Loss of mismatch repair protein immunostaining in colorectal adenomas from patients with hereditary nonpolyposis colorectal cancer.

Colorectal adenomas occur at younger age, at increased frequency and have a greater tendency for malignant transformation in patients with hereditary nonpolyposis colorectal cancer (HNPCC). We performed immunostaining for the mismatch repair proteins MLH1, PMS2, MSH2 and MSH6 in 35 colorectal adenomas from 26 patients with HNPCC and identified loss of immunostaining in 23/35 (0.66) adenomas. Loss of mismatch repair protein immunostaining was particularly frequent in large (>5 mm) (14/16) and proximally located (13/15) adenomas, whereas the gene mutated--MLH1 or MSH2--and the type of mutation did not seem to affect the results. We conclude that loss of mismatch repair protein immunostaining is detected at a lower rate in adenomas than in carcinomas associated with HNPCC. Adenomatous tissue can thus be used for immunostaining of mismatch repair proteins in clinical investigations of HNPCC, but whereas loss of immunostaining may pinpoint the gene affected and thereby guide mutation analysis, retained staining cannot exclude that the adenoma developed as part of the syndrome due to reduced sensitivity. However, the analysis has a greater chance of being informative if large and proximally located adenomas are selected.     

中国人遗传性非息肉病性结直肠癌错配修复基因大片段缺失研究

目的了解中国人遗传性非息肉病性结直肠癌(hereditary nonpolyposis colorectal cancer．HNPCC)家系中MSH和MLH1基因大片段缺失情况及特点，以进一步完善中国人HNPCC家系遗传检测内容。方法取14个符合中国人HNPCC诊断标准的HNPCC家系肿瘤先证者外周血DNA，用荧光标记多重PCR技术结合GeneScan分析系统检测MSH2和MLH1基因大片段缺失。结果14例患者中有1例检测到MSH2基因第1～7外显子缺失，该家系另1例大肠癌患者和3个家系成员有同样的基因片段缺失。结论中国人HNPCC家系错配修复基因大片段缺失可能以MSH2比较常见。建议在中国人HNPCC家系遗传检测中常规包含错配修复基因大片段缺失检测。     

Mean age of tumor onset in hereditary nonpolyposis colorectal cancer (HNPCC) families correlates with the presence of mutations in DNA mismatch repair genes

Fourteen Italian families affected with hereditary nonpolyposis colorectal cancer (HNPCC) were screened for germline mutations at three DNA mismatch repair (MMR) genes, MSH2, MLH1, and GTBP, by using a combination of different methods that included an in vitro synthesized protein assay, single-strand conformation polymorphism analysis, and direct sequencing. DNA alterations were observed in six instances, including a single base deletion in MSH2 exon 14, an A-to-G transition in the splice donor site of MLH1 exon 6, and two missense mutations in MLH1 exons 5 and 9. A previously reported common mutation affecting the splice donor site of MSH2 exon 5 was identified in two families. No mutations were detected in the GTBP gene. In total, eight of 16 Italian HNPCC families (50%), including two previously reported kindreds, were found to carry a mutation in MMR genes. We compared the mean age of colorectal cancer onset in the index cases (three patients for each family) between the two groups of kindreds, those with identified mutation vs. those without, and found that the first had a significantly lower value (43.0 vs. 53.7 years, P = 0.014). This finding suggests that HNPCC families with a more advanced age of tumor onset are less likely to be associated with known MMR genes. Genes Chromsom. Cancer 19:135–142, 1997. © 1997 Wiley-Liss Inc.     

Concurrent genetic alterations in DNA polymerase proofreading and mismatch repair in human colorectal cancer

Genomic sequences encoding the 3' exonuclease (proofreading) domains of both replicative DNA polymerases, pol delta and pol epsilon, were explored simultaneously in human colorectal carcinomas including six established cell lines. Three unequivocal sequence alterations, including one previously reported, were found, and all these were considered as dysfunctional mutations in light of the local amino-acid sequences. In particular, the F367S mutation found in the POLE gene encoding the pol epsilon catalytic subunit, which includes the proofreading domain, is the first found in human diseases. Surprisingly, the tumours carrying these proofreading domain mutations were all defective in DNA mismatch repair (MMR). In addition to the two cell lines with acknowledged MMR gene mutations, the third tumour was also demonstrated to harbour a distinct mutation in MLH1, and indeed exhibited a microsatellite-unstable phenotype. These findings suggest that, in concert with MMR deficiency, defective polymerase proofreading may also contribute to the mutator phenotype observed in human colorectal cancer. Our observations may suggest previously unrecognised complexities in the molecular abnormalities underlying the mutator phenotype in human neoplasms.     

