Genetic testing for Lynch syndrome in the province of Ontario

BACKGROUND

In November 2001, genetic testing for Lynch syndrome (LS) was introduced by the Ministry of Health and Long-Term Care (MOH) in Ontario for individuals at high risk for LS cancers according to either tumor immunohistochemistry staining or their family history. This article describes the outcomes of the program and makes recommendations for improving it and informing other public health care programs.

METHODS

Subjects were referred for molecular testing of the mismatch repair (MMR) genes MutL homolog 1, MutS homolog 2, and MutS homolog 6 if they met 1 of 7 MOH criteria. Testing was conducted from January 2001 to March 2015 at the Molecular Diagnostic Laboratory of Mount Sinai Hospital in Toronto.

RESULTS

A total of 1452 subjects were tested. Of the 662 subjects referred for testing because their tumor was immunodeficient for 1 or more of the MMR genes, 251 (37.9%) carried a germline mutation. In addition, 597 subjects were tested for a known family mutation, and 298 (49.9%) were positive; 189 of these 298 subjects (63.4%) were affected with cancer at the time of testing. An additional 193 subjects were referred because of a family history of LS, and 34 of these (17.6%) had a mutation identified.

CONCLUSIONS

These results indicate that the provincial criteria are useful in identifying LS carriers after an MMR-deficient tumor is identified. Placing greater emphasis on testing unaffected relatives in families with a known mutation may identify more unaffected carriers and facilitate primary prevention in those individuals. Cancer 2016;122:1672-9. © 2016 American Cancer Society.

Abstract A34: BRCA1 and BRCA2 mutation spectrum across 5, 509 high-risk individuals identifies pathogenic variants associated with ethnicity, age of diagnosis, and type of cancer

Hereditary Breast and Ovarian Cancer Sydrome (HBOC) accounts for approximately 5-10% of breast and ovarian cancer cases and germline mutations of the BRCA1 and BRCA2 genes confer substantially increased risk. However, the risk of developing cancer, the type of cancer and the associated age at diagnosis vary depending on the type of mutation carried and the individual's ethnic background and gender. Screening of BRCA1 and BRCA2 mutations was conducted on 5, 512 high-risk individuals with a prior probability of carrying a pathogenic mutation (>10% chance) from the Advanced Molecular Diagnostics Laboratory (AMDL) (Mount Sinai Hospital, Toronto). Information on age, type of cancer diagnosed and age at diagnosis, ethnicity and family history were collected. Cumulative incidence competing risk and Fine-Gray proportional hazard regression analyses were generated to determine factors associated with earlier diagnosis of cancer. Among 5,029 women and 480 men who underwent testing, a total of 845 unique variants were identified of which, 289 (34.2%) are pathogenic. There were 603 female mutation carriers, of these, 303 were affected with breast or ovarian cancer (50%), 16 with another cancer (2.25%) and 284 were unaffected (47.1%). We also identified 20 different ethnic groups presenting with at least 3 unique variants. Six ethnic groups carried at least one variant associated with an earlier diagnosis of cancer and differential breast or ovarian cancer incidence. For instance, among the Ashkenazi Jewish cohort, the c.68_69del variant was associated with significantly earlier age at diagnosis for ovarian cancer incidence (Gray's test = 40.6; Fine-Gray HR = 1.12, 95% CI = 1.05 – 1.31). By screening a diverse cohort of high-risk individuals for BRCA1 and BRCA2 mutations, we identified pathogenic variants associated with an earlier age of diagnosis and differential incidence of breast or ovarian cancer among unique ethnic groups.

Citation Format: Andrew H. Girgis, Marina Wang, Alexa Fine Kathleen-Rose ZakoorSam Khalouei, George Charames, Jordan Lerner-Ellis. BRCA1 and BRCA2 mutation spectrum across 5, 509 high-risk individuals identifies pathogenic variants associated with ethnicity, age of diagnosis, and type of cancer. [abstract]. In: Proceedings of the AACR Special Conference on Advances in Breast Cancer Research; Oct 17-20, 2015; Bellevue, WA. Philadelphia (PA): AACR; Mol Cancer Res 2016;14(2_Suppl):Abstract nr A34.

