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205. Risk of contralateral breast cancer in BRCA1 and BRCA2 mutation carriers: a 30-year semi-prospective analysis.

Author

Basu, N., Ingham, S., Hodson, J., Lalloo, F., Bulman, M., Howell, A., and Evans, D.

Abstract

BRCA1 and BRCA2 mutation carriers have an increased risk of contralateral breast cancer after primary breast cancer. Risk reduction strategies are discussed after assessment of risk factors for developing contralateral breast cancer. We assessed potential risk factors that could be of use in clinical practice, including the novel use of single nucleotide polymorphisms (SNP) testing. 506 BRCA1 and 505 BRCA2 mutation carriers with a diagnosis of breast cancer were observed for up to 30 years. The risk of a contralateral breast cancer is approximately 2-3 % per year, remaining constant for at least 20 years. This was similar in both BRCA1 and BRCA2 carriers. Initial breast cancer before age 40-years was a significant risk factor, which was more pronounced in BRCA1 patients. The effect of risk-reducing oophorectomy on contralateral breast cancer risk may be overestimated because of bias. No significant association was found between overall breast cancer risk SNP score and contralateral breast cancer development. Young mutation carriers, particularly those with BRCA1 mutations, who develop breast cancer have a significantly higher risk of developing contralateral breast cancer, remaining constant for over 20 years. Contralateral risk-reducing mastectomy should be considered in this group, in particular as there is a survival benefit. Caution is advised when counselling women considering risk-reducing oophorectomy as, after accounting for statistical bias, the associated risk reduction was found to be non-significant, and potentially smaller than has been previously reported. SNP testing did not add any further discriminatory information when assessing contralateral breast cancer risk. [ABSTRACT FROM AUTHOR]

Published
2015
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206. The BRCA2 polymorphic stop codon: stuff or nonsense?

Author

Higgs, J. E., Harkness, E. F., Bowers, N. L., Howard, E., Wallace, A. J., Lalloo, F., Newman, W. G., and Evans, D. G.

Subjects
GENETIC polymorphisms, GENETIC code, BRCA genes, NUCLEIC acid isolation methods, CANCER risk factors, GENETIC mutation
Abstract

Background Despite classification of the BRCA2c.9976A>T, p.(Lys3326Ter) variant as a polymorphism, it has been associated with increased risks of pancreatic, lung, oesophageal and breast cancer. Methods We have noticed multiple co-occurrences of the BRCA2 c.9976A>T variant with the pathogenic BRCA2c.6275_6276delTT frameshift mutation p. (Leu2092ProfsTer7) and using a cohort study have assessed if this might account for these tumour risk associations. Results We identified 52 families with BRCA2c.6275_6276delTT, all of which occur in cis with the BRCA2c.9976A>T variant allele as demonstrated by co-segregation in all family members tested. Of 3245 breast/ovarian cancer samples sequenced for BRCA2, only 43/3245 (1.3%) carried BRCA2 c.9976A>T alone, after excluding individuals with BRCA2c.6275_6276delTT (n=22) or other BRCA1 (n=3) or BRCA2 (n=2) pathogenic mutations. The resultant frequency (1.3%) after removal of co-occurring mutations is lower than the 1.7% and 1.67% frequencies from two control populations for BRCA2 c.9976A>T, but similar to the 1.39% seen in the Exome Aggregation Consortium database. We did not identify increased frequencies of oesophageal, pancreatic or lung cancer in families with just BRCA2 c.9976A>T using person-years at risk analysis. Conclusions It is likely that the previous associations of increased cancer risks due to BRCA2c.9976A>T represent reporting bias and are contributed to because the variant is in LD with BRCA2c.6275_6276delTT. [ABSTRACT FROM AUTHOR]

Published
2015
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207. Improving the uptake of predictive testing and colorectal screening in Lynch syndrome: a regional primary care survey.

Author

Barrow, P., Green, K., Clancy, T., Lalloo, F., Hill, J., and Evans, D.G.

Subjects
HEREDITARY nonpolyposis colorectal cancer, COLON cancer, KAPLAN-Meier estimator, PRIMARY care, FAMILIAL diseases, EARLY detection of cancer
Abstract

Lynch syndrome ( LS) is an autosomal dominant cancer predisposition syndrome with a 60-80% lifetime risk of colorectal cancer. We assessed the uptake of predictive testing and colorectal screening among first-degree relatives ( FDRs) in LS families and explored novel methods for informing and engaging at-risk relatives. Uptake of predictive testing was explored using Kaplan-Meier analysis and engagement with colorectal screening was ascertained. A questionnaire was distributed to 216 general practitioners ( GPs) of registered LS family members to determine their prior experience and opinion of an enhanced role. Of 591, 329 (55.7%) FDRs had undergone predictive testing. Uptake was significantly lower in males ( p = 0.012) and individuals <25 years ( p < 0.001). Mutation carriers were more likely to undergo colorectal screening than untested FDRs (97.2% vs 34.9%; P ≤ 0.0001). Of 216, 63 (29.2%) questionnaires were returned. Most GPs (55/63; 87.3%) were not confident to discuss the details of LS with patients and relatives. The main barriers were lack of knowledge and concerns about confidentiality. Compliance with colorectal screening is excellent following a mutation positive predictive test. Uptake of predictive testing could be substantially improved, particularly among males and younger age groups. GPs are unlikely to actively participate in communication with at-risk relatives without considerable support. [ABSTRACT FROM AUTHOR]

Published
2015
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208. Colonoscopy screening compliance and outcomes in patients with Lynch syndrome.

Author

Newton, K., Green, K., Lalloo, F., Evans, D. G., and Hill, J.

Subjects
HEREDITARY nonpolyposis colorectal cancer, COLONOSCOPY, COLON examination, HEALTH outcome assessment, PATIENT compliance, GASTROENTEROLOGISTS, PATIENTS, SOCIETIES
Abstract

Aim Colonic surveillance reduces the lifetime risk of colorectal cancer in patients with Lynch syndrome (hereditary nonpolyposis colorectal cancer) from 60 to 80% to 10% and confers a 7-year survival advantage. The British Society of Gastroenterologists recommends colonoscopy at least every 2 years from the age of 25. Currently in the UK, genetic diagnosis is made by a regional genetics service, and screening recommendations are made to the referring clinician. The aim of this study was to investigate compliance with and the effectiveness of large bowel surveillance in Lynch syndrome. Method A retrospective longitudinal study of Lynch syndrome mutation carriers on the Regional Familial Colorectal Cancer Registry under and not under screening was conducted. To investigate screening compliance, patients were included if they were alive at the start of the study. Data were gathered on timeliness, quality and outcome of screening. To examine the effectiveness of screening, the cumulative incidence of colorectal cancer was estimated using Kaplan-Meier curves and the screened population compared with patients not being screened. Results A total of 227 Lynch syndrome mutation carriers were under screening at 26 hospitals. We assessed 439 colonoscopies for timeliness, of which 68% were compliant (interval < 27 months). Compliance on the 1 November 2011 was 87%. The cumulative incidence of colorectal cancer to the age of 70 was 25% (95% CI 17-32%) in the surveillance population and 81% (95% CI 78-84%) in 689 mutation-positive patients not being screened ( P < 0.0001). Conclusion Overall, 68% of colonoscopies were on time. The incidence of colorectal cancer was greatly reduced by screening but remained significant. Patients with Lynch syndrome need proactive surveillance management. [ABSTRACT FROM AUTHOR]

Published
2015
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209. Functional characterization of GATA3 mutations causing the hypoparathyroidism-deafness-renal (HDR) dysplasia syndrome: insight into mechanisms of DNA binding by the GATA3 transcription factor

Author

Ali, A., primary, Christie, P. T., additional, Grigorieva, I. V., additional, Harding, B., additional, Van Esch, H., additional, Ahmed, S. F., additional, Bitner-Glindzicz, M., additional, Blind, E., additional, Bloch, C., additional, Christin, P., additional, Clayton, P., additional, Gecz, J., additional, Gilbert-Dussardier, B., additional, Guillen-Navarro, E., additional, Hackett, A., additional, Halac, I., additional, Hendy, G. N., additional, Lalloo, F., additional, Mache, C. J., additional, Mughal, Z., additional, Ong, A. C.M., additional, Rinat, C., additional, Shaw, N., additional, Smithson, S. F., additional, Tolmie, J., additional, Weill, J., additional, Nesbit, M. A., additional, and Thakker, R. V., additional

Published
2006
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214. Average Risks of Breast and Ovarian Cancer Associated with BRCA1 or BRCA2 Mutations Detected in Case Series Unselected for Family History: A Combined Analysis of 22 Studies

Author

Antoniou, A., primary, Pharoah, P.D.P., additional, Narod, S., additional, Risch, H.A., additional, Eyfjord, J.E., additional, Hopper, J.L., additional, Loman, N., additional, Olsson, H., additional, Johannsson, O., additional, Borg, Å., additional, Pasini, B., additional, Radice, P., additional, Manoukian, S., additional, Eccles, D.M., additional, Tang, N., additional, Olah, E., additional, Anton-Culver, H., additional, Warner, E., additional, Lubinski, J., additional, Gronwald, J., additional, Gorski, B., additional, Tulinius, H., additional, Thorlacius, S., additional, Eerola, H., additional, Nevanlinna, H., additional, Syrjäkoski, K., additional, Kallioniemi, O.-P., additional, Thompson, D., additional, Evans, C., additional, Peto, J., additional, Lalloo, F., additional, Evans, D.G., additional, and Easton, D.F., additional

Published
2003
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218. Tumour MLH1 promoter region methylation testing is an effective prescreen for Lynch Syndrome (HNPCC).