Medullary carcinoma of the pancreas in a man with hereditary nonpolyposis colorectal cancer due to a mutation of the MSH2 mismatch repair gene

Pancreatic adenocarcinoma has been reported in kindreds with hereditary nonpolyposis colorectal cancer (HNPCC). Medullary carcinoma of the pancreas is a recently described rare variant of pancreatic adenocarcinoma. We describe a man with colorectal carcinoma who subsequently developed pancreatic medullary carcinoma. The tumor displayed microsatellite instability and loss of expression of the mismatch repair proteins MSH2 and MSH6. Mutational analysis of the mismatch repair genes MLH1 and MSH2 demonstrated a pathogenic nonsense mutation within the MSH2 gene, which is consistent with a diagnosis of HNPCC. This report adds support to an association between HNPCC and pancreatic adenocarcinoma displaying the medullary phenotype, suggesting that medullary features in a pancreatic carcinoma may point toward a genetic cancer predisposition. To our knowledge, this is the first reported case of medullary carcinoma of the pancreas in a patient with HNPCC due to a mutation of the MSH2 gene.     

DNA mismatch repair deficiency in sporadic colorectal cancer and Lynch syndrome

Poulogiannis G, Frayling I M & Arends M J
(2010) Histopathology 56, 167–179 DNA mismatch repair deficiency in sporadic colorectal cancer and Lynch syndrome DNA mismatch repair (MMR) deficiency is one of the best understood forms of genetic instability in colorectal cancer (CRC), and is characterized by the loss of function of the MMR pathway. Failure to repair replication‐associated errors due to a defective MMR system allows persistence of mismatch mutations all over the genome, but especially in regions of repetitive DNA known as microsatellites, giving rise to the phenomenon of microsatellite instability (MSI). A high frequency of instability at microsatellites (MSI‐H) is the hallmark of the most common form of hereditary susceptibility to CRC, known as Lynch syndrome (LS) (previously known as hereditary non‐polyposis colorectal cancer syndrome), but is also observed in ～15–20% of sporadic colonic cancers (and rarely in rectal cancers). Tumour analysis by both MMR protein immunohistochemistry and DNA testing for MSI is necessary to provide a comprehensive picture of molecular abnormality, for use in conjunction with family history data and other clinicopathological features, in order to distinguish LS from sporadic MMR‐deficient CRC. Identification of the gene targets that become mutated in MMR‐deficient tumours may explain, at least in part, some of the clinical, pathological and biological features of MSI‐H CRCs and holds promise for developing novel therapeutics.     

PolyA deletions in hereditary nonpolyposis colorectal cancer: mutations before a gatekeeper

Microsatellite instability (MSI) secondary to loss of DNA mismatch repair (MMR) is present in adenomas and colorectal carcinomas from individuals with hereditary nonpolyposis colorectal cancer (HNPCC). To better characterize when MMR loss occurs during HNPCC progression, the extent of deletions in noncoding polyA sequences were compared between 6 adenomas (all < or = 1.0 cm in size) and 10 cancers. Numbers of deleted bases reflect time since loss of MMR because polyA deletions are stepwise. Adenoma deletions were nearly the same (85%) as the cancers with sum total deletions at four different polyA loci of -32.7 bases in adenomas and -38.4 bases in cancers. Intervals between negative clinical examinations and tumor removal (average of 2.1 years) were known for six tumors. There were no significant differences in the extent of deletions in tumors removed under clinical surveillance (-34.8 bases) versus tumors removed without prior negative examinations (-36.5 bases). These findings illustrate that MSI is extensive in both small adenomas, and tumors which appear after negative clinical examinations, consistent with an early loss of MMR in HNPCC, even before a gatekeeper mutation.     

Microsatellite instability in adenomas as a marker for hereditary nonpolyposis colorectal cancer

Hereditary nonpolyposis colorectal cancer (HNPCC) is the most common of the well-defined colorectal cancer syndromes, accounting for at least 2% of the total colorectal cancer burden and carrying a greater than 80% lifetime risk of cancer. Significant reduction in cancer morbidity and mortality can be accomplished by appropriate clinical cancer screening of HNPCC patients with mutations in mismatch repair (MMR) genes. Thus, it is desirable to identify individuals who are mutation-positive. In individuals with cancer, mutation detection can be accomplished relatively efficiently by germline mutation analysis of individuals whose cancers show microsatellite instability (MSI). This study was designed to assess the feasibility of screening colorectal adenoma patients for HNPCC in the same manner. Among 378 adenoma patients, six (1.6%) had at least one MSI adenoma. Five out of the six patients (83%) had a germline MMR gene mutation. We conclude that MSI analysis is a useful method of prescreening colorectal adenoma patients for HNPCC.     