Abstract B09: DNA polymerase mutations trigger rapid onset of ultra-hypermutant malignant brain tumors in children with biallelic mismatch repair deficiency

Background: Biallelic Mismatch Repair Deficiency (bMMRD) is a childhood cancer predisposition syndrome caused by germline mutations in MSH2, MSH6, MLH1, and PMS2. The leading cause of death is malignant brain tumors. The genomic landscape and secondary somatic mutations of bMMRD brain tumors are unknown.

Methods: We analyzed 27 cancers and corresponding normal tissues from bMMRD patients using genome, exome sequencing and SNP-arrays. Additionally, we performed sequential sequencing from five primary and recurrent tumor pairs.

Results: BMMRD malignant brain tumors harbored massive numbers of substitution mutations (>250/Mb), greater than all childhood and most adult cancers (>7,000 analyzed). These cancers lacked copy number alterations (p<0.01) and microsatellite instability as seen in sporadic glioblastoma and adult deficient MMR cancers respectively. All ultra-hypermutated bMMRD brain cancers acquired early and conserved somatic mutations in DNA polymerases ε or δ. We examined a panel of eight genes involved in brain tumor pathogenesis (TP53, EGFR,NF1, RB1, ATRX, PDGFRA, BRAF, ACVR1) and found that 80% of ultra-hypermutant tumors carried a mutation in five or more of these genes, with 70% of the mutations fitting the bMMRD/POL signature. Sequential tumor analysis revealed that brain tumors acquired over 20,000 mutations in less than 6 months during malignant transformation. However, recurrent glioblastomas did not display a higher mutation load than ultra-hypermutant primary tumors with a polymerase mutation.

Conclusions/Significance: Early-onset brain tumors from bMMRD patients have a unique mechanism of malignant progression through secondary mutations in DNA polymerases. During transformation, brain tumors quickly reach a threshold of mutations developed in a rapid burst once a mutation in a DNA polymerase is acquired. The high mutation load and threshold of bMMRD cancers may be its Achilles' heel, exploitable for diagnosis and therapeutic intervention.

Note: This abstract was not presented at the conference.

Citation Format: Adam Shlien, Brittany B. Campbell, Richard de Borja, Ludmil B. Alexandrov, Daniele Merico, David Wedge, Peter Van Loo, Patrick S. Tarpey, Paul Coupland, Aaron Pollett, Tatiana Lipman, Abolfazl Heidari, Shriya Deshmukh, Moritz Gerstung, Diana Merino, Manasa Ramakrishna, Marc Remke, Roland Arnold, Gagan B. Panigrahi, Samina Afzal, Valerie Larouche, Harriet Druker, Jordan Lerner-Ellis, Matthew Mistry, Rina Dvir, Ronald Grant, Ronit Elhasid, Roula Farah, Glenn P. Taylor, Paul C. Nathan, Sarah Alexander, Shay Ben-Shachar, Nada Jabado, Steven Gallinger, Shlohmi Constantini, Peter Dirks, Annie Huang, Steven W. Scherer, Richard G. Grundy, Carol Durno, Melyssa Aronson, M Stephen Meyn, Michael D. Taylor, Zachary F. Pursell, Christopher E. Pearson, David Malkin, P Andrew Futreal, Cynthia Hawkins, Eric Bouffet, Michael D. Taylor, Peter J. Campbell, Uri Tabori. DNA polymerase mutations trigger rapid onset of ultra-hypermutant malignant brain tumors in children with biallelic mismatch repair deficiency. [abstract]. In: Proceedings of the AACR Special Conference: Advances in Brain Cancer Research; May 27-30, 2015; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2015;75(23 Suppl):Abstract nr B09.