Author

Newton, K., Jorgensen, N. M., Wallace, A. J., Buchanan, D. D., Lalloo, F., McMahon, R. F. T., Hill, J., and Evans, D. G.

Subjects
MLH1 gene, CANCER genes, HEREDITARY nonpolyposis colorectal cancer, DISEASE incidence, GENETIC mutation, MEDICAL genetics
Abstract

Background and aims Lynch syndrome (LS) patients have DNA mismatch repair deficiency and up to 80% lifetime risk of colorectal cancer (CRC). Screening of mutation carriers reduces CRC incidence and mortality. Selection for constitutional mutation testing relies on family history (Amsterdam and Bethesda Guidelines) and tumour-derived biomarkers. Initial biomarker analysis uses mismatch repair protein immunohistochemistry and microsatellite instability. Abnormalities in either identify mismatch repair deficiency but do not differentiate sporadic epigenetic defects, due to MLH1 promoter region methylation (13% of CRCs) from LS (4% of CRCs). A diagnostic biomarker capable of making this distinction would be valuable. This study compared two biomarkers in tumours with mismatch repair deficiency; quantification of methylation of the MLH1 promoter region using a novel assay and BRAF c.1799T>A, p.(Val600Glu) mutation status in the identification of constitutional mutations. Methods Tumour DNA was extracted (formalin fixed, paraffin embedded, FFPE tissue) and pyrosequencing used to test for MLH1 promoter methylation and presence of the BRAF c.1799T>A, p.(Val600Glu) mutation 71 CRCs from individuals with pathogenic MLH1 mutations and 73 CRCs with sporadic MLH1 loss. Specificity and sensitivity was compared. Findingss Unmethylated MLH1 promoter: sensitivity 94.4% (95% CI 86.2% to 98.4%), specificity 87.7% (95% CI 77.9% to 94.2%), Wild-type BRAF (codon 600): sensitivity 65.8% (95% CI 53.7% to 76.5%), specificity 98.6% (95% CI 92.4% to 100.0%) for the identification of those with pathogenic MLH1 mutations. Conclusions Quantitative MLH1 promoter region methylation using pyrosequencing is superior to BRAF codon 600 mutation status in identifying constitutional mutations in mismatch repair deficient tumours. [ABSTRACT FROM AUTHOR]

Published
2014
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219. Breast cancer risk assessment in 8,824 women attending a family history evaluation and screening programme.

Author

Evans, D., Ingham, Sarah, Dawe, Sarah, Roberts, L., Lalloo, F., Brentnall, A., Stavrinos, P., and Howell, Anthony

Abstract

Accurate individualized breast cancer risk assessment is essential to provide risk-benefit analysis prior to initiating interventions designed to lower breast cancer risk and start surveillance. We have previously shown that a manual adaptation of Claus tables was as accurate as the Tyrer-Cuzick model and more accurate at predicting breast cancer than the Gail, Claus model and Ford models. Here we reassess the manual model with longer follow up and higher numbers of cancers. Calibration of the manual model was assessed using data from 8,824 women attending the family history evaluation and screening programme in Manchester UK, with a mean follow up of 9.71 years. After exclusion of 40 prevalent cancers, 406 incident breast cancers occurred, and 385.1 were predicted (O/E = 1.05, 95 % CI 0.95-1.16) using the manual model. Predictions were close to that of observed cancers in all risk categories and in all age groups, including women in their forties (O/E = 0.99, 95 % CI 0.83-1.16). Manual risk prediction with use of adjusted Claus tables and curves with modest adjustment for hormonal and reproductive factors was a well-calibrated approach to breast cancer risk estimation in a UK family history clinic. [ABSTRACT FROM AUTHOR]

Published
2014
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221. Guidelines for Follow-Up of Women at High Risk for Inherited Breast Cancer: Consensus Statement from the Biomed 2 Demonstration Programme on Inherited Breast Cancer

Author

Møller, P., primary, Evans, G., additional, Haites, N., additional, Vasen, H., additional, Reis, M. M., additional, Anderson, E., additional, Apold, J., additional, Hodgson, S., additional, Eccles, D., additional, Olsson, H., additional, Stoppa-Lyonnet, D., additional, Chang-Claude, J., additional, Morrison, P. J., additional, Bevilacqua, G., additional, Heimdal, K., additional, Mæhle, L., additional, Lalloo, F., additional, Gregory, H., additional, Preece, P., additional, Borg, Å., additional, Nevin, N. C., additional, Caligo, M., additional, and Steel, C. M., additional

Published
1999
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224. Systematic review of the impact of registration and screening on colorectal cancer incidence and mortality in familial adenomatous polyposis and Lynch syndrome.

Author

Barrow, P., Khan, M., Lalloo, F., Evans, D. G., and Hill, J.

Subjects
SYSTEMATIC reviews, COLON cancer diagnosis, CANCER-related mortality, ADENOMATOUS polyposis coli, LYNCH syndrome II, GASTROENTEROLOGY, MEDICAL registries
Abstract

Background The British Society of Gastroenterology recommends that all familial adenomatous polyposis ( FAP) and Lynch syndrome ( LS) families are screened in the context of a registry. This systematic review was performed to appraise the published evidence for registration and screening in relation to colorectal cancer ( CRC) incidence and mortality. Methods Five electronic databases were searched using a combination of medical subject heading terms and free-text keywords. Titles and abstracts were scrutinized by two independent reviewers. Inclusion criteria were English-language studies describing CRC incidence and/or mortality in patients with FAP or LS, with comparison of either: screened and unscreened patients, or time periods before and after establishment of the registry. Results Of 4668 abstracts identified, 185 full-text articles were selected; 43 studies fulfilled the inclusion criteria. No randomized clinical trial evidence was identified. For FAP, 33 of 33 studies described a significant reduction of CRC incidence and mortality with registration and screening. For LS, nine of ten studies described a reduction of CRC incidence and mortality with registration and screening. Five studies ( FAP, 2; LS, 3) provided evidence for complete prevention of CRC-related deaths during surveillance. Clinical and statistical heterogeneity prevented pooling of data for meta-analysis. Conclusion Studies consistently report that registration and screening result in a reduction of CRC incidence and mortality in patients with FAP and LS (level 2a evidence, grade B recommendation). Funding and managerial support for hereditary CRC registries should be made available. Presented to the Association of Surgeons of Great Britain and Ireland 2013 Congress, Glasgow, UK, May 2013, and to the Annual Meeting of the Association of Coloproctology of Great Britain and Ireland, Liverpool, UK, July 2013; published in abstract form as Br J Surg 2013; 100(Suppl 7): 123-124 and as Colorectal Dis 2013; 15(Suppl 1): 4 [ABSTRACT FROM AUTHOR]

Published
2013
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225. Is multiple SNP testing in BRCA2 and BRCA1 female carriers ready for use in clinical practice? Results from a large Genetic Centre in the UK.