Evaluation of enzymatic mutation detectiontrade mark in hereditary nonpolyposis colorectal cancer

In hereditary nonpolyposis colorectal cancer (HNPCC), the majority of reported mutations are dispersed throughout the 35 exons of the two principal susceptibility genes, MLH1 and MSH2, and because of this complexity, rapid mutation screening methods are required. The aim of this study was to evaluate the sensitivity of the Enzymatic Mutation Detection (EMD) assay in HNPCC using genomic DNA samples with known gene alterations in MLH1 and MSH2. The EMD assay relies upon the enzyme T4 Endonuclease VII recognizing and cleaving DNA mismatches, created when a PCR product containing a sequence alteration is hybridized with a wild type probe. A total of 68 different sequence variants from 30 exons were analyzed. The EMD assay was able to detect 62 of the 68 sequence variants (91%) with the majority showing strong cleavage products. One of the advantages of the EMD assay over other mutation screening techniques is that larger fragments can be analyzed in a single assay. No specialized equipment is required and one set of primers is sufficient for radioactive detection of the cleavage products. This method can be adapted to use fluorescent dye-labelled primers and may be automated to detect mutations accurately and rapidly in a large number of samples. One new MLH1 mutation (418delA) and two novel MSH2 mutations (1A>C; 227-228delAG) were also detected in HNPCC patients screened using this method.     

The Fanconi anemia DNA damage repair pathway in the spotlight for germline predisposition to colorectal cancer

Colorectal cancer (CRC) is one of the most common neoplasms in the world. Fanconi anemia (FA) is a very rare genetic disease causing bone marrow failure, congenital growth abnormalities and cancer predisposition. The comprehensive FA DNA damage repair pathway requires the collaboration of 53 proteins and it is necessary to restore genome integrity by efficiently repairing damaged DNA. A link between FA genes in breast and ovarian cancer germline predisposition has been previously suggested. We selected 74 CRC patients from 40 unrelated Spanish families with strong CRC aggregation compatible with an autosomal dominant pattern of inheritance and without mutations in known hereditary CRC genes and performed germline DNA whole-exome sequencing with the aim of finding new candidate germline predisposition variants. After sequencing and data analysis, variant prioritization selected only those very rare alterations, producing a putative loss of function and located in genes with a role compatible with cancer. We detected an enrichment for variants in FA DNA damage repair pathway genes in our familial CRC cohort as 6 families carried heterozygous, rare, potentially pathogenic variants located in BRCA2/FANCD1, BRIP1/FANCJ, FANCC, FANCE and REV3L/POLZ. In conclusion, the FA DNA damage repair pathway may play an important role in the inherited predisposition to CRC.     

Loss of DNA mismatch repair protein hMSH6 in ovarian cancer is histotype-specific

Microsatellite instability (MSI) due to defects in DNA mismatch repair genes may be involved in the development of a subset of human ovarian carcinomas. The role of one such gene, hMSH6, in ovarian cancer is not well documented. We investigated the expression of hMSH6 protein in different histotypes of ovarian carcinoma and the associations between loss of hMSH6 protein and tumor grade, disease stage, familial history of cancer and patient survival. We stained an ovarian carcinoma tissue microarray consisting of formalin-fixed, paraffin-embedded tissue samples from 322 patients with an anti-hMSH6 antibody and scored the results semiquantitatively as negative or positive. Twelve cases were excluded owing to loss of cores during staining. Absence of hMSH6 protein was noted in 20 of 230 serous carcinomas (8.7%), in 7 of 16 clear cell carcinomas (43.7%), in 4 of 34 endometrioid carcinomas (11.7%), in 1 of 14 malignant mixed Müllerian tumors, 2 of 6 mucinous carcinomas, 0 of 2 transitional cell carcinomas and in 0 of 8 undifferentiated carcinomas. Loss of hMSH6 protein was not associated with survival, patient age, tumor grade, or disease stage but was associated with clear cell, mucinous and endometrioid carcinoma histology (P<0.007). These findings indicate that loss of hMSH6 expression in ovarian carcinoma is more common in certain histologic subtypes, particularly in clear cell, endometrioid, and mucinous carcinoma, suggesting that loss of hMSH6 function may participate in the pathogenesis of these subtypes of cancer. Loss of hMSH6 expression did not predict survival and was not associated with disease stage, tumor grade, patient age or family history of cancer.     

The role of hereditary nonpolyposis colorectal cancer in the management of familial ovarian cancer.