Genetic risk assessment and prevention: the role of genetic testing panels in breast cancer

Multigene panel tests are being increasingly used for the genetic assessment of women with an apparent predisposition to breast cancer. Here, we review all studies reporting results from individuals who have undergone multigene panel testing for hereditary breast cancer. Across all gene panel studies, the prevalence of pathogenic mutations was highest in BRCA1 (5.3%) and BRCA2 (3.6%) and was lowest in PTEN (0.1%), CDH1 (0.1%) and STK11 (0.01%). After BRCA1/2, the prevalence of pathogenic mutations was highest in CHEK2 (1.3%), PALB2 (0.9%) and ATM (0.8%). The prevalence of variants of unknown significance was highest in ATM (9.6%). Based on the prevalence and penetrance of pathogenic mutations and the prevalence of variants of unknown significance, it is our interpretation that BRCA1, BRCA2, PALB2 and CHEK2 are the best candidates for inclusion in a clinical multigene breast cancer panel.

Genetic testing for BRCA1 and BRCA2 in the Province of Ontario

In 2001, genetic testing for BRCA1 and BRCA2 was introduced in Ontario, for women at high-risk of breast or ovarian cancer. To date over 30,000 individuals have been tested throughout Ontario. Testing was offered to all Ontario residents who were eligible under any of 13 criteria. We report the results of tests conducted at Mount Sinai Hospital from 2007 to 2014. A total of 4726 individuals were tested, 764 (16.2%) were found to carry a pathogenic variant (mutation). Among 3684 women and men who underwent testing without a known familial BRCA mutation, 331 (9.0%) were found to carry a mutation. Among 1042 women and men tested for a known family mutation, 433 (41.6%) were positive. There were 603 female mutation carriers, of these, 303 were affected with breast or ovarian cancer (50%) and 16 with another cancer (2.3%). Of 284 unaffected female carriers, 242 (85%) were tested for a known family mutation and 42 (15%) were the first person in the family to be tested. By placing greater emphasis on recruiting unaffected female relatives of known mutation carriers for testing, greater than one-half of newly identified carriers will be unaffected.

Is it time to offer BRCA1 and BRCA2 testing to all Jewish women?

It was 2007 when Women’s College Hospital first began to test for BRCA1 and BRCA2 mutations among all Jewish women in Ontario [...]

Abstract B113: Prevalence of germline BRCA and mismatch repair (MMR) gene mutations in pancreatic cancer

Background: Germline mutations of BRCA1, BRCA2, MLH1, MSH2, and MSH6 are known to increase risk of pancreatic cancer. However, the prevalence of pathogenic germline mutations of these genes among pancreatic cancer patients is unknown. Accurately characterizing the frequencies of mutations of these genes will inform patient selection for future gene discovery studies and, clinically, foster screening strategies and tailored treatments.

Objective: To determine the prevalence of pathogenic germline mutations of BRCA1, BRCA2, MLH1, MSH2, and MSH6 in a cohort of pancreatic cancer patients, and to determine the association between mutation carrier status and personal and family history of cancer.

Methods: The Ontario Pancreas Cancer Study (OPCS) enrolls all consenting participants with a diagnosis of pancreatic cancer into a province-wide electronic pathology database. A cross-sectional sample of 300 patients from 715 OPCS probands enrolled between April 2003 and August 2012 were randomly selected from three strata based on a family history of pancreatic, breast, and ovarian cancer. Targeted next-generation sequencing was successfully performed on germline DNA from 291 of the 300 selected probands. Mutations were classified as benign, of unknown significance, or pathogenic by literature and database review. Pathogenic mutations were confirmed with Sanger sequencing. Prevalence estimates representing the whole OPCS were estimated using the Horvitz-Thompson estimator. Univariate analysis determined association between carrier status and clinical covariates, and regression analysis for overall survival.

Results: A total of 7 pathogenic germline mutations were identified: 1 BRCA1, 2 BRCA2, 1 MLH1, 2 MSH2, and 1 MSH6. The estimated prevalence of pathogenic mutations in BRCA1 and BRCA2 among probands in this OPCS series was 1.1% (95% confidence interval: 0.1-2.0%); in the mismatch repair genes MLH1, MSH2, and MSH6 it was 1.5% (0.3-2.6%). Both a personal history of colorectal cancer and a first-degree relative with colorectal cancer, breast cancer, or melanoma were significantly associated (p<0.001 and p<0.01, respectively) with MMR mutations. There were no significant differences in tumor location within the pancreas (head/uncinate versus body/tail), clinical nodal status, rates of resection, age at diagnosis, BMI, history of smoking, history of pancreatitis, family history of pancreatic cancer, family history of colorectal cancer, or differences in survival between the MMR or sporadic cohorts.