Author

Ingham, SL, Warwick, J, Byers, H, Lalloo, F, Newman, WG, and Evans, DGR

Subjects
SINGLE nucleotide polymorphisms, PROPORTIONAL hazards models, GENETIC mutation, CANCER in women, GENETICS of breast cancer
Abstract

BRCA1 and BRCA2 are major breast cancer susceptibility genes. Nineteen single nucleotide polymorphisms ( SNPs) at 18 loci have been associated with breast cancer. We aimed to determine whether these predict breast cancer incidence in women with BRCA1/ BRCA2 mutations. BRCA1/2 mutation carriers identified through the Manchester genetics centre between 1996 and 2011 were included. Using published odds ratios ( OR) and risk allele frequencies, we calculated an overall breast cancer risk SNP score ( OBRS) for each woman. The relationship between OBRS and age at breast cancer onset was investigated using the Cox proportional hazards model, and predictive ability assessed using Harrell's C concordance statistic. In BRCA1 mutation carriers we found no association between OBRS and age at breast cancer onset: OR for the lowest risk quintile compared to the highest was 1.20 (95% CI 0.82-1.75, Harrell's C = 0.54), but in BRCA2 mutation carriers the association was significant ( OR for the lowest risk quintile relative to the highest was 0.47 (95% CI 0.33-0.69, Harrell's C = 0.59). The 18 validated breast cancer SNPs differentiate breast cancer risks between women with BRCA2 mutations, but not BRCA1. It may now be appropriate to use these SNPs to help women with BRCA2 mutations make maximally informed decisions about management options. [ABSTRACT FROM AUTHOR]

Published
2013
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226. The spectrum of urological malignancy in Lynch syndrome.

Author

Barrow, P., Ingham, S., O'Hara, C., Green, K., McIntyre, I., Lalloo, F., Hill, J., and Evans, D.

Abstract

Urological tumours are the third most frequent malignancy in Lynch syndrome after colonic and endometrial cancer. Upper urinary tract tumours are well recognised in Lynch syndrome, but the association with prostate and bladder cancer is controversial. We determined the incidence and cumulative and relative risks of prostate and bladder cancer in a cohort of Lynch syndrome families. Male Lynch syndrome mutation carriers and their genetically untested male first degree relatives (FDR) were identified from the Manchester Regional Lynch syndrome database (n = 821). Time to the development of urological cancer was identified for each urological site (renal pelvis, ureter, bladder and prostate). Cumulative and relative risks were calculated, with results classified by mutation carrier status and specific causative genetic mutations. Eight prostate cancers were identified, only one occurring before the age of 60. Analysis of person-years at risk of prostate cancer by Lynch syndrome mutation carrier status suggests a correlation between MSH2 mutation carriers and a tenfold increased risk of prostate cancer (RR 10.41; 95 % CI 2.80, 26.65). No such association was found with bladder cancer (RR 1.88; 95 % CI 0.21, 6.79). The association of upper urinary tract tumours with MSH2 and MLH1 mutations was confirmed. We have carried out the largest study of male Lynch syndrome mutation carriers to establish the risks of urological malignancy. A tenfold increased risk of prostate cancer is supported in MSH2 with mutation carriers having roughly double the risk of prostate cancer to FDRs. A trial of PSA testing in MSH2 carriers from 40 to 50 years may be justifiable. [ABSTRACT FROM AUTHOR]

Published
2013
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227. Metachronous colorectal cancer risk in patients with a moderate family history.

Author

Newton, K. F., Green, K., Walsh, S., Lalloo, F., Hill, J., and Evans, D. G. R.

Subjects
COLON cancer patients, COLON cancer risk factors, MEDICAL history taking, LYNCH syndrome II, LONGITUDINAL method, RETROSPECTIVE studies
Abstract

Aim Lifetime risk of a metachronous colorectal cancer (mCRC) is 0.6-3% following sporadic colorectal cancer (CRC) and 15-26% in Lynch syndrome. The lifetime incidence of CRC in individuals with moderate familial risk is 8-17%. Risk of mCRC is unknown. Method A retrospective longitudinal study of the Regional Familial CRC Registry was performed. Patients who had at least one CRC were categorized as follows: moderate risk ( n = 383), Lynch syndrome ( n = 528) and average (population) risk ( n = 409). The Kaplan-Meier estimate (1-KM) and the cumulative incidence function were used to calculate the risk of mCRC. The 1-KM gives the risk for individuals remaining at risk (alive) at a given time point and thus is useful for counselling. The cumulative incidence function gives the risk for the whole population. Results The 1-KM and the cumulative incidence function demonstrated that the risk of mCRC was significantly higher in moderate-risk patients compared with average (population)-risk patients (1-KM, P = 0.008; cumulative incidence function, P = 0.00097). However, the risk of mCRC was higher in patients with Lynch syndrome than in moderate-risk or average (population)-risk patients. The 1-KM in moderate-risk patients was 2.7%, 6.3% and 23.5% at 5, 10 and 20 years, respectively. In average (population)-risk patients, the 1-KM was 1.3%, 3.1% and 7.0% at 5, 10 and 20 years, and the cumulative incidence function was 0.3%, 0.6% and 2.4% at the same time points, respectively. Conclusion These data indicate that the risk of mCRC is significantly higher in patients with a moderate family history of CRC than in those with an average (population) risk. This justifies proactive lifelong surveillance. [ABSTRACT FROM AUTHOR]

Published
2013
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228. Familial Breast Cancer.

Author

Lalloo, F and Evans, D G

Subjects
*GENETICS of breast cancer, *BREAST cancer risk factors, *FAMILIAL diseases, *ALLELES, *BRCA genes, *FAMILY history (Medicine), *CHROMOSOME abnormalities
Abstract

Since the localization and discovery of the first high-risk breast cancer (BC) genes in 1990, there has been a substantial progress in unravelling its familial component. Increasing numbers of women at risk of BC are coming forward requesting advice on their risk and what they can do about it. Three groups of genetic predisposition alleles have so far been identified with high-risk genes conferring 40-85% lifetime risk including BRCA1, BRCA2 and TP53. Moderate risk genes (20-40% risk) including PALB1, BRIP, ATM and CHEK2, and a host of low-risk common alleles identified largely through genome-wide association studies. Currently, only BRCA1, BRCA2 and TP53 are used in clinical practice on a wide scale, although testing of up to 50-100 gene loci may be possible in the future utilizing next-generation technology. [ABSTRACT FROM AUTHOR]

Published
2012
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229. Risk of cancer other than breast or ovarian in individuals with BRCA1 and BRCA2 mutations.

Author

Moran, A., O'Hara, C., Khan, S., Shack, L., Woodward, E., Maher, E., Lalloo, F., and Evans, D.

Abstract

The risks of cancers other than breast and ovarian amongst BRCA1 and BRCA2 mutation carriers are based on relatively few family based studies with the risk of specific cancers tested in population based samples of cancers from founder populations. We assessed risks of 'other cancers' in 268 BRCA1 families and 222 BRCA2 families using a person years at risk analysis from 1975 to 2005. Cancer confirmations were overall higher than in previous family based studies at 64%. There was no overall increase in risk for BRCA1 carriers although oesophagus had a significant increased RR of 2.9 (95% CI 1.1-6.0) and stomach at 2.4 (95% CI 1.2-4.3), these were based mainly on unconfirmed cases. For BRCA2 increased risks for cancers of the pancreas (RR 4.1, 95% CI 1.9-7.8) and prostate (RR 6.3, 95% CI 4.3-9.0) and uveal melanoma (RR 99.4, 95% CI 11.1-359.8) were confirmed. Possible new associations with oesophagus (RR 4.1, 95% CI 1.9-7.8) and stomach (RR 2.7, 95% CI 1.3-4.8) were detected but these findings should be treated with caution due to lower confirmation rates. In contrast to previous research a higher risk of prostate cancer was found in males with mutations in the BRCA2 OCCR region. The present study strengthens the known links between BRCA2 and pancreatic and prostate cancer, but throws further doubt onto any association with BRCA1. New associations with upper gastro-intestinal malignancy need to be treated with caution and confirmed by large prospective studies. [ABSTRACT FROM AUTHOR]

Published
2012
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230. Genotype-phenotype correlation in colorectal polyposis.

