAR beta methylation and 55% of familial cases overexpressed this gene (P = 0.005). Moreover, miR17, miR21, and let-7a resulted significantly overexpressed in familial compared to sporadic BC. RASSF1A overexpression (86% vs. 65%, P = 0.13) and RAR beta overexpression (57% vs. 32%, P = 0.11) were higher in BRCA1/2 carriers even if not statistical significance was reached. BRCA mutation carriers also demonstrated significant overexpression of: miR17 (93% vs. 35%, P = 0.0001), let-7a (64% vs. 16%, P = 0.002), and of miR21 (100% vs. 65%, P = 0.008). In conclusion, the present data suggest the involvement of RASSF1A in familial male BC, while miR17 and let-7a seem to be implied in familial female BC.

Mutations and polymorphic BRCA variants transmission in breast cancer familial members.

We previously showed that about 80% of breast cancer patients at high risk to carry mutation in BRCA genes presented at least one polymorphism in these genes which resulted potentially harmful by in silico analysis. In the present paper, the genealogic transmission of those polymorphic coding and noncoding variants of BRCA genes in family's members has been investigated. Thirty families, enrolled within the Genetic Counselling Program of our Institute, with probands and at least one-first degree relative (n = 67 family members) available, have been studied for both BRCA1 and BRCA2 pathological mutation and polymorphic variants' transmission. Ten and 6 probands carried Mendelian transmitted mutations in BRCA1 and BRCA2, respectively. Polymorphic coding and noncoding variants were transmitted in each family's relatives with a frequency ranging from 42 to 100%, with similar rate for each SNP in mutated and nonmutated families with the only exception of BRCA1 K1183R significantly more frequent in mutated families (P = 0.004); conversely, this SNP and BRCA2 N372H, were more frequently present in breast cancer relatives belonging to families in which pathological BRCA mutations were not present. Furthermore, specific haplotypes were transmitted in all relatives as BRCA1 871Leu-1038Gly, present in both BRCA mutated and nonmutated families, while BRCA2 289His-991Asp-IVS14+53 C>T present only in BRCAX families suggesting the harmful role of these SNPs. In conclusion, analysis of SNPs maps and modality of their transmission could identify further susceptibility markers and provide a basis for a better DNA-based cancer classification.

Maternal and paternal lineage double heterozygosity alteration in familial breast cancer: a first case report.

Hereditary breast cancer syndrome was firstly associated with BRCA1 and BRCA2 genes the mutations of which confer high risk to develop breast and/or ovarian cancer. Double heterozygosity is a rare condition in which both BRCA1 and BRCA2 mutations are present in a family at the same time. In the current study, a family with double heterozygosity has been reported. Furthermore, for the first time a molecular analysis in both proband lineages, maternal and paternal, has been reported to understand the provenience of both germinal mutations.The case regards a woman who developed breast and ovarian cancer with liver metastasis which presented two mutations, each in the two genes, transmitted from her mother and her father, respectively. In this family all available members have been investigated. The concomitant presence of these peculiar mutations was never reported before suggesting a link with Caucasian population from Southern Italy.

Respiratory complex I in brain development and genetic disease.

A study is presented on the expression and activity of complex I, as well as of other complexes of the respiratory chain, in the course of brain development and inherited encephalopathies. Investigations on mouse hippocampal cells show that differentiation of these cells both in vivo and in cell cultures is associated with the expression of a functional complex I, whose activity markedly increases with respect to that of complexes III and IV. Data are presented on genetic defects of complex I in six children with inborn encephalopathy associated with isolated deficiency of the complex. Mutations have been identified in nuclear and mitochondrial genes coding for subunits of the complex. Different mutations were found in the nuclear NDUFS4 gene coding for the 18 kD (IP, AQDQ) subunit of complex I. All the NDUFS4 mutations resulted in impairment of the assembly of a functional complex. The observations presented provide evidence showing a critical role of complex I in differentiation and functional activity of brain cells.