Conclusion: This study is the first to quantify population-based prevalences of germline mutations of BRCA1, BRCA2, MLH1, MSH2, and MSH6 in pancreatic cancer. Surprisingly, the prevalence of pathogenic germline mutations of the MMR genes in pancreatic cancer is higher than expected, and is comparable to that of BRCA1 and BRCA2. The prevalence of the MMR germline mutations is also comparable to the prevalence of MMR germline mutations in colorectal cancer cohorts. Relatives who carry MMR gene mutations can benefit from tailored cancer prevention strategies; thus mutational analysis of MLH1, MSH2, and MSH6 should be included in molecular genetic testing and counseling strategies for pancreatic cancer patients, especially those with a family history of malignancy. Translational studies will follow to determine if stratifying pancreatic cancer risk by familial susceptibility genes, as in colorectal cancer, fosters tailored and cost-effective primary and secondary prevention strategies for carriers. Moreover, unique chemotherapy sensitivity and resistance patterns would be expected for MMR-associated pancreatic cancer, as is emerging for BRCA-associated pancreatic cancer.

Citation Format: Iris Selander, Robert Grant, Ashton Connor, Shamini Selvarajah, Ayelet Borgida, Laurent Briollais, Jordan Lerner-Ellis, Spring Holter, Steven Gallinger. Prevalence of germline BRCA and mismatch repair (MMR) gene mutations in pancreatic cancer. [abstract]. In: Proceedings of the AACR Special Conference on Pancreatic Cancer: Innovations in Research and Treatment; May 18-21, 2014; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2015;75(13 Suppl):Abstract nr B113.

Canadian Open Genetics Repository (COGR): a unified clinical genomics database as a community resource for standardising and sharing genetic interpretations

Background

The Canadian Open Genetics Repository is a collaborative effort for the collection, storage, sharing and robust analysis of variants reported by medical diagnostics laboratories across Canada. As clinical laboratories adopt modern genomics technologies, the need for this type of collaborative framework is increasingly important.

Methods

A survey to assess existing protocols for variant classification and reporting was delivered to clinical genetics laboratories across Canada. Based on feedback from this survey, a variant assessment tool was made available to all laboratories. Each participating laboratory was provided with an instance of GeneInsight, a software featuring versioning and approval processes for variant assessments and interpretations and allowing for variant data to be shared between instances. Guidelines were established for sharing data among clinical laboratories and in the final outreach phase, data will be made readily available to patient advocacy groups for general use.

Results

The survey demonstrated the need for improved standardisation and data sharing across the country. A variant assessment template was made available to the community to aid with standardisation. Instances of the GeneInsight tool were provided to clinical diagnostic laboratories across Canada for the purpose of uploading, transferring, accessing and sharing variant data.

Conclusions

As an ongoing endeavour and a permanent resource, the Canadian Open Genetics Repository aims to serve as a focal point for the collaboration of Canadian laboratories with other countries in the development of tools that take full advantage of laboratory data in diagnosing, managing and treating genetic diseases.

Combined hereditary and somatic mutations of replication error repair genes result in rapid onset of ultra-hypermutated cancers

DNA replication-associated mutations are repaired by two components: polymerase proofreading and mismatch repair. The mutation consequences of disruption to both repair components in humans are not well studied. We sequenced cancer genomes from children with inherited biallelic mismatch repair deficiency (bMMRD). High-grade bMMRD brain tumors exhibited massive numbers of substitution mutations (>250/Mb), which was greater than all childhood and most cancers (>7,000 analyzed). All ultra-hypermutated bMMRD cancers acquired early somatic driver mutations in DNA polymerase ɛ or δ. The ensuing mutation signatures and numbers are unique and diagnostic of childhood germ-line bMMRD (P < 10(-13)). Sequential tumor biopsy analysis revealed that bMMRD/polymerase-mutant cancers rapidly amass an excess of simultaneous mutations (∼600 mutations/cell division), reaching but not exceeding ∼20,000 exonic mutations in <6 months. This implies a threshold compatible with cancer-cell survival. We suggest a new mechanism of cancer progression in which mutations develop in a rapid burst after ablation of replication repair.