Author

Newton, KF, Mallinson, EKL, Bowen, J, Lalloo, F, Clancy, T, Hill, J, and Evans, DGR

Subjects
GENOTYPE-environment interaction, COLON diseases, POLYPS, PHENOTYPES, GENETIC mutation
Abstract

Newton KF, Mallinson EKL, Bowen J, Lalloo F, Clancy T, Hill J, Evans DGR. Genotype-phenotype correlation in colorectal polyposis. Familial adenomatous polyposis (FAP) has been divided into three clinical subtypes: mild, classical and severe. This study aimed to investigate for a correlation between genotype and phenotype. A codon-specific survival difference is unknown. A retrospective longitudinal study of 492 patients on the Manchester Polyposis Registry was conducted. Patients were grouped according to genotypes: 0, unknown mutation; 1, adenomatous polyposis coli ( APC) 0-178 (and 312-412 of exon 9); 2, APC >1550; 3, APC 179-1249; 4, APC 1250-1549; and 5, MutYH. Date of onset of polyposis, incidence of colorectal cancer (CRC), survival and actuarial time to surgery were calculated. Median age of onset of polyposis for genotype 0 was 20.3 years, genotype 1 35.6 years, genotype 2 32.2, genotype 3 15.9 years, and genotype 4 14.8 years (p < 0.0001). Age of onset of CRC was similar between genotypes. Median survival for genotype 0 was 56.6 years, genotype 1 74.9 years, genotype 2 61.0 years, genotype 3 63.0 years, genotype 4 48.1 years, and genotype 5 69.7 years (p = 0.003). This survival difference was also seen when patients who underwent screening and those who did not were analysed separately. Survival in the screened population was 53.9 years in genotype 4 and 72.9 years in genotype 3. Patients with genotype 4 ( APC 1249-1549) have a significantly worse survival despite screening and early prophylactic surgery. This analysis supports a genotype-phenotype correlation. Patients with a mutation APC 1249-1549 develop polyposis at an early age and have a worse survival. Patients with a mutation APC 0-178 or 312-412 develop polyposis later and have an improved survival. This survival difference has not previously been documented. [ABSTRACT FROM AUTHOR]

Published
2012
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231. Uptake of risk-reducing salpingo-oophorectomy in women carrying a BRCA1 or BRCA2 mutation: evidence for lower uptake in women affected by breast cancer and older women.

Author

Sidon, L, Ingham, S, Clancy, T, Clayton, R, Clarke, A, Jones, E A, Lalloo, F, and Evans, D G R

Subjects
BREAST cancer risk factors, OVARIECTOMY, DISEASES in older women, BRCA genes, GENETIC load, OVARIAN cancer
Abstract

Background:Bilateral risk-reducing salpingo-oophorectomy (BRRSO) is the only effective way of reducing mortality from ovarian cancer. This study investigates uptake of BRRSO in 700 BRCA1/2 mutation carriers from Greater Manchester.Methods:Dates of last follow-up and BRRSO were obtained, and the following variables were investigated: ovarian cancer risk/gene, age and breast cancer history. The date of the genetic mutation report was the initiation for Kaplan-Meier analysis.Results:The uptake of BRRSO in BRCA1 mutation carriers was 54.5% (standard error 3.6%) at 5 years post testing compared with 45.5% (standard error 3.2%) in BRCA2 mutation carriers (P=0.045). The 40-59 years category showed the greatest uptake for BRRSO and uptake was significantly lower in the over 60 s (P<0.0001). Of the unaffected BRCA1 mutation carriers, 65% (standard error 5.1%) opted for surgery at 5 years post-testing compared with 41.1% (standard error 5.1%) in affected BRCA1 mutation carriers (P=0.045).Conclusion:The uptake of BRRSO is lower in women previously affected by breast cancer and in older women. As there is no efficient method for early detection of ovarian cancer, uptake should ideally be greater. Counselling should be offered to ensure BRCA1/2 mutation carriers make an informed decision about managing their ovarian cancer risk. [ABSTRACT FROM AUTHOR]

Published
2012
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232. Breast cancer susceptibility variants alter risk in familial ovarian cancer.

Author

Latif, A., McBurney, H., Roberts, S., Lalloo, F., Howell, A., Evans, D., and Newman, W.

Abstract

Recent candidate gene and genome wide association studies have revealed novel loci associated with an increased risk of breast cancer. We evaluated the effect of these breast cancer associated variants on ovarian cancer risk in individuals with familial ovarian cancer both with and without BRCA1 or BRCA2 mutations. A total of 158 unrelated white British women (54 BRCA1/2 mutation positive and 104 BRCA1/2 mutation negative) with familial ovarian cancer were genotyped for FGFR2, TNRC9/TOX3 and CASP8 variants. The p.Asp302His CASP8 variant was associated with reduced ovarian cancer risk in the familial BRCA1/2 mutation negative ovarian cancer cases ( P = 0.016). The synonymous TNRC9/TOX3 (Ser51) variant was present at a significantly lower frequency than in patients with familial BRCA1/2 positive breast cancer ( P = 0.0002). Our results indicate that variants in CASP8 and TNRC9/TOX3 alter the risk of disease in individuals affected with familial ovarian cancer. [ABSTRACT FROM AUTHOR]

Published
2010
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233. The impact of screening and genetic registration on mortality and colorectal cancer incidence in familial adenomatous polyposis.

Author

Mallinson, E. K. L., Newton, K. F., Bowen, J., Lalloo, F., Clancy, T., Hill, J., and Evans, D. G. R.

Subjects
COLON cancer treatment, ADENOMATOUS polyposis coli, MORTALITY, MEDICAL screening, PROGNOSIS, THERAPEUTICS
Abstract

Background Regular colonic surveillance of familial adenomatous polyposis (FAP) patients is necessary to ensure appropriate prophylactic surgery is performed before colorectal cancer (CRC) develops. Polyposis Registries have been established to coordinate screening programmes. The aim of this study was to assess the effect of screening and of the formation of the Registry on survival, incidence of CRC and age at onset of CRC, in FAP patients. Methods Patients on the Manchester Polyposis Registry were categorised according to their mode of presentation; screening or symptomatic, and survival time from birth was calculated for each patient (n=353). The effect of the formation of the Registry was assessed by comparing survival times from birth for patients diagnosed in the 20 years before the establishment of the Registry, to patients diagnosed in the 20 years since the formation of the Registry (n=273). Results This study demonstrated that survival was increased from 57.8 years to 70.4 years (p<0.001) by screening, and from 58.1 years to 69.6 years (p=0.007) following establishment of the Polyposis Registry. The incidence of CRC was reduced from 43.5% to 3.8% by screening, and from 28.7% to 14.0% following establishment of the Polyposis Registry. Although direct causation between improved survival and reduced CRC incidence, and establishment of the Registry cannot be proven, an association has been demonstrated. Colorectal cancer was found to develop, on average, 16 years later in the screening population. Conclusion A regular systematic large bowel screening programme, managed by a Polyposis Registry, significantly improves the prognosis of FAP. [ABSTRACT FROM AUTHOR]

Published
2010
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234. Cumulative lifetime incidence of extracolonic cancers in Lynch syndrome: a report of 121 families with proven mutations.

Author

Barrow, E., Robinson, L., Alduaij, W., Shenton, A., Clancy, T., Lalloo, F., Hill, J., and Evans, D. G.

Subjects
GENETIC research, COLON cancer, GENETIC mutation, DNA repair, IMMUNOHISTOCHEMISTRY
Abstract

Lynch syndrome or hereditary non-polyposis colorectal cancer is caused by mutations of DNA mismatch repair (MMR) genes. The extracolonic tumour spectrum includes endometrial, ovarian, gastric, small bowel, pancreatic, hepatobiliary, brain, and urothelial neoplasms. Families were referred on the basis of clinical criteria. Tumour immunohistochemistry and microsatellite testing were performed. Appropriate patients underwent sequencing of relevant exons of the MMR genes. Proven and obligate mutation carriers and first-degree relatives (FDRs) with a Lynch syndrome spectrum cancer were considered mutation carriers, as were a proportion of untested, unaffected FDRs based on the proportion of unaffected relatives testing positive in each age group. Kaplan–Meier analysis of risk to 70 years was calculated. One hundred and eighty-four Lynch syndrome spectrum extracolonic cancers in 839 proven, obligate, or assumed mutation carriers were analysed. Cumulative risk for females of an extracolonic tumour is 47.4% (95% CI 43.9–50.8). The risk to males is 26.5% (95% CI 22.6–30.4). There was no reduction in gynaecological malignancies due to gynaecological screening (examination, transvaginal ultrasound scan, hysteroscopy and endometrial biopsy). Males have a higher risk of gastric cancer than females (p = 0.0003). Gastric cancer risk in those born after 1935 does not justify surveillance. These penetrance estimates have been corrected for ascertainment bias and are appropriate for those referred to a high-risk clinic. [ABSTRACT FROM AUTHOR]

Published
2009
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236. Colorectal cancer in HNPCC: cumulative lifetime incidence, survival and tumour distribution. A report of 121 families with proven mutations.

