Loss of the wild type MLH1 gene is a feature of hereditary nonpolyposis colorectal cancer.

The mechanism by which germline mutations of DNA mismatch repair genes cause susceptibility to tumour formation is not yet understood. Studies in vitro indicate that heterozygosity for these mutations, unlike homozygosity, does not affect mismatch repair. Surprisingly, no loss of heterozygosity at the predisposing loci has so far been described in hereditary nonpolyposis colorectal cancers. Here, we show that loss of heterozygosity (LOH) of markers within or adjacent to the MLH1 gene on chromosome 3p occurs nonrandomly in tumours from members of families in which the disease phenotype cosegregates with MLH1. In every informative case, the loss affects the wild type allele. These results suggest that DNA mismatch repair genes resemble tumour suppressor genes in that two hits are required to cause a phenotypic effect.

Localization of a susceptibility locus for Peutz-Jeghers syndrome to 19p using comparative genomic hybridization and targeted linkage analysis.

Many human cancer susceptibility genes have been successfully mapped by genetic linkage studies. One that has so far eluded researchers is that for Peutz-Jeghers (P-J) syndrome, a condition characterized by intestinal hamartomatous polyposis and melanin spots of the lips, buccal mucosa and digits. A dramatically elevated risk of malignancy has also been documented. Gastrointestinal tumours as well as cancers of the breast, ovary, testis and uterine cervix appear to be overrepresented in families with this syndrome. The nature of hamartomatous polyps is equivicol. Hamartomas are usually considered histologically benign, but in the case of Peutz-Jeghers patients, there are reports of adenomatous and malignant changes in the polyps, and the possibility of a hamartoma-carcinoma sequence has been discussed. A search for a putative tumour suppressor locus was made using comparative genomic hybridization (CGH) of Peutz-Jeghers polyps, combined with loss of heterozygosity (LOH) study. Genetic linkage analysis in 12 families using markers from a deletion site demonstrated the presence of a high-penetrance locus in distal 19p with a multipoint lod score of 7.00 at marker D19S886 without evidence of genetic heterogeneity. The study demonstrates the power of CGH combined with LOH analysis in identifying putative tumour suppressor loci, and provides molecular evidence of malignant potential in hamartomas.

Somatic microsatellite mutations as molecular tumor clocks.

Microsatellite (MS) mutations can potentially unravel the past of mutator phenotype tumors, with greater genetic diversity expected in older regions. Rapid clonal expansions of xenografts were characterized by relatively homogenous MS alleles, whereas greater diversity was observed in a colorectal cancer with the greatest variation in its adjacent adenoma. A subcutaneous lung cancer metastasis demonstrated diversity consistent with its one-month clinical duration and evidence of active mitosis during dormancy. The genetic legacy inherent to multistep tumorigenesis provides direct estimates of tumor ages, with up to thousands of cell divisions and high death rates necessary to yield the observed diversities. MS molecular tumor clocks have the unique potential to systematically reconstruct the early and occult evolution of individual human mutator phenotype tumors.

Serrated carcinomas form a subclass of colorectal cancer with distinct molecular basis.

Serrated colorectal carcinomas (CRCs) are morphologically different from conventional CRCs and have been proposed to follow a distinct pathway of CRC formation. Despite studies of single molecular events in this tumor type, the diagnosis of serrated CRC relies on morphology and the putative unique biological character of these tumors has not been established. Here we show that the gene expression profiling of 37 CRCs separated serrated and conventional CRCs into two distinct branches in unsupervised hierarchical clustering (P-value 7.8 x 10(-7)), and revealed 201 differentially expressed genes representing potential biomarkers for serrated CRC. Immunohistochemistry was utilized to verify the key findings in the 37 CRCs examined by expression profiling, and a separate validation set of 37 serrated and 86 conventional CRCs was examined to evaluate the candidate biomarkers in an extended sample material. Ephrin receptor B2, hypoxia-inducible factor 1-alpha and patched appeared as proteins important for genesis of serrated CRC. This study establishes serrated CRCs as a biologically distinct subclass of CRC and represents a step forward in the molecular classification of these cancers. The study also provides a platform to understand the molecular basis of serrated CRC and in long term may contribute to the development of specific treatment options for this tumor type.

Increased risk of cancer in patients with fumarate hydratase germline mutation.

Hereditary leiomyomatosis and renal cell cancer (HLRCC) is a tumour predisposition syndrome caused by heterozygous germline mutations in the fumarate hydratase (FH) gene. The condition is characterised by predisposition to benign leiomyomas of the skin and the uterus, renal cell carcinoma (RCC), and uterine leiomyosarcoma (ULMS). To comprehensively examine the cancer risk and tumour spectrum in Finnish FH mutation positive families, genealogical and cancer data were obtained from 868 individuals. The cohort analysis of the standardised incidence ratios (SIR) was analysed from 256 individuals. FH mutation status was analysed from all available individuals (n = 98). To study tumour spectrum in FH mutation carriers, loss of the wild type allele was analysed from all available tumours (n = 22). The SIR was 6.5 for RCC and 71 for ULMS. The overall cancer risk was statistically significantly increased in the age group of 15-29 years, consistent with features of cancer predisposition families in general. FH germline mutation was found in 55% of studied individuals. Most RCC and ULMS tumours displayed biallelic inactivation of FH, as did breast and bladder cancers. In addition, several benign tumours including atypical uterine leiomyomas, kidney cysts, and adrenal gland adenomas were observed. The present study confirms with calculated risk ratios the association of early onset RCC and ULMS with FH germline mutations in Finns. Some evidence for association of breast and bladder carcinoma with HLRCC was obtained. The data enlighten the organ specific malignant potential of HLRCC.

Semiautomated assessment of loss of heterozygosity and replication error in tumors.

Loss of heterozygosity (LOH) and replication error (RER) are important phenomena in tumor development, with diagnostic and prognostic relevance. Therefore, screening for LOH and RER is a desirable first step in the molecular analysis of tumors. We used semiautomated procedures based on multicolor fluorescently labeled microsatellite markers and an automated sequencer for PCR amplification, electrophoresis of PCR products, and allele detection with a set of 16 microsatellites in 56 colorectal tumors. We improved existing software for computer-assisted assessment of LOH and RER. A comparison of these results with those of a conventional, radioactive technique and visual interpretation shows a high degree of correlation between the two methods. The detection rates of LOH and RER are similar to those reported previously. The main advantages of the semiautomated fluorescence-based typing are in the objective, observer-unrelated, easy, and rapid computer-based scoring, and the resulting quantitative assessment of RER.

Somatic mutations in LKB1 are rare in sporadic colorectal and testicular tumors.

Germ-line mutations in a serine/threonine kinase gene, LKB1, were recently shown to underlie Peutz-Jeghers syndrome (PJS), a hereditary disorder that predisposes to benign and malignant tumors of multiple organ systems. Most mutations that have been described thus far dramatically change the predicted protein and are likely to be of an inactivating nature. This observation and a previous observation that the LKB1 locus is often deleted in PJS polyps suggest that the gene may function as a tumor suppressor. We examined whether somatic mutations in this gene are present in sporadic carcinomas of the colon and testis, tumors that are characteristic of PJS. First, 20 randomly selected colorectal and 28 testicular tumors were analyzed by single-strand conformation polymorphism analysis. No mutations in LKB1 were found in colorectal tumors. One testicular tumor displayed a heterozygous missense type variant, in which glycine 163 was changed to aspartic acid. This change was absent in the DNA of normal tissue. To better focus our efforts, we tested 75 additional colon carcinomas for loss of heterozygosity at 19p, where LKB1 is localized. Of 75 samples analyzed, 50 were informative with a closely linked marker, D19S886, and 13 (26%) of these displayed loss of heterozygosity. The 13 tumors were scrutinized for LKB1 mutations by genomic sequencing. This analysis revealed no changes. Together, these findings suggest that somatic mutations of LKB1 are not frequent in colorectal and testicular cancer.

Lack of MSH2 and MSH6 characterizes endometrial but not colon carcinomas in hereditary nonpolyposis colorectal cancer.

Hereditary nonpolyposis colorectal cancer syndrome is associated with an inherited predisposition to primarily colorectal cancer (CRC) and endometrial cancer (EC); however, the biological basis of the organ involvement remains unknown. As an attempt to explore whether the expression levels of MLH1, MSH2, and MSH6 may play a role, we used immunohistochemistry to study 42 ECs and 35 CRCs from patients carrying the same predisposing mutations. Among MSH2 mutation carriers, MLH1 was expressed in both tumor types, whereas MSH2 and, in many cases, also MSH6, were absent. Remarkably, among MLH1 mutation carriers, 54% of ECs (21 of 39), but none of the CRCs (0 of 32), lacked the MSH2 and/or MSH6 protein in addition to lacking MLH1 protein expression. These results demonstrate a marked difference between hereditary nonpolyposis colorectal cancer-related CRCs and ECs and suggest that the development of the latter tumors is selectively associated with the MSH2/MSH6 protein complex deficiency.

Age-related hypermethylation of the 5' region of MLH1 in normal colonic mucosa is associated with microsatellite-unstable colorectal cancer development.

Hypermethylation of the MLH1 promoter underlies most sporadic colorectal cancers with microsatellite instability (MSI). To investigate the role of hypermethylation in the normal colonic mucosa as a possible precursor lesion, we studied 700 bp upstream of MLH1 covering 51 CpG sites. We found partially methylated alleles in 15 of 34 (44%) patients <60 years of age and 20 of 24 (83%) patients > or =80 years of age (P = 0.0026). Fully methylated alleles were present in 18 of 33 (55%) patients with MSI+ tumors but in only 18 of 90 (20%) patients with MSI- tumors (P = 0.00019). By in situ analysis, methylation was patchy and located mainly in the cryptal regions close to the lumen. We conclude that the spread of methylation in the MLH1 promoter in the normal colonic mucosa is closely associated with age and the development of sporadic MSI+ colorectal cancers.

Microsatellite marker analysis in screening for hereditary nonpolyposis colorectal cancer (HNPCC).

Hereditary nonpolyposis colorectal cancer (HNPCC) is an autosomal dominant cancer predisposition syndrome caused by germ-line mutations in DNA mismatch repair genes. It is relevant to identify HNPCC patients because colonoscopic screening of individuals with HNPCC mutations reduces cancer morbidity and mortality. Microsatellite instability (MSI) is characteristic of HNPCC tumors. A panel of five markers (BAT25, BAT26, D2S123, D5S346, and D17S250, the so-called Bethesda markers) has been proposed for screening for MSI. To test a hypothesis that the use of BAT26 alone is feasible in screening for MLH1/MSH2 mutation-positive HNPCC patients, we compared the MSI results of 494 colorectal cancer patients obtained using BAT26 with results obtained using the Bethesda markers. BAT26 was able to identify all 27 mutation-positive individuals in this series. The marker failed to identify 2 high MSI tumors and 20 low MSI tumors, all of which expressed MLH1, MSH2, and MSH6 when scrutinized by immunohistochemistry.

No evidence of Peutz-Jeghers syndrome gene LKB1 involvement in left-sided colorectal carcinomas.

LKB1 serine/threonine kinase is a gene for Peutz-Jeghers cancer predisposition syndrome. Most studies have detected a low frequency of LKB1 defects in sporadic cancer. A notable exception is a recent report describing frequent, mostly missense type, LKB1 mutations in Korean distal colorectal tumors. To clarify the role of LKB1 in colon cancer, we scrutinized 50 left-sided Korean and Finnish specimens. No somatic mutations were found. The seven Korean somatic missense mutations reported previously were functionally analyzed, and five were found not to alter LKB1 kinase activity. One of these changes was found to be a germ-line polymorphism. LKB1 involvement in distal colorectal cancer is not common.

Intestinal cancer in patients with a germline mutation in the down-regulated in adenoma (DRA) gene.

A recent study has revealed that germline mutations of the down-regulated in adenoma (DRA) gene are a likely cause of a recessive intestinal absorption defect, congenital chloride diarrhea. This finding was in accordance with previous works showing that DRA encodes a sodium independent transporter for sulfate and oxalate. Although DRA was originally reported as a candidate tumor suppressor, these studies have questioned the relevance of DRA in cancer. To evaluate whether further studies on the role of DRA in tumorigenesis are still of interest, we examined whether individuals carrying germline DRA mutations have an excess of intestinal cancer. Cancer status of 229 members of 36 Finnish congenital chloride diarrhea families (44 homozygous patients, 70 heterozygous parents, and 115 grandparents at 50% risk of being a DRA mutation carrier) was checked at the Finnish Cancer Registry and the risk of intestinal cancer was found slightly elevated (standardized incidence ratio 3.4, 95% confidence interval 1.4-7.0, P < 0.05). While this result does not unambiguously demonstrate an increased intestinal cancer risk in DRA mutation carriers, it should promote further studies to determine the possible role of DRA in cancer.

Population-based molecular detection of hereditary nonpolyposis colorectal cancer.

PURPOSE: Cancer morbidity and mortality can be dramatically reduced by colonoscopic screening of individuals with the hereditary nonpolyposis colorectal cancer (HNPCC) syndrome, creating a need to identify HNPCC. We studied how HNPCC identification should be carried out on a large scale in a sensitive and efficient manner. PATIENTS AND METHODS: Colorectal cancer specimens from consecutive newly diagnosed patients were studied for microsatellite instability (MSI). Germline mutations in the MLH1 and MSH2 genes were searched for in MSI(+) individuals. RESULTS: Among 535 colorectal cancer patients, 66 (12%) were MSI(+). Among these, 18 (3.4% of the total) had disease-causing germline mutations in MLH1 or MSH2. Among these 18 patients, five were less than 50 years old, seven had a previous or synchronous colorectal or endometrial cancer, and 15 had at least one first-degree relative with colorectal or endometrial cancer. Notably, 17 (94%) of 18 patients had at least one of these three features, which were present in 22% of all 535 patients. Combining these data with a previous study of 509 patients, mutation-positive HNPCC accounts for 28 (2.7%) of 1,044 cases of colorectal cancer, predicting a greater than one in 740 incidence of mutation-positive individuals in this population. CONCLUSION: Large-scale molecular screening for HNPCC can be done by the described two-stage procedure of MSI determination followed by mutation analysis. Efficiency can be greatly improved by using three high-risk features to select 22% of all patients for MSI analysis, whereby only 6% need to have mutation analysis. Sensitivity is only slightly impaired by this procedure.

The reliability of immunohistochemistry as a prescreening method for the diagnosis of hereditary nonpolyposis colorectal cancer (HNPCC)--results of an international collaborative study.

Hereditary nonpolyposis colorectal cancer syndrome (HNPCC) is an autosomal dominant condition accounting for 2-5% of all colorectal carcinomas as well as a small subset of endometrial, upper urinary tract and other gastrointestinal cancers. An assay to detect the underlying defect in HNPCC, inactivation of a DNA mismatch repair enzyme, would be useful in identifying HNPCC probands. Monoclonal antibodies against hMLH1 and hMSH2, two DNA mismatch repair proteins which account for most HNPCC cancers, are commercially available. This study sought to investigate the potential utility of these antibodies in determining the expression status of these proteins in paraffin-embedded formalin-fixed tissue and to identify key technical protocol components associated with successful staining. A set of 20 colorectal carcinoma cases of known hMLH1 and hMSH2 mutation and expression status underwent immunoperoxidase staining at multiple institutions, each of which used their own technical protocol. Staining for hMSH2 was successful in most laboratories while staining for hMLH1 proved problematic in multiple labs. However, a significant minority of laboratories demonstrated excellent results including high discriminatory power with both monoclonal antibodies. These laboratories appropriately identified hMLH1 or hMSH2 inactivation with high sensitivity and specificity. The key protocol point associated with successful staining was an antigen retrieval step involving heat treatment and either EDTA or citrate buffer. This study demonstrates the potential utility of immunohistochemistry in detecting HNPCC probands and identifies key technical components for successful staining.

Comparative genomic hybridization reveals differences in DNA copy number changes between sporadic gastric carcinomas and gastric carcinomas from patients with hereditary nonpolyposis colorectal cancer.

Comparative genomic hybridization was used to search for DNA copy number changes in samples of gastric cancer from 12 hereditary nonpolyposis colon cancer (HNPCC) patients and in samples of sporadic gastric carcinoma from 13 patients. The gastric cancer samples from HNPCC patients showed gains affecting 19q, Xp, and whole chromosome 22, each in a single patient. Neither high-level amplifications nor losses of DNA copy number were detected. On the other hand, 10 of the 13 (77%) sporadic gastric carcinoma samples had multiple DNA copy number changes. The most frequent gains occurred with minimal common overlapping regions at 1q22-q31, 8q23-qter, 17p11.2-q22, and 20q, all at a frequency of 31%. High-level amplifications were also seen at 17q21 in three cases (23%). Losses were rare, and the most frequent loss was with a minimal common overlapping region at 4q32 (23%). This suggests that multiple DNA copy number changes are needed for the development of sporadic gastric carcinoma but not for gastric carcinoma in HNPCC patients.

Gene expression signatures for colorectal cancer microsatellite status and HNPCC.

The majority of microsatellite instable (MSI) colorectal cancers are sporadic, but a subset belongs to the syndrome hereditary non-polyposis colorectal cancer (HNPCC). Microsatellite instability is caused by dysfunction of the mismatch repair (MMR) system that leads to a mutator phenotype, and MSI is correlated to prognosis and response to chemotherapy. Gene expression signatures as predictive markers are being developed for many cancers, and the identification of a signature for MMR deficiency would be of interest both clinically and biologically. To address this issue, we profiled the gene expression of 101 stage II and III colorectal cancers (34 MSI, 67 microsatellite stable (MSS)) using high-density oligonucleotide microarrays. From these data, we constructed a nine-gene signature capable of separating the mismatch repair proficient and deficient tumours. Subsequently, we demonstrated the robustness of the signature by transferring it to a real-time RT-PCR platform. Using this platform, the signature was validated on an independent test set consisting of 47 tumours (10 MSI, 37 MSS), of which 45 were correctly classified. In a second step, we constructed a signature capable of separating MMR-deficient tumours into sporadic MSI and HNPCC cases, and validated this by a mathematical cross-validation approach. The demonstration that this two-step classification approach can identify MSI as well as HNPCC cases merits further gene expression studies to identify prognostic signatures.

Allelic analysis of serous ovarian carcinoma reveals two putative tumor suppressor loci at 18q22-q23 distal to SMAD4, SMAD2, and DCC.

The distal half of chromosome arm 18q is frequently lost in ovarian carcinoma. To define the putative tumor suppressor locus/loci more precisely we performed allelic analysis with 27 polymorphic microsatellite markers located at 18q12.3-q23 in 64 serous and 9 mucinous ovarian carcinomas. Fifty-nine percent of the serous carcinomas, but only one (11%) of mucinous carcinomas, showed allelic loss at one or more loci (P = 0.018). In serous carcinomas, deletions were found to be associated with tumor grade and poor survival. The highest frequency of losses was detected at the distal part, 18q22-q23. Two minimal common regions of loss (MCRL) were identified at this region: MCRL1 between D18S465 and D18S61 at 18q22 (3.9 cM) and MCRL2 between D18S462 and D18S70 at 18q23 (5.8 cM). At 18q21.1, proximal to the MCRLs, there are three candidate tumor suppressor genes: SMAD4 (DPC4), SMAD2, and DCC. Their protein expression was studied by immunohistochemistry in normal ovarian tissue and serous carcinomas. Lost or very weak expression of SMAD4, SMAD2 and DCC was found in 28, 28, and 30% of serous carcinomas, respectively. Comparison of allelic loss and protein expression status indicated that none of these genes alone could be the target for the frequent allelic loss at 18q21.1. Together, these genes may account for a substantial proportion of the events, but not all of them. Thus, we propose that the frequent allelic loss at 18q is because of the effect of multiple genes, and there is at least one as yet unidentified tumor suppressor gene at 18q residing distal to SMAD4, SMAD2, and DCC involved in serous ovarian carcinoma.

Sudden death due to rupture of the arteria pancreatica magna: a complication of an immature pseudocyst in chronic pancreatitis.

Massive haemorrhage due to rupture of single pancreatic or peripancreatic vessels is a very rare but potentially lethal complication of acute and chronic pancreatitis. The splenic, gastroduodenal, and pancreatoduodenal arteries are the more commonly involved vessels, and rupture occurs mostly as a complication of large mature pseudocysts. We report a sudden death due to massive bleeding caused by rupture of the great pancreatic artery (arteria pancreatica magna), a complication of a small immature pseudocyst, in a 49-year-old male alcoholic with inactive chronic pancreatitis.