Prevalence of germline mutations in cancer predisposition genes in patients with pancreatic cancer

BACKGROUND & AIMS

We investigated the prevalence of germline mutations in APC, ATM, BRCA1, BRCA2, CDKN2A, MLH1, MSH2, MSH6, PALB2, PMS2, PRSS1, STK11, and TP53 in patients with pancreatic cancer.

METHODS

The Ontario Pancreas Cancer Study enrolls consenting participants with pancreatic cancer from a province-wide electronic pathology database; 708 probands were enrolled from April 2003 through August 2012. To improve the precision of BRCA2 prevalence estimates, 290 probands were selected from 3 strata, based on family history of breast and/or ovarian cancer, pancreatic cancer, or neither. Germline DNA was analyzed by next-generation sequencing using a custom multiple-gene panel. Mutation prevalence estimates were calculated from the sample for the entire cohort.

RESULTS

Eleven pathogenic mutations were identified: 3 in ATM, 1 in BRCA1, 2 in BRCA2, 1 in MLH1, 2 in MSH2, 1 in MSH6, and 1 in TP53. The prevalence of mutations in all 13 genes was 3.8% (95% confidence interval, 2.1%-5.6%). Carrier status was associated significantly with breast cancer in the proband or first-degree relative (P < .01), and with colorectal cancer in the proband or first-degree relative (P < .01), but not family history of pancreatic cancer, age at diagnosis, or stage at diagnosis. Of patients with a personal or family history of breast and colorectal cancer, 10.7% (95% confidence interval, 4.4%-17.0%) and 11.1% (95% confidence interval, 3.0%-19.1%) carried pathogenic mutations, respectively.

CONCLUSIONS

A small but clinically important proportion of pancreatic cancer is associated with mutations in known predisposition genes. The heterogeneity of mutations identified in this study shows the value of using a multiple-gene panel in pancreatic cancer.

Abstract 35: Novel genetic and clinical determinants of Constitutional Mismatch Repair Deficiency syndrome: Report from the CMMRD consortium

Purpose: Constitutional mismatch repair deficiency (CMMRD) is a devastating cancer predisposition syndrome affecting children born with two mutated alleles in one of four mismatch repair genes. Data regarding clinical manifestations, molecular screening tools and management are limited.

Patients and methods: We established an international CMMRD consortium and collected comprehensive clinical and genetic data. Molecular diagnosis of tumor and germline biospecimens were performed. A surveillance protocol was developed and implemented.

Results: Overall, 27/30 (90%) of children with CMMR-D developed 48 different tumors. While childhood CMMR-D related tumors were observed in all families, Lynch related tumors in adults were observed in only 2/17 families (p&lt;0.0001). All children with CMMR-D had cafe-au-lait spots and 14/17 families were consanguineous.

We detected 17 different germline MMR mutations. These included mutations in PMS2(8), MSH6(7) and MLH1(2). Importantly 7/17 mutations were previously unreported. Brain tumors were the most common cancers reported (44%) followed by gastrointestinal (33%) and hematological malignancies (17%). Importantly, 14 (29%) of these were low grade and respectable cancers. Tumor immunohistochemistry was 100% sensitive and specific in diagnosing MMR deficiency of the corresponding gene while microsatellite instability was neither sensitive nor specific as a diagnostic tool (p&lt;0.0001). Furthermore, screening of normal tissue by immunohistochemistry correlated with genetic confirmation of CMMR-D. The surveillance protocol detected 43 lesions which included asymptomatic malignant gliomas and gastrointestinal carcinomas. All tumors were amenable to complete resection and all patients undergoing surveillance are alive.

Conclusion: CMMR-D is a highly penetrant syndrome where family history of cancer may not be contributory. Screening tumors and normal tissues using immunohistochemistry for abnormal expression of MMR gene products helps in diagnosis and early implementation of surveillance for these children.