Author

Barrow, E, Alduaij, W, Robinson, L, Shenton, A, Clancy, T, Lalloo, F, Hill, J, and Evans, DG

Subjects
COLON cancer, DNA, GENETIC mutation, IMMUNOHISTOCHEMISTRY, CANCER patients
Abstract

Hereditary non-polyposis colorectal cancer (HNPCC) is an autosomal dominant condition caused by inactivating mutations of DNA mismatch repair (MMR) genes. An accurate estimation of colorectal cancer risk for mutation carriers is essential for counselling and rationalizing screening programmes. Families were referred on the basis of clinical criteria. Tumour immunohistochemistry and microsatellite testing were performed. Appropriate patients underwent sequencing of all relevant exons of the MMR genes. Proven and obligate mutation carriers and first-degree relatives (FDRs) with an HNPCC spectrum cancer were considered mutation carriers, as were a proportion of untested, unaffected FDRs based on the proportion of unaffected relatives testing positive in each age group. The cumulative lifetime risk was calculated by Kaplan–Meier analysis. Three hundred and forty-one colorectal cancers in 839 proven, obligate, or assumed mutation carriers were analysed. The cumulative risk to age 70 years for all mutation carriers combined was 50.4% (95% CI 47.8–52.9). The cumulative risk in males was 54.3% (95% CI 50.7–57.8), which was significantly higher than in females (log rank p = 0.02) who had a risk of 46.3% (95% CI 42.8–49.9). These penetrance estimates from HNPCC families attending high-risk clinics have been corrected for ascertainment bias and are appropriate risks for those referred to a high-risk clinic. Current colonoscopic screening guidelines are appropriate. [ABSTRACT FROM AUTHOR]

Published
2008
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237. Phenocopies in BRCA1 and BRCA2 families: evidence for modifier genes and: implications for screening.

Author

Smith, A., Moran, A., Boyd, M. C., Bulman, M., Shenton, A., Smith, L., Iddenden, R., Woodward, E. R., Lalloo, F., Maher, E. R., and Evans, D. G .R.

Subjects
BRCA genes, BREAST cancer, CANCER diagnosis, CANCER in women, DISEASE risk factors, GENETIC polymorphisms
Abstract

Background: The identificationof BRCA1 and BRCA2 mutations in familial breast cancer kindreds allows genetic testing of at-risk relatives. Those who test negative are usually reassured and additional breast cancer surveillance is discontinued. However, we postulated that in high-risk families, such as those seen in clinical genetics centres, the risk of breast cancer might be influenced not only by the BRCA 1/BRCA2 mutation but also by modifier genes. One manifestation of this would be the presence of phenocopies in BRCA 1/BRCA2 kindreds. Methods: 277 families with pathogenic BRCA 1/BRCA2 mutations were reviewed and 28 breast cancer phenocopies identified. The relative risk of breast cancer in those testing negative was assessed using incidence rates from our cancer registry based on local population. Results: Phenocopies constituted up to 24% of tests on women with breast cancer after the identification of the mutation in the proband. The standardised incidence ratio for women who tested negative for the BRCA 1/ BRCA2 family mutation was 5.3 for all relatives, 5.0 for all first-degree relatives (FDRs) and 3.2 (95% confidence interval 2.0 to 4.9) for FDRs in whose family all other cases of breast and ovarian cancer could be explained by the identified mutation. 13 of 107 (12.1%) FDRs with breast cancer and no unexplained family history tested negative. Conclusion: In high-risk families, women who test negative for the familial BRCA 1/BRCA2 mutation have an increased risk of breast cancer consistent with genetic modifiers. In light of this, such women should still be considered for continued surveillance. [ABSTRACT FROM AUTHOR]

Published
2007
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238. Molecular stool screening for colorectal cancer.

Author

Mark, T., Lalloo, F., Evans, D.G.R., and Hill, J.

Subjects
*MEDICAL screening, *COLON cancer, *MOLECULAR genetics, *FECES, *DIAGNOSIS, *ADENOMA, *GENETIC testing
Abstract

Explains that mass screening for colorectal cancer reduces mortality and with recent advances in molecular genetics, molecular stool-based tests have produced promising results. Screening methods based on endoscopic, radiological, and stool-based testing; Recognition of the adenoma-carcinoma sequence; Pathophysiological studies of colonic epithelium.

Published
2004
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239. Constitutional rearrangements of chromosome 22 as a cause of neurofibromatosis 2.

Author

Tsilchorozidou, T., Yovos, J.G., Menko, F.H., Madan, K., Lalloo, F., Smith, P., Malcolmson, A., Dore, J., Wallace, A.J., Evans, D.G.R., De Silva, R., Thomas, H., Tsaligopoulos, M., Vogiatzis, N., Kidd, A., and Brown, A.

Subjects
CHROMOSOMES, NEUROFIBROMATOSIS, ACOUSTIC neuroma, ACOUSTIC tumors, PATHOLOGY, GENETICS
Abstract

Discusses the constitutional rearrangements of chromosome 22 as a cause of neurofibromatosis 2. Description of neurofibromatosis type 2 as an autosomal dominant condition characterized by vestibular schwannomas; Consideration of chromosoal rearrangements; Symptomatic clinical abnormalities.

Published
2004
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240. A new scoring system for the chances of identifying a BRCA1/2 mutation outperforms existing models including BRCAPRO.

Author

Evans, D.G.R., Eccles, D.M., Rahman, N., Young, K., Bulman, M., Amir, E., Shenton, A., Howell, A., and Lalloo, F.

Subjects
GENETIC mutation, MEDICAL genetics, HUMAN genetics, PATHOGENIC microorganisms, DNA, CANCER genetics
Abstract

Explains that a Manchester scoring system for the chances of identifying a BRCA1/2 mutation outperforms existing models including BRCAPRO. Cut-off at 10 points for each gene; More than 10 percent probability of a pathogenic mutation in BRCA1 and BRCA2 individually; Trade-off between sensitivity and specificity; Algorithm may need modifying to include pathological data.

Published
2004
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241. Evaluation of breast cancer risk assessment packages in the family history evaluation and screening programme.

Author

Amir, E., Evans, D.G., Shenton, A., Lalloo, F., Moran, A., Boggis, C., Wilson, M., and Howell, A.

Subjects
BREAST cancer, GENEALOGY, MEDICAL history taking
Abstract

Introduction: Accurate individualised breast cancer risk assessment is essential to provide risk-benefit analysis prior to initiating interventions designed to lower breast cancer risk. Several mathematical models for the estimation of individual breast cancer risk have been proposed. However, no single model integrates family history, hormonal factors, and benign breast disease in a comprehensive fashion. A new model by Tyrer and Cuzick has addressed these deficiencies. Therefore, this study has assessed the goodness of fit and discriminatory value of the Tyrer-Cuzick model against established models namely Gall, Claus, and Ford. Methods: The goodness of fit and discriminatory accuracy of the models was assessed using data from 1933 women attending the Family History Evaluation and Screening Programme, of whom 52 developed cancer. All models were applied to these women over a mean follow up of 5.27 years to estimate risk of breast cancer. Results: The ratios (95% confidence intervals) of expected to observed numbers of breast cancers were 0.48 (0.37 to 0.64) for Gail, 0.56 (0.43 to 0.75) for Claus, 0.49 (0.37 to 0.65) for Ford, and 0.81 (0.62 to 1.08) for Tyrer-Cuzick. The accuracy of the models for individual cases was evaluated using ROC curves. These showed that the area under the curve was 0.735 for Gail, 0.716 for Claus, 0.737 for Ford, and 0.762 for Tyrer-Cuzick. Conclusion: The Tyrer-Cuzick model is the most consistently accurate model for prediction of breast cancer. The Gail, Claus, and Ford models all significantly underestimate risk, although the accuracy of the Claus model may be improved by adjustments for other risk factors. [ABSTRACT FROM AUTHOR]

Published
2003
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242. Birth incidence and prevalence of tumor-prone syndromes: Estimates from a UK family genetic register service

Author

Evans, D.G., Howard, E., Giblin, C., Clancy, T., Spencer, H., Huson, S.M., and Lalloo, F.