PURPOSE: Familial ovarian cancer is most often associated with hereditary breast and ovarian cancer, implicating mutations in the BRCA1 and BRCA2 genes. Hereditary nonpolyposis colorectal cancer, another common syndrome, is also associated with ovarian cancer and is caused by DNA mismatch repair genes. We sought to identify the role of hereditary nonpolyposis colorectal cancer in women with family histories of ovarian cancer. METHODS: The likelihood of a genetic syndrome in 226 oophorectomized women in the Gilda Radner Familial Ovarian Cancer Registry was determined by pedigree analysis using clinical criteria and by calculating the probability of a mutation in genes responsible for hereditary breast and ovarian cancer and hereditary nonpolyposis colorectal cancer using available risk models. RESULTS: Some 86% had a BRCA gene mutation likelihood of 7.8% or higher, warranting consideration of hereditary breast and ovarian cancer. Of the 32 women below this threshold, 4 (12.5%) had family histories that met criteria for clinical diagnosis of hereditary nonpolyposis colorectal cancer. In addition, 16 women (7%) with a BRCA mutation likelihood greater than 7.8% met clinical criteria for hereditary nonpolyposis colorectal cancer or warranted its inclusion in the differential diagnosis. Among all study respondents, 9% had family histories warranting consideration of hereditary nonpolyposis colorectal cancer. CONCLUSION: Hereditary nonpolyposis colorectal cancer should be considered in the differential diagnosis of women with family histories of ovarian cancer.     

遗传性非息肉病性结直肠癌的家系和染色体脆性部位研究

目的：报道一个遗传性非息肉病性结直肠癌的家系和细胞遗传学特征。方法：家系调查通过查阅患者病历,走访经治医生和知情成员所获得。细胞遗传学研究采用了外周血淋巴细胞脆性部位培养技术和G显带分析方法。结果：该家族患者符合阿姆斯特丹诊断标准,先证者祖父母后代发病呈常染色体显性遗传,致病基因来源于先证者祖母。细胞遗传学研究显示9例成员染色体异常率高达55．6％,其中1例正常成员亦检到脆性部位,是重点监测和随访的末病对象;表现为显性遗传的先证者祖父母后代5例成员与5例患者染色体异常率均达80％（4／5）。结论：根据系谱中发病规律和患者很高的染色体脆性部位检出率为该家族成员的发病预测、筛查、早诊断、早治疗具有简便、实用、经济的特点和应用价值,可让部分家族成员避免反复检查的痛苦。     

Detection of Tn, sialosyl-Tn and T antigens in hereditary nonpolyposis colorectal cancer

The simple mucin-type carbohydrate antigens Tn, sialosyl-Tn, T and the cryptic sialylated variant of the last represent the mucin core oligosaccharide structures that are produced in the initial steps of the mucin biosynthetic pathway. Utilizing monoclonal antibodies anti-Tn antigen (HB-Tn1), anti-sialosyl-Tn antigen (HB-STn1), anti-T antigen (HB-T1) and the biotinylated Amaranthus caudatus agglutinin (ACA), we have investigated the expression of the simple mucin-type carbohydrate antigens in hereditary nonpolyposis colorectal cancer (HNPCC; 15 cases) compared with sporadic colorectal cancer (CRC; 60 cases) and normal colonic mucosa (30 cases). A variable positivity of Tn, sialosyl-Tn, T and the cryptic sialylated form of this latter antigen was encountered in both HNPCC and sporadic CRC cases; in addition, in normal colonic mucosa a constant reactivity was encountered only for Tn and the cryptic sialylated form of T, while negative results were always obtained for sialosyl-Tn and T antigens. Statistical analysis, performed using a Chi-square test, showed significantly lower (P=0.037) expression of sialosyl-Tn and higher (P=0.022) expression of T in HNPCC than in sporadic CRC, suggesting a greater presence of 1,3 galactosyl-transferase activity in HNPCC than in sporadic CRC. We were unable to identify a peculiar phenotype for HNPCC with simultaneous evaluation of reactivity for HB-Tn1, HB-STn1, HB-T1 and ACA; the biological significance of the preferential expression of T antigen in HNPCC remains to be investigated.     

Association of a duodenal follicular lymphoma and hereditary nonpolyposis colorectal cancer.

Hereditary nonpolyposis colorectal cancer (HNPCC) is an inherited predisposition to colorectal and endometrial cancers caused by germline mutation of mismatch repair genes, with hMLH1 and hMSH2 underlying the majority of the cases. Although lymphoid tumors are the most common tumors in mouse models for HNPCC, lymphomas are almost never encountered in patients who have HNPCC, except in rare families with germline homozygous deletion of hMLH1. We report the case of a 53-year-old man who had a history of colon cancers related to constitutional hMLH1 mutation and who was diagnosed as having a duodenal follicular lymphoma This diagnosis was supported by IgH-BCL2 rearrangement and BCL2 immunoreactivity in tumor cells. The association of both of these possibly related rare diseases has never been reported. To clarify this relationship, we searched for hMLH1 expression and mismatch repair deficiency in the duodenal lymphoma. hMLH1 immunostaining was positive in lymphoid tumor cells, and no microsatellite instability was detected. In agreement with mouse models for HNPCC, these results suggest the involvement of alternative mechanisms to complete mismatch repair deficiency for lymphomagenesis in HNPCC syndrome.