Citation Format: Doua Bakry, Brittany Campbell, Carol Durno, Melyssa Aronson, Qasim Alharbi, Musa Alharbi, Shlomi Constantini, Aaron Pollett, Shay Ben-Shachar, Jordan Lerner-Ellis, Steven Gallinger, Ronit Elhasid, Roula Farah, Ibrahim Qaddoumi, Matthew Mistry, Ramyar Lily, Steve Keiles, Rina Dvir, Derek Stephens, David Malkin, Eric Bouffet, Cynthia Hawkins, Uri Tabori. Novel genetic and clinical determinants of Constitutional Mismatch Repair Deficiency syndrome: Report from the CMMRD consortium. [abstract]. In: Proceedings of the AACR Special Conference: Cancer Susceptibility and Cancer Susceptibility Syndromes; Jan 29-Feb 1, 2014; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(23 Suppl):Abstract nr 35. doi:10.1158/1538-7445.CANSUSC14-35

Performance characteristics of screening strategies for Lynch syndrome in unselected women with newly diagnosed endometrial cancer who have undergone universal germline mutation testing

BACKGROUND

Immunohistochemistry (IHC) for mismatch repair protein expression, microsatellite instability (MSI) testing, tumor morphology, and family history were compared to determine which screening strategy is superior in identifying Lynch syndrome (LS) in unselected women with newly diagnosed endometrial cancer (EC) who have undergone universal germline mutation testing.

METHODS

A prospective cohort study was performed that recruited women with newly diagnosed EC. Participants completed a family history assessment with molecular characterization of EC with IHC and MSI testing and EC assessment for LS-associated morphologic features and underwent universal germline mutation testing for mutations in the mismatch repair pathway. The sensitivity, specificity, and positive and negative predictive values were compared between the screening strategies.

RESULTS

A total of 118 (65%) of 182 consecutive women with EC participated. Of these, 34 women (29%) had tumors that were IHC deficient and 27 women (23%; N = 117) had tumors that were positive for MSI. Twenty women (17%) met IHC criteria and 16 women (15.2%, N = 105) met family history criteria based on Ontario Ministry of Health Criteria for the genetic assessment for LS. Seven women (5.9%) had a germline mutation: 4 had MLH1 (mutL homolog 1), 2 had MSH6 (mutS homolog 6), and 1 had MSH2 (mutS homolog 2). IHC in women aged <60 years had the best performance characteristics, with a sensitivity of 100%, a specificity of 86.1%, a positive predictive value of 58.3%, and a negative predictive value of 100%. Family history and tumor morphology both had the lowest sensitivity at 71.4%. Overall tumor morphology had the poorest performance, with a specificity of 42.1%.

CONCLUSIONS

The mutation rate of 5.9% was higher than expected in this unselected cohort of women with EC. The superior screening strategy to identify women presenting with EC is universal IHC screening in women aged <60 years.

Genetic and clinical determinants of constitutional mismatch repair deficiency syndrome: report from the constitutional mismatch repair deficiency consortium

BACKGROUND

Constitutional mismatch repair deficiency (CMMRD) is a devastating cancer predisposition syndrome for which data regarding clinical manifestations, molecular screening tools and management are limited.

METHODS

We established an international CMMRD consortium and collected comprehensive clinical and genetic data. Molecular diagnosis of tumour and germline biospecimens was performed. A surveillance protocol was developed and implemented.

RESULTS

Overall, 22/23 (96%) of children with CMMRD developed 40 different tumours. While childhood CMMRD related tumours were observed in all families, Lynch related tumours in adults were observed in only 2/14 families (p=0.0007). All children with CMMRD had café-au-lait spots and 11/14 came from consanguineous families. Brain tumours were the most common cancers reported (48%) followed by gastrointestinal (32%) and haematological malignancies (15%). Importantly, 12 (30%) of these were low grade and resectable cancers. Tumour immunohistochemistry was 100% sensitive and specific in diagnosing mismatch repair (MMR) deficiency of the corresponding gene while microsatellite instability was neither sensitive nor specific as a diagnostic tool (p<0.0001). Furthermore, screening of normal tissue by immunohistochemistry correlated with genetic confirmation of CMMRD. The surveillance protocol detected 39 lesions which included asymptomatic malignant gliomas and gastrointestinal carcinomas. All tumours were amenable to complete resection and all patients undergoing surveillance are alive.