Abstract

Autosomal dominantly inherited tumorprone syndromes are a substantial health problem and are amenable to epidemiologic studies by combining cancer surveillance registries with a genetic register GRbased approach. Knowledge of the frequency of the conditions provides a basis for appropriate healthresources allocations. GRs for five tumorprone syndromes were established in the Manchester region of North West England in 1989 and 1990. Mapping birth dates of affected individuals from families onto regional birth rates has allowed an estimate of birth incidence, disease prevalence, and de novo mutation rates. Disease prevalence in order of frequency were for neurofibromatosis type 1 NF1: 1 in 4,560; familial adenomatous polyposis FAP: 1 in 18,976; nevoid basal cell carcinoma Gorlin syndrome GS: 1 in 30,827; neurofibromatosis type 2 NF2 1 in 56,161; and von Hippel Lindau VHL 1 in 91,111. Best estimates for birth incidence were: 1 in 2,699; 1 in 8,619; 1 in 14,963, 1 in 33,000; and 1 in 42,987, respectively. The proportions due to de novo mutation were: 42 NF1; 16 FAP; 26 GS; 56 NF2; and 21 VHL. Estimates for NF1, NF2, FAP, and VHL are in line with previous estimates, and we provide the first estimates of birth incidence and de novo mutation rate for GS. © 2010 WileyLiss, Inc.

Published
2010
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243. Prevalence of BRCA1 and BRCA2 mutations in triple negative breast cancer.

Author

Evans, D. G., Howell, A., Ward, D., Lalloo, F., Jones, J. L., and Eccles, D. M.

Subjects
BREAST cancer patients, DISEASE prevalence, GENETIC mutation, GERM cells, ONCOLOGY
Abstract

The article presents a study which examines the prevalence of breast cancer 1 (BRCA1) and breast cancer 2 (BRCA2) mutations in triple negative breast cancer (TNBC). It indicates that 11 out of 77 TNBCs unselected for age or family history had a germline mutation and one a somatic mutation in BRCA1, and three had BRCA2 mutations. It offers a guide to the probable outcome of testing in an isolated TNBC presenting for the first time in the oncology clinic.

Published
2011
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244. RASSF1A polymorphism in familial breast cancer.

Author

Bergqvist, J., Latif, A., Roberts, S., Hadfield, K., Lalloo, F., Howell, A., Evans, D., and Newman, W.

Abstract

Inactivation or loss of the tumour suppressor Ras associated domain family 1 isoform A ( RASSF1A) allele has been described in breast cancer. Recently, a missense polymorphism predicting p.A331S in RASSF1A was associated with an increased risk of breast cancer and early-onset breast cancer in BRCA1 and BRCA2 mutation carriers. We genotyped p.A331S RASSF1A in 854 independent, familial, white breast cancer patients (645 BRCA mutation negative, 119 BRCA1 and 90 BRCA2 positive) and compared the genotype in 331 healthy women. The RASSF1A p.A331S variant was not more common in the familial breast cancer cases than in the controls ( P = 0.27). Subset analysis demonstrated no association in the BRCA1 ( P = 0.26), BRCA2 ( P = 0.16) or BRCA negative ( P = 0.30) samples. Hence, the RASSF1A p.A331S polymorphism is not confirmed as a significant germline contributor to familial breast cancer susceptibility. [ABSTRACT FROM AUTHOR]

Published
2010
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245. High detection rate for BRCA2 mutations in male breast cancer families from North West England.

Author

Evans, D., Bulman, M., Young, K., Gokhale, D., and Lalloo, F.

Abstract

33 families with a history of male breast cancer aged 60 or less or with a family history of male and female breast cancer were screened for the presence of BRCA2 mutations. 12 pathogenic BRCA2 mutations were identified (36%) in samples from an affected family member. All mutations segregated with disease where it was possible to check. Of the 14 families fulfilling BCLC criteria, 9 (64%) had mutations whilst only 3/16 (19%) of male breast cancer patients with less significant female breast cancer family history having a mutation. All 3 families with ovarian cancer and 3 families with multiple male breast cancer cases had BRCA2 mutations. These data are a further guide to how to prioritise samples for BRCA2 mutation analysis. [ABSTRACT FROM AUTHOR]

Published
2001
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246. Exploring the link between MORF4L1 and risk of breast cancer

