Non-Hodgkin lymphoma related to hereditary nonpolyposis colorectal cancer in a patient with a novel heterozygous complex deletion in the MSH2 gene

Hereditary nonpolyposis colorectal cancer (HNPCC) is an autosomal disorder caused by mutations in DNA mismatch repair (MMR) genes. Tumors of the HNPCC-spectrum are associated with microsatellite instability (MSI) and loss of MMR protein expression. Lymphomas are not considered to be HNPCC-related tumors. We report and analyze a case of an HNPCC patient with three colorectal cancers and a B-cell non-Hodgkin lymphoma. Quantitative multiplex PCR of short fluorescent fragments detected a novel MSH2 rearrangement involving exons 9 and 10, which proved to be the pathogenic cause of the disease in the family. Tumor tissues including the lymphoma showed MSI and loss of MSH2 expression. Multiplex ligation-dependent probe amplification analysis revealed a somatic loss of the wild-type MSH2 allele in the lymphoma. These results support the fact that the total loss of a MMR gene can lead to lymphomagenesis, as seen in biallelic MMR-deficient families and knockout mice. Moreover, this is the first report of a B-cell non-Hodgkin lymphoma with a loss of the MSH2 protein expression, linked to a heterozygous germline MSH2 mutation in an HNPCC family.     

中国人遗传性非息肉病性结直肠癌MSH6基因胚系突变的测序研究

目的探讨中国人遗传性非息肉病性结直肠癌(hereditary nonpolyposis colorectal cancer,HNPCC)家系中MSH6基因胚系突变。方法采用PCR-直接测序的方法检测39个无胚系MSH2及MLH1基因突变、符合不同临床标准的中国人HNPCC家系先证者MSH6基因各外显子胚系突变;对137名正常人胚系基因组DNA进行错义突变相应外显子的测序分析。应用Envision二步法检测有突变的先证者肿瘤组织MSH6蛋白表达。结果在39个HNPCC先证者中共发现6个MSH6基因的胚系突变,分别位于第4、6、9和第10外显子;突变类型为4个错义突变、1个无义突变、1个剪接区的插入突变;对4个错义突变的相应外显子的测序分析显示:137名正常人胚系基因组DNA5例具有第6外显子1163密码子处的c.3488A>T的错义突变,约占3.65%(5/137),为单核苷酸多态性(single nucleotide polymorphism,SNP);其余错义突变在正常人群中均未发现。在6例有MSH6基因胚系突变家系的肿瘤组织中免疫组化染色除1例为SNP的肿瘤组织MSH6蛋白阳性表达外,其余均为阴性表达。经过查询国际HNPCC突变数据库及SNP数据库证实上述突变中5个为国际上尚未报道的病理性突变,1个为新发现的SNP。结论MSH6基因胚系突变在符合不同临床标准的中国人HNPCC中均起一定作用,对无MSH2及MLH1基因胚系突变的先证者行MSH6基因胚系突变的测序分析对确诊HNPCC家系是必要的。     

Functional analysis of MSH6 mutations linked to kindreds with putative hereditary non-polyposis colorectal cancer syndrome

To date, five mismatch-repair (MMR) genes, MLH1, MSH2, MSH6, MSH3 and PMS2, are known to be involved in human MMR function. Two of those, MLH1 and MSH2, are further the most common susceptibility genes for hereditary non-polyposis colorectal cancer (HNPCC), while MSH3 and PMS2 are seldom (PMS2) or not at all (MSH3 ) reported to be involved in HNPCC. Despite the increasing number of MSH6 germline mutations, their pathogenicity remains questionable, because the mutations are mainly linked to putative HNPCC families lacking the typical clinical and molecular characteristics of the syndrome, such as early age at onset and high microsatellite instability (MSI). High MSI is a consequence of MMR defect, and the pathogenicity of germline mutations in HNPCC is thus linked to malfunction of MMR. To address the question of whether and how MSH6 mutations cause susceptibility to HNPCC, we studied heterodimerization of four MSH6 variants with MSH2, and the functionality of these MutSalpha complexes in an in vitro MMR assay. All mutations occurred in putative HNPCC patients. Irrespective of the type or the site of the amino acid substitutions, all the variants repaired G.T mismatches to A.T as wild-type MSH6 protein. However, the MSH6 protein carrying a mutation in the MSH2/MSH6 interaction region was poorly expressed, suggesting problems in its stability. Our results are clinically relevant, since they demonstrate that under the stable in vitro conditions, when the amounts of the proteins are adequate for repair, the tested MSH6 mutations do not affect repair function. Consequently, while the typical HNPCC syndrome is associated with problems in repair reaction, the pathogenicity of mutations in putative HNPCC families may be linked to other biochemical events.     

A novel MSH2 germline mutation in homozygous state in two brothers with colorectal cancers diagnosed at the age of 11 and 12 years

Hereditary non-polyposis colorectal cancer (HNPCC) syndrome is caused by heterozygous germline mutations in DNA mismatch repair genes (MMR), (MSH2, MLH1, MSH6, and PMS2) and it is inherited in an autosomal dominant pattern with high penetrance. Several patients have been reported carrying bi-allelic MMR gene mutations and whose phenotype resembled a syndrome with childhood malignancies including hematological malignancies, brain, and colorectal tumors. This phenotype is similar to the tumor spectrum of MMR knockout mice. Herein we describe two brothers of healthy consanguineous parents from Pakistan, who had developed two and three colorectal cancers at the ages of 11 and 12 years, respectively, and less than 30 polyps. Tumor specimens were microsatellite instable (MSI-H), and expression of MSH2 and MSH6 was lost. Mutation analyses of DNA samples from both patients revealed a novel homozygous c.2006-5T > A mutation in intron 12 of the MSH2 gene. This phenotype of the brothers is unusual as they neither develop hematological malignancies nor brain tumors at an older age of presentation than other patients with homozygous MSH2 mutations. The milder phenotype may be due to the expression of low amounts of MSH2 protein with reduced activity.     

Inclusion of malignant fibrous histiocytoma in the tumour spectrum associated with hereditary non-polyposis colorectal cancer

Sarcomas, including the malignant fibrous histiocytomas (MFHs), are not known to be part of the tumour spectrum of hereditary non-polyposis colorectal cancer (HNPCC) as epidemiologically established. Therefore, occurrence of MFH in an HNPCC family may very well be coincidental. HNPCC is associated with germline mutations in DNA mismatch repair genes, including the MSH2 gene. We analysed an MFH diagnosed in a 45-year-old male HNPCC patient carrying a germline MSH2 mutation for HNPCC-associated molecular characteristics, to investigate a possible relationship between the tumour and that mutation. DNA analysis revealed microsatellite instability and loss of one MSH2 copy, and immunohistochemistry showed absence of nuclear MSH2 protein staining. To investigate whether this is a common finding in MFH, microsatellite instability and nuclear MSH2 protein staining was tested for in 5 and 6 sporadic MFHs, respectively. None showed microsatellite instability and all stained positively for MSH2. Together, these findings show that in rare cases, MFH may be part of the HNPCC tumour spectrum.     

典型遗传性非息肉病性结直肠癌家系临床病理及分子遗传学分析

目的 了解国人遗传性非息肉病性结直肠癌（HNPCC）的临床病理及分子遗传学特征。方法 用微解剖、微卫星不稳定性分析、免疫组织化学及直接DNA测序方法,检测4例HNPCC患者的肿瘤组织微卫星不稳定性状态、错配修复基因hMSH2及hMLH1蛋白水平的表达变化以及生殖细胞突变。结果 4例先证者5个肿瘤组织均表现为高度微卫星不稳定性,3例表现为hMSH2蛋白表达异常,1例表现为hMLH1蛋白表达异常。检测出3个生殖细胞病理性突变。结论 中国人典型HNPCC病例中错配修复基因突变率较高。高度微卫星不稳定性、错配修复基因hMSH2及hMLH1蛋白表达异常与错配修复基因生殖细胞突变密切相关。微卫星不稳定性和错配修复基因蛋白分析可作为DNA测序前的筛选手段。     

Compound heterozygosity for two MSH6 mutations in a patient with early onset colorectal cancer, vitiligo and systemic lupus erythematosus

Lynch syndrome (hereditary non-polyposis colorectal cancer, HNPCC) is an autosomal dominant condition caused by heterozygous germline mutations in the DNA mismatch repair (MMR) genes MLH1, MSH2, MSH6, or PMS2. Rare cases have been reported of an inherited bi-allelic deficiency of MMR genes, associated with multiple café-au-lait spots, early onset CNS tumors, hematological malignancies, and early onset gastrointestinal neoplasia. We report on a patient with vitiligo in segments of the integument who developed systemic lupus erythematosus (SLE) at the age of 16, and four synchronous colorectal cancers at age 17 years. Examination of the colorectal cancer tissue showed high microsatellite instability (MSI-H) and an exclusive loss of expression of the MSH6 protein. Immunohistochemical analysis of normal colon tissue also showed loss of MSH6, pointing to a bi-allelic MSH6 mutation. Sequencing of the MSH6 gene showed the two germline mutations; c.1806_1809delAAAG;p.Glu604LeufsX5 and c.3226C > T;p.Arg1076Cys. We confirmed that the two mutations are on two different alleles by allele-specific PCR. To our knowledge, neither parent is clinically affected. They did not wish to be tested for the mutations identified in their daughter. These data suggest that bi-allelic mutations of one of the MMR genes should be considered in patients who develop early-onset multiple HNPCC-associated tumors and autoimmune disorders, even in absence of either hematological malignancies or brain tumors.     

Frequency of constitutional MSH6 mutations in a consecutive series of families with clinical suspicion of HNPCC

A large majority of constitutional mutations in hereditary non-polyposis colorectal cancer (HNPCC) are because of the MHL 1 or MSH 2 genes. In a lower fraction of cases, another gene of the mismatch repair (MMR) machinery, MSH6, may be responsible. Families with MSH6 mutations are difficult to recognize, as microsatellite instability (MSI) may not be detectable and immunohistochemistry (IHC) may give ambiguous results. In the present study, we proposed (i) to determine the frequency of MSH6 mutations in a selected population of colorectal cancer patients obtained from a tumor registry, (ii) to assess whether IHC is a suitable tool for selecting and identifying MSH6 mutation carriers. One hundred neoplasms of the large bowel from suspected HNPCC families were analyzed for MSI (BAT 25 and BAT 26 markers) and immunohistochemical expression of the MSH6 protein. We found on 12 tumors (from different families) showing instability or lack of MSH6 expression. Among these, four potentially pathogenic MSH6 mutations were detected (del A at 2984; del TT at 3119; del AGG cod 385; and del CGT cod 1242) by direct gene sequencing. These represented 12.9% of all families with constitutional mutations of the DNA MMR genes. Thus, some 5% of all HNPCC families are featured by constitutional mutation of the MSH6 gene. This appears, however, as a minimum estimate; routine use of IHC and the study of large numbers of individuals and families with little or no evidence of Lynch syndrome might reveal that mutation of this gene account for a large fraction of HNPCC.     

Eight novel MSH6 germline mutations in patients with familial and nonfamilial colorectal cancer selected by loss of protein expression in tumor tissue

Germline mutations in mismatch repair (MMR) genes, predominantly in MLH1 and MSH2, are responsible for hereditary nonpolyposis colorectal cancer (HNPCC), a cancer-susceptibility syndrome with high penetrance. In addition, MSH6 mutations have been reported to account for about 10% of all germline mismatch repair (MMR) gene mutations in HNPCC patients, and have been associated with a later age of onset of the disease compared to MLH1 and MSH2 mutations. Here, we report eight novel germline mutations in MSH6. The patients were selected by having developed tumors with loss of MSH6 protein expression. All tumors showed high-level microsatellite instability (MSI-H). Seven mutations resulted in premature stop codons, comprised of two nonsense mutations (c.426G>A [p.W142X], c.2105C>A [p.S702X]), two insertions (c.2611_2614dupATTA [p.I872fsX10], c.3324dupT [p.I1109fsX3]) and three deletions (c.1190_1191delAT [p.Y397fsX3], c.1632_1635delAAAA [p.E544fsX26], c.3513_3514delTA [p.1171fsX5]). In addition, an amino acid substitution of an arginine residue (c.2314C>T [p.R772W]) conserved throughout a wide variety of mutS homologs has been found in a patient not fulfilling the Bethesda criteria for HNPCC. Our results emphasize the suitability of IHC as a pre-selection tool for MSH6 mutation analysis and the high frequency of germline mutation detection in patients with MSH6-deficient tumors. In addition, our findings point towards a broad variability regarding penetrance associated with MSH6 germline mutations.     

Atypical HNPCC owing to MSH6 germline mutations: analysis of a large Dutch pedigree

Hereditary non-polyposis colorectal cancer (HNPCC) is the most common genetic susceptibility syndrome for colorectal cancer. HNPCC is most frequently caused by germline mutations in the DNA mismatch repair (MMR) genes MSH2 and MLH1. Recently, mutations in another MMR gene, MSH6 (also known as GTBP), have also been shown to result in HNPCC. Preliminary data indicate that the phenotype related to MSH6 mutations may differ from the classical HNPCC caused by defects in MSH2 and MLH1. Here, we describe an extended Dutch HNPCC family not fulfilling the Amsterdam criteria II and resulting from a MSH6 mutation. Overall, the penetrance of colorectal cancer appears to be significantly decreased (p<0.001) among the MSH6 mutation carriers in this family when compared with MSH2 and MLH1 carriers (32% by the age of 80 v >80%). Endometrial cancer is a frequent manifestation among female carriers (six out of 13 malignant tumours). Transitional cell carcinoma of the urinary tract is also relatively common in both male and female carriers (10% of the carriers). Moreover, the mean age of onset of both colorectal cancer (MSH6 v MSH2/MLH1 = 55 years v 44/41 years) and endometrial carcinomas (MSH6 v MSH2/MLH1 = 55 years v 49/48 years) is delayed. As previously reported, we confirm that the pattern of microsatellite instability, in combination with immunohistochemical analysis, can predict the presence of a MSH6 germline defect. The detailed characterisation of the clinical phenotype of this kindred contributes to the establishment of genotype-phenotype correlations in HNPCC owing to mutations in specific mismatch repair genes.     

No association between MUTYH and MSH6 germline mutations in 64 HNPCC patients

Hereditary non-polyposis colorectal cancer (HNPCC) is an autosomal dominant tumour predisposition syndrome caused by germline mutations in mismatch repair (MMR) genes. In contrast to MLH1 and MSH2, germline mutations in MSH6 are associated with a milder and particularly variable phenotype. Based on the reported interaction of the MMR complex and the base excision repair protein MUTYH, it was hypothesised that MUTYH mutations serve as phenotypical modifiers in HNPCC families. Recently, a significantly higher frequency of heterozygosity for MUTYH mutations among MSH6 mutation carriers was reported. We examined 64 MSH6 mutation carriers (42 truncating mutations, 19 missense mutations and 3 silent mutations) of the German HNPCC Consortium for MUTYH mutations by sequencing the whole coding region of the gene. Monoallelic MUTYH mutations were identified in 2 of the 64 patients (3.1%), no biallelic MUTYH mutation carrier was found. The frequency of MUTYH mutations was not significantly higher than that in healthy controls, neither in the whole patient group (P=0.30) nor in different subgroups regarding mutation type. Our results do not support the association between MSH6 mutations and heterozygosity for MUTYH mutations.     

Conventional and tissue microarray immunohistochemical expression analysis of mismatch repair in hereditary colorectal tumors

Immunohistochemistry (IHC) of mismatch repair (MMR) proteins in colorectal tumors together with microsatellite analysis (MSI) can be helpful in identifying families eligible for mutation analysis. The aims were to determine sensitivity of IHC for MLH1, MSH2, and MSH6 and MSI analysis in tumors from known MMR gene mutation carriers; and to evaluate the use of tissue microarrays for IHC (IHC-TMA) of colon tumors in its ability to identify potential carriers of MMR gene mutations, and compare it with IHC on whole slides. IHC on whole slides was performed in colorectal tumors from 45 carriers of a germline mutation in one of the MMR genes. The TMA cohort consisted of 129 colon tumors from (suspected) hereditary nonpolyposis colorectal cancer (HNPCC) patients. Whole slide IHC analysis had a sensitivity of 89% in detecting MMR deficiency in carriers of a pathogenic MMR mutation. Sensitivity by MSI analysis was 93%. IHC can also be used to predict which gene is expected to harbor the mutation: for MLH1, MSH2, and MSH6, IHC on whole slides would have correctly predicted the mutation in 48%, 92%, and 75% of the cases, respectively. We propose a scheme for the diagnostic approach of families with (suspected) HNPCC. Comparison of the IHC results based on whole slides versus TMA, showed a concordance of 85%, 95%, and 75% for MLH, MSH2, and MSH6, respectively. This study therefore shows that IHC-TMA can be reliably used to simultaneously screen a large number of tumors from (suspected) HNPCC patients, at first in a research setting.     

Germline mutations in MLH1, MSH2 and MSH6 in Korean hereditary non-polyposis colorectal cancer families

Hereditary non-polyposis colorectal cancer (HNPCC), the most common hereditary colon cancer syndrome, is a dominant disorder caused by germline defects in mismatch repair (MMR) genes. Identification of MMR gene mutations can have direct clinical implications in counseling and management of HNPCC families. We screened 44 HNPCC and 97 suspected HNPCC Korean families for germline mutations in three MMR genes: MLH1, MSH2 and MSH6. We identified twelve novel mutations: nine in MLH1(c.632_633insT, c.808_811delACTT, c.845C>G, c.1625A>C, c.1730+1delG, c.1907T>C, c.1918C>T, c.2104-2A>G and c.2170T>A), two in MSH2 (c.1886A>G, c.1316_1318delCCT) and one in MSH6 (c.3488A>T). In addition, two statically significant cSNPs in MLH1: c.1128T>C ( p=0.008 in HNPCC and p=0.037 in early-onset CRC) and c.2168C>A ( p<0.