DISCUSSION

CMMRD is a highly penetrant syndrome where family history of cancer may not be contributory. Screening tumours and normal tissues using immunohistochemistry for abnormal expression of MMR gene products may help in diagnosis and early implementation of surveillance for these children.

Screening for Lynch syndrome in unselected women with endometrial cancer

5508

Background: Endometrial cancer (EC) is often the sentinel cancer in women with Lynch Syndrome (LS) however it is often not recognized in this population. A prospective cohort study comparing family history, immunohistochemistry (IHC) for mismatch repair (MMR) proteins, and tumour morphology to germline mutation status in MMR genes was performed in unselected women with EC to determine which screening strategy was superior in identifying women with LS. Methods: All women with newly diagnosed EC between July 2010 and June 2011 were asked to participate in the prospective screening protocol for LS which included completing an extended family history questionnaire (eFHQ), tumor assessment for LS-associated morphologic features and IHC as well as germline mutation testing. Results: 119 (n = 182, 65%) consented to the study. The median age was 61 (26-91), 96 (81%) stage I, and 42 (35%) had high risk histology. There were 6 (7.4%, n = 81) women that were germline mutation positive (MLH1 N=3; MSH6 n = 2; MSH2 n =1), representing a mutation positive rate of at least 5% in this cohort (6/119). All 3 MLH1 mutation positive women had low grade histology while mutations in MSH2/6 were exclusively found in women with high risk histology. Two of the six mutation positive women were not identified by family history. Mutation positivity was higher in women under age 50 (23%; 5/22) compared to women > age 50 (1%; 1/97)( (p = 0.0008). LS-morphologic features were found in 58 (59%, n = 98) women. The sensitivity, specificity, PPV and NPV of the LS-associated features in predicting LS mutation status was 100%, 42.6%, 7.9% and 100% compared to IHC which was 100%, 76%, 18% and 100% and eFHQ which was 67%, 84%, 27%, 97%. Conclusions: In this unselected population of women with newly diagnosed EC the germline mutation rate for LS was 2-3 times that has previously been reported. Previously described LS-associated morphologic features were not specific to germline mutation status and family history missed one third of women with LS. IHC was the best strategy to identify women with EC who should undergo germline mutation testing.

Classification of a VUS in MLH1 using a combination of family segregation studies and protein biochemistry

342

Background: The identification of variants of unknown clinical significance (VUS) presents a challenge for diagnostic laboratories and clinicians working with families with Lynch syndrome (LS). Although a variety of strategies exist to attempt clarification, data from multiple sources is often required before a VUS is re-classified to pathogenic or benign. Methods: We report on the investigation of 2 families with a variant in the MMR gene MLH1, c.2038T>C (p.Cys680Arg). In addition to segregation analysis, and review of published literature, the c-terminal domain of MLH1was cloned, the p.Cys680Arg variant was generated using site-directed mutagenesis and protein expression was induced. In addition, this point mutation was modelled onto the crystal structure of the dimerization domain of MLH1. Results: Both families fit Amsterdam criteria for a diagnosis of LS. All available tumours exhibited MLH1 deficiency and microsatellite instability and all living affected individuals available were positive for MLH1 p.Cys680Arg variant. Protein studies confirmed that p.Cys680 resides in a tight hydrophobic cavity and the p.Cys680Arg mutation disrupts the folding of the C-terminal domain of MLH1. In two families this variant segregated with disease in a total of 12 individuals (>10 meiosis and >1000:1 odds in favor of linkage) and 3 had an MLH1 deficient tumour, supporting a pathogenic role for this variant. Inspection of the crystal structure of MLH1 suggested that the Cys680Arg mutation should severely alter the folding of the dimerization domain. As opposed to the dimerization domain of MLH1 that can be readily produced recombinantly and is stable in solution, the same domain of MLH1 encoding the Cys680Arg mutation was expressed as inclusion bodies, confirming that this mutation causes misfolding of the dimerization domain of MLH1. Conclusions: Our data confirms that the p.Cys680Arg mutation destabilizes the dimerization domain of MLH1, and presumably the DNA mismatch repair proficiency of individuals carrying this mutation. Based on this evidence and family history data, the MLH1 C680R missense variant is classified as pathogenic. This approach may prove useful in the classification of other variants.