Author

Martrat, G., Maxwell, C.A., Tominaga, E., Porta-de-la-Riva, M., Bonifaci, N., Gomez-Baldo, L., Bogliolo, M., Lazaro, C., Blanco, I., Brunet, J., Aguilar, H., Fernandez-Rodriguez, J., Seal, S., Renwick, A., Rahman, N., Kuhl, J., Neveling, K., Schindler, D., Ramirez, M.J., Castella, M., Hernandez, G., Easton, D.F., Peock, S., Cook, M., Oliver, C.T., Frost, D., Platte, R., Evans, D.G., Lalloo, F., Eeles, R., Izatt, L., Chu, C., Davidson, R., Ong, K.R., Cook, J., Douglas, F., Hodgson, S., Brewer, C., Morrison, P.J., Porteous, M., Peterlongo, P., Manoukian, S., Peissel, B., Zaffaroni, D., Roversi, G., Barile, M., Viel, A., Pasini, B., Ottini, L., Putignano, A.L., Savarese, A., Bernard, L., Radice, P., Healey, S., Spurdle, A., Chen, X.Q., Beesley, J., Rookus, M.A., Verhoef, S., Tilanus-Linthorst, M.A., Vreeswijk, M.P., Asperen, C.J., Bodmer, D., Ausems, M.G.E.M., Os, T.A. van, Blok, M.J., Meijers-Heijboer, H.E.J., Hogervorst, F.B.L., Goldgar, D.E., Buys, S., John, E.M., Miron, A., Southey, M., Daly, M.B., Harbst, K., Borg, A., Rantala, J., Barbany-Bustinza, G., Ehrencrona, H., Stenmark-Askmalm, M., Kaufman, B., Laitman, Y., Milgrom, R., Friedman, E., Domchek, S.M., Nathanson, K.L., Rebbeck, T.R., Oskar, T., Couch, F.J., Wang, X.S., Fredericksen, Z., Cuadras, D., Moreno, V., Pientka, F.K., Depping, R., Caldes, T., Osorio, A., Benitez, J., Bueren, J., Heikkinen, T., Nevanlinna, H., Hamann, U., Torres, D., Caligo, M.A., Godwin, A.K., Imyanitov, E.N., Janavicius, R., Sinilnikova, O.M., Stoppa-Lyonnet, D., Mazoyer, S., Verny-Pierre, C., Castera, L., Pauw, A. de, Bignon, Y.J., Uhrhammer, N., Peyrat, J.P., Vennin, P., Ferrer, S.F., Collonge-Rame, M.A., Mortemousque, I., McGuffog, L., Chenevix-Trench, G., Pereira-Smith, O.M., Antoniou, A.C., Ceron, J., Tominaga, K., Surralles, J., Pujana, M.A., EMBRACE, kConFab, HEBON, BCFR, SWE-BRCA, GEMO Study Collaborators, Human Genetics, BMC, Ed., Translational Research Laboratory, Catalan Institute of Oncology-Bellvitge Institute for Biomedical Research, Biomedical Research Centre Network for Epidemiology and Public Health (CIBERESP), Catalan Institute of Oncology, Department of Cellular and Structural Biology, The University of Texas Health Science Center at Houston (UTHealth)-Sam and Ann Barshop Institute for Longevity and Aging Studies, Chemoresistance and Predictive Factors of Tumor Response and Stromal Microenvironment, Institut d'Investigació Biomèdica de Bellvitge [Barcelone] (IDIBELL), Biomarkers and Susceptibility Unit, Department of Genetics and Microbiology, Universitat Autònoma de Barcelona (UAB), Biomedical Research Centre Network for Rare Diseases (CIBERER), Genetic Counseling and Hereditary Cancer Programme, Section of Cancer Genetics, Institute of cancer research, Department of Human Genetics, Julius-Maximilians-Universität Würzburg (JMU), Strangeways Research Laboratory, University of Cambridge [UK] (CAM)-Department of Public Health and Primary Care-Centre for Cancer Genetic Epidemiology, Centre for Cancer Genetic Epidemiology [Cambridge], University of Cambridge [UK] (CAM)-Department of Oncology, Genetic Medicine, St Mary's Hospital-NHS Foundation Trust-Manchester Academic Health Sciences Centre-Central Manchester University Hospitals, Oncogenetics Team, The Institute of Cancer Research and Royal Marsden NHS Foundation Trust, Clinical Genetics Department, Guy's and St Thomas NHS Foundation Trust, Yorkshire Regional Genetics Service, St James's hospital, Ferguson-Smith Centre for Clinical Genetics, West Midlands Regional Genetics Service, Birmingham Women's and Children's NHS Foundation Trust, Sheffield Clinical Genetics Service, Sheffield Children's NHS Foundation Trust, Institute of Human Genetics, Newcastle Upon Tyne Hospitals NHS Foundation Trust, Queen Mary University of London (QMUL)-St George's Hospital, Department of Clinical Genetics, Royal Devon & Exeter Hospital, Northern Ireland Regional Genetics Centre, Belfast City Hospital, South East of Scotland Regional Genetics Service, Western General Hospital, Unit of Molecular Bases of Genetic Risk and Genetic Testing, Department of Preventive and Predictive Medicine-Fondazione IRCCS Istituto Nazionale Tumori (INT), Department of Preventive and Predictive Medicine, IFOM, Istituto FIRC di Oncologia Molecolare (IFOM), Unit of Medical Genetics, Fondazione IRCCS INT, Division of Cancer Prevention and Genetics, Istituto Europeo di Oncologia (IEO), Division of Experimental Oncology 1, Centro di Riferimento Oncologico (CRO), Department of Genetics, Biology and Biochemistry, Università degli studi di Torino = University of Turin (UNITO), Department of Molecular Medicine, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome] (UNIROMA), Università degli Studi di Firenze = University of Florence (UniFI), Fiorgen Foundation for Pharmacogenomics, Division of Medical Oncology, Regina Elena Cancer Institute, Department of Experimental Oncology, IEO, Division of Genetics and Population Health, Queensland Institute of Medical Research, Department of Epidemiology, The Netherlands Cancer Institute, Family Cancer Clinic, Department of Surgical Oncology, Erasmus University Medical Center [Rotterdam] (Erasmus MC)-Family Cancer Clinic, Center for Human and Clinical Genetics, Leiden University Medical Center (LUMC), DNA Diagnostics, Radboud University Medical Center [Nijmegen], Department of Medical Genetics, University Medical Center [Utrecht], Academic Medical Center - Academisch Medisch Centrum [Amsterdam] (AMC), University of Amsterdam [Amsterdam] (UvA)-University of Amsterdam [Amsterdam] (UvA), University Hospital Maastricht, VU Medical Center, Department of Dermatology, University of Utah School of Medicine [Salt Lake City], Department of Internal Medicine, Huntsman Cancer Institute, Cancer Prevention Institute of California, Department of Cancer Biology, Dana-Farber Cancer Institute [Boston], Department of Surgery, Harvard Medical School [Boston] (HMS), Centre for Molecular, Environmental, Genetic and Analytic Epidemiology (MEGA), University of Melbourne-Melbourne School of Population Health, Division of Population Science, Fox Chase Cancer Center, Department of Oncology, Clinical Sciences, Lund University [Lund]-Skåne University Hospital, Karolinska University Hospital [Stockholm], Department of Genetics and Pathology, Uppsala University, Department of Oncology, University Hospital-Hälsouniversitetet Universitetssjukhuset, The Institute of Oncology, Chaim Sheba Medical Center, The Susanne Levy Gertner Oncogenetics Unit, Sackler Faculty of Medicine, Tel Aviv University (TAU), Abramson Cancer Center, Perelman School of Medicine, University of Pennsylvania-University of Pennsylvania, Department of Medicine, Medical Genetics, Abramson Cancer Center-Perelman School of Medicine, Center for Clinical Epidemiology and Biostatistics, Faculty of Medicine, University of Iceland [Reykjavik], Department of Laboratory Medicine and Pathology, Mayo Clinic, Department of Health Sciences Research, Statistical Assessment Service, Department of Physiology, Universität zu Lübeck = University of Lübeck [Lübeck]-Center for Structural and Cell Biology in Medicine, Medical Oncology Branch, Hospital Clínico San Carlos, Human Cancer Genetics Programme, CIBER de Enfermedades Raras (CIBERER)-Spanish National Cancer Research Centre, Division of Hematopoiesis and Gene Therapy, Centro de Investigaciones Energéticas Medioambientales y Tecnológicas [Madrid] (CIEMAT), Department of Obstetrics and Gynecology, Helsinki University Central Hospital, Molecular Genetics of Breast Cancer, German Cancer Research Center - Deutsches Krebsforschungszentrum [Heidelberg] (DKFZ), Instituto de Genética Humana, Pontificia Universidad Javeriana (PUJ), Section of Genetic Oncology, University of Pisa - Università di Pisa, Department of Pathology and Laboratory Medicine, University of Kansas Medical Center [Kansas City, KS, USA], Laboratory of Molecular Oncology, N.N. Petrov Institute of Oncology, Department of Molecular and Regenerative Medicine, Hematology, Oncology and Transfusion, Vilnius University [Vilnius]-Hospital Santariskiu Clinics, Unité Mixte de Génétique Constitutionnelle des Cancers Fréquents, Centre Léon Bérard [Lyon]-Hospices Civils de Lyon (HCL), Centre de Recherche en Cancérologie de Lyon (UNICANCER/CRCL), Centre Léon Bérard [Lyon]-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Service de Génétique Oncologique, Institut Curie [Paris], Unité de génétique et biologie des cancers (U830), Université Paris Descartes - Paris 5 (UPD5)-Institut Curie [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM), Département d'Oncogénétique, Centre Jean Perrin [Clermont-Ferrand] (UNICANCER/CJP), UNICANCER-UNICANCER, Laboratoire d'Oncologie Moléculaire Humaine, Centre Régional de Lutte contre le Cancer Oscar Lambret [Lille] (UNICANCER/Lille), Université de Lille-UNICANCER-Université de Lille-UNICANCER, Consultation d'Oncogénétique, Laboratoire de Génétique Chromosomique, CH Chambéry, Département de Génétique et Reproduction, Centre Hospitalier Régional Universitaire de Besançon (CHRU Besançon)-Hôpital Saint-Jacques, Service de génétique [Tours], Centre Hospitalier Régional Universitaire de Tours (CHRU Tours)-Hôpital Bretonneau, The CIMBA data management is supported by Cancer Research - UK., kConFab, HEBON, BCFR, SWE-BRCA, GEMO Study Collaborators, Autonomous University of Barcelona, Julius-Maximilians-Universität Würzburg [Wurtzbourg, Allemagne] (JMU), Department of Oncology-University of Cambridge [UK] (CAM), University of Turin, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Università degli Studi di Firenze = University of Florence [Firenze] (UNIFI), Departament of Genetics and Pathology, Uppsala University-Rudbeck Laboratory, Tel Aviv University [Tel Aviv], University of Pennsylvania [Philadelphia]-University of Pennsylvania [Philadelphia], Universität zu Lübeck [Lübeck]-Center for Structural and Cell Biology in Medicine, University of Kansas Medical Center [Lawrence], Institut Curie [Paris]-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Paris Descartes - Paris 5 (UPD5), Université Lille Nord de France (COMUE)-UNICANCER-Université Lille Nord de France (COMUE)-UNICANCER, Universiteit Leiden-Universiteit Leiden, Skåne University Hospital-Lund University [Lund], University of Pennsylvania [Philadelphia]-University of Pennsylvania [Philadelphia]-Abramson Cancer Center, Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM), Hôpital Bretonneau-Centre Hospitalier Régional Universitaire de Tours (CHRU Tours), Clinical Genetics, Faculteit der Geneeskunde, Klinische Genetica, RS: GROW - School for Oncology and Reproduction, Genetica & Celbiologie, Easton, Douglas [0000-0003-2444-3247], Antoniou, Antonis [0000-0001-9223-3116], Apollo - University of Cambridge Repository, Martrat, G, Maxwell, C, Tominaga, E, Porta de la Riva, M, Bonifaci, N, Gómez Baldó, L, Bogliolo, M, Lázaro, C, Blanco, I, Brunet, J, Aguilar, H, Fernández Rodríguez, J, Seal, S, Renwick, A, Rahman, N, Kühl, J, Neveling, K, Schindler, D, Ramírez, M, Castellà, M, Hernández, G, Embrace, Easton, D, Peock, S, Cook, M, Oliver, C, Frost, D, Platte, R, Evans, D, Lalloo, F, Eeles, R, Izatt, L, Chu, C, Davidson, R, Ong, K, Cook, J, Douglas, F, Hodgson, S, Brewer, C, Morrison, P, Porteous, M, Peterlongo, P, Manoukian, S, Peissel, B, Zaffaroni, D, Roversi, G, Barile, M, Viel, A, Pasini, B, Ottini, L, Putignano, A, Savarese, A, Bernard, L, Radice, P, Healey, S, Spurdle, A, Chen, X, Beesley, J, Rookus, M, Verhoef, S, Tilanus Linthorst, M, Vreeswijk, M, Asperen, C, Bodmer, D, Ausems, M, van Os, T, Blok, M, Meijers Heijboer, H, Hogervorst, F, Goldgar, D, Buys, S, John, E, Miron, A, Southey, M, Daly, M, Harbst, K, Borg, A, Rantala, J, Barbany Bustinza, G, Ehrencrona, H, Stenmark Askmalm, M, Kaufman, B, Laitman, Y, Milgrom, R, Friedman, E, Domchek, S, Nathanson, K, Rebbeck, T, Johannsson, O, Couch, F, Wang, X, Fredericksen, Z, Cuadras, D, Moreno, V, Pientka, F, Depping, R, Caldés, T, Osorio, A, Benítez, J, Bueren, J, Heikkinen, T, Nevanlinna, H, Hamann, U, Torres, D, Caligo, M, Godwin, A, Imyanitov, E, Janavicius, R, Sinilnikova, O, Stoppa Lyonnet, D, Mazoyer, S, Verny Pierre, C, Castera, L, de Pauw, A, Bignon, Y, Uhrhammer, N, Peyrat, J, Vennin, P, Ferrer, S, Collonge Rame, M, Mortemousque, I, Mcguffog, L, Chenevix Trench, G, Pereira Smith, O, Antoniou, A, Cerón, J, Tominaga, K, Surrallés, J, Pujana, M, Human genetics, CCA - Oncogenesis, Biomedical Research Centre Network for Epidemiology and Public Health ( CIBERESP ), The University of Texas Health Science Center at San Antonio-Sam and Ann Barshop Institute for Longevity and Aging Studies, Institut d'Investigació Biomèdica de Bellvitge [Barcelone] ( IDIBELL ), Biomedical Research Centre Network for Rare Diseases ( CIBERER ), University of Würzburg, University of Cambridge [UK] ( CAM ) -Department of Public Health and Primary Care-Centre for Cancer Genetic Epidemiology, University of Cambridge [UK] ( CAM ) -Department of Oncology, Birmingham Women's Hospital Healthcare NHS Trust, Sheffield Children's Hospital, Newcastle Upon Tyne Hospitals NHS Trust, Queen Mary University of London ( QMUL ) -St George's Hospital, IFOM, Istituto FIRC di Oncologia Molecolare ( IFOM ), Università degli Studi di Roma 'La Sapienza' [Rome], University of Florence, Erasmus MC-Daniel den Hoed Cancer Center-Family Cancer Clinic, University Medical Center Utrecht, Academic Medical Center [Amsterdam] ( AMC ), University of Amsterdam [Amsterdam] ( UvA ) -University of Amsterdam [Amsterdam] ( UvA ), Harvard Medical School [Boston] ( HMS ), Centre for Molecular, Environmental, Genetic and Analytic Epidemiology ( MEGA ), University of Pennsylvania School of Medicine, University of Pennsylvania School of Medicine-Abramson Cancer Center, Centro de Investigaciones Energéticas, Deutsches Krebsforschungszentrum ( DKFZ ), Pontificia Universidad Javeriana, University of Pisa [Pisa], University of Kansas Medical Center, Centre Léon Bérard [Lyon]-Hospices Civils de Lyon ( HCL ), Centre de Recherche en Cancérologie de Lyon ( CRCL ), Centre Léon Bérard [Lyon]-Université Claude Bernard Lyon 1 ( UCBL ), Université de Lyon-Université de Lyon-Institut National de la Santé et de la Recherche Médicale ( INSERM ) -Centre National de la Recherche Scientifique ( CNRS ), INSTITUT CURIE, Unité de génétique et biologie des cancers ( U830 ), Université Paris Descartes - Paris 5 ( UPD5 ) -Institut Curie-Institut National de la Santé et de la Recherche Médicale ( INSERM ), CRLCC Jean Perrin, CRLCC Oscar Lambret, Centre Hospitalier Régional Universitaire [Besançon] ( CHRU Besançon ) -Hôpital Saint-Jacques, Hôpital Bretonneau-CHRU Tours, and Universitat de Barcelona