Homozygous nonsense mutation in the MCEE gene and siRNA suppression of methylmalonyl-CoA epimerase expression: a novel cause of mild methylmalonic aciduria

Methylmalonyl-CoA epimerase (MCE) catalyzes the interconversion of D- and L-methylmalonyl-CoA in the pathway responsible for the degradation of branched chain amino acids, odd chain-length fatty acids, and other metabolites. Despite the occurrence of metabolic disorders in the enzymatic step occurring immediately upstream of MCE (propionyl-CoA carboxylase) and downstream of MCE (adenosylcobalamin-dependent methylmalonyl-CoA mutase), no disease-causing mutations have been described affecting MCE itself. A patient, formerly identified as belonging to the cblA complementation group of vitamin B12 disorders but lacking mutations in the affected gene, MMAA, was tested for mutations in the MCEE gene. The patient's fibroblasts had normal levels of adenosylcobalamin compared to controls, whereas other cblA cell lines typically had reduced levels of the cofactor. As well, this patient had a milder form of methylmalonic aciduria than usually observed in cblA patients. The patient was found to be homozygous for a c.139C>T (p.R47X) mutation in MCEE by sequence analysis that was confirmed by restriction digestion of PCR products. One sibling, also with mild methylmalonic aciduria, was homozygous for the mutation. Both parents and one other sibling were heterozygous. A nearby insertion polymorphism, c.41-160_161insT, heterozygous in both parents, showed the wild-type configuration on the mutant alleles. To assess the impact of isolated MCE deficiency in cultured cells, HeLa cells were transfected with a selectable vector containing MCEE-specific small interfering RNA (siRNA) to suppress gene expression. The reduced level of MCEE mRNA resulted in the reduction of [14C]-propionate incorporation into cellular macromolecules. However, siRNA only led to a small reduction in pathway activity, suggesting that previously postulated non-enzymatic conversion of D- to L-methylmalonyl-CoA may contribute to some flux through the pathway. We conclude that the patient's MCEE defect was responsible for the mild methylmalonic aciduria, confirming a partial requirement for the enzymatic activity in humans.

Impact of cblB mutations on the function of ATP:cob(I)alamin adenosyltransferase in disorders of vitamin B12 metabolism

ATP:cob(I)alamin adenosyltransferase (MMAB protein; methylmalonic aciduria type B) is an enzyme of vitamin B(12) metabolism that converts reduced cob(I)alamin to the adenosylcobalamin co-factor required for the functional activity of methylmalonyl-CoA mutase. Mutations in the human MMAB gene result in a block in adenosylcobalamin synthesis and are responsible for the cblB complementation group of inherited vitamin B(12) disorders. In this study, we examined the impact of several mutations, previously identified in cblB patients and clustered within a small, highly conserved region in MMAB. We confirmed mitochondrial expression of MMAB in human cells and showed that two mutations, R186W and E193K, were associated with absent protein by Western blot, while one, R191W, coupled with another point mutation, produced a protein in patient fibroblasts. Wild type MMAB and all four mutant proteins were stably expressed at high level as GST-fusion proteins, but only the R191W protein was enzymatically active. It showed an elevated K(m) of 320 microM (vs 6.8 microM for wild type enzyme) for ATP and 60 microM (vs 3.7 microM) for cob(I)alamin, with a reduction in k(cat) for both substrates. Circular dichroism spectroscopy revealed that three mutant proteins examined retained a alpha-helical structure as for the wild type protein. Characterization of MMAB will contribute to our understanding of cobalamin processing in mammalian cells and of disease mechanisms in the genetic disorders.