Subjects
DNA Repair, Genes, BRCA2, RAD51, Genes, BRCA1, Germ-Cell, Helicase Brip1, medicine.disease_cause, [ SDV.CAN ] Life Sciences [q-bio]/Cancer, Mice, 0302 clinical medicine, Breast cancer, Fanconi anemia, Risk Factors, Replication Protein A, Teknik och teknologier, Homologous Recombination, skin and connective tissue diseases, C-Elegans, Genetics, Medicine(all), ddc:616, 0303 health sciences, Mutation, Fanconi Anemia Complementation Group D2 Protein, Nuclear Proteins, Anèmia aplàstica, 3. Good health, 030220 oncology & carcinogenesis, Chromodomain Protein, Engineering and Technology, Female, RNA Interference, Fanconi Anemia Complementation Group N Protein, Aplastic anemia, Research Article, BRCA2 Mutation Carrier, DNA repair, PALB2, Breast Neoplasms, [SDV.CAN]Life Sciences [q-bio]/Cancer, Biology, Cell Line, Càncer de mama, Genomic disorders and inherited multi-system disorders [IGMD 3], 03 medical and health sciences, SDG 3 - Good Health and Well-being, [SDV.CAN] Life Sciences [q-bio]/Cancer, Two-Hybrid System Techniques, medicine, Genetic predisposition, Animals, Humans, Genetic Predisposition to Disease, Caenorhabditis elegans, Gene, 030304 developmental biology, Phenocopy, Caenorhabditis-Elegan, Tumor Suppressor Proteins, medicine.disease, BRCA1, BRCA2, Pancreatic-Cancer, Fanconi Anemia, Genes, Cancer and Oncology, Fanconi-Anemia, Cancer research, Rad51 Recombinase, Susceptibility Gene, DNA Damage, Transcription Factors
Abstract

Introduction Proteins encoded by Fanconi anemia (FA) and/or breast cancer (BrCa) susceptibility genes cooperate in a common DNA damage repair signaling pathway. To gain deeper insight into this pathway and its influence on cancer risk, we searched for novel components through protein physical interaction screens. Methods Protein physical interactions were screened using the yeast two-hybrid system. Co-affinity purifications and endogenous co-immunoprecipitation assays were performed to corroborate interactions. Biochemical and functional assays in human, mouse and Caenorhabditis elegans models were carried out to characterize pathway components. Thirteen FANCD2-monoubiquitinylation-positive FA cell lines excluded for genetic defects in the downstream pathway components and 300 familial BrCa patients negative for BRCA1/2 mutations were analyzed for genetic mutations. Common genetic variants were genotyped in 9,573 BRCA1/2 mutation carriers for associations with BrCa risk. Results A previously identified co-purifying protein with PALB2 was identified, MRG15 (MORF4L1 gene). Results in human, mouse and C. elegans models delineate molecular and functional relationships with BRCA2, PALB2, RAD51 and RPA1 that suggest a role for MRG15 in the repair of DNA double-strand breaks. Mrg15-deficient murine embryonic fibroblasts showed moderate sensitivity to γ-irradiation relative to controls and reduced formation of Rad51 nuclear foci. Examination of mutants of MRG15 and BRCA2 C. elegans orthologs revealed phenocopy by accumulation of RPA-1 (human RPA1) nuclear foci and aberrant chromosomal compactions in meiotic cells. However, no alterations or mutations were identified for MRG15/MORF4L1 in unclassified FA patients and BrCa familial cases. Finally, no significant associations between common MORF4L1 variants and BrCa risk for BRCA1 or BRCA2 mutation carriers were identified: rs7164529, Ptrend = 0.45 and 0.05, P2df = 0.51 and 0.14, respectively; and rs10519219, Ptrend = 0.92 and 0.72, P2df = 0.76 and 0.07, respectively. Conclusions While the present study expands on the role of MRG15 in the control of genomic stability, weak associations cannot be ruled out for potential low-penetrance variants at MORF4L1 and BrCa risk among BRCA2 mutation carriers.

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247. High detection rate for BRCA2mutations in male breast cancer families from North West England

Author

Evans, D., Bulman, M., Young, K., Gokhale, D., and Lalloo, F.

Abstract

33 families with a history of male breast cancer aged 60 or less or with a family history of male and female breast cancer were screened for the presence of BRCA2mutations. 12 pathogenic BRCA2mutations were identified (36%) in samples from an affected family member. All mutations segregated with disease where it was possible to check. Of the 14 families fulfilling BCLC criteria, 9 (64%) had mutations whilst only 3/16 (19%) of male breast cancer patients with less significant female breast cancer family history having a mutation. All 3 families with ovarian cancer and 3 families with multiple male breast cancer cases had BRCA2mutations. These data are a further guide to how to prioritise samples for BRCA2mutation analysis.

Published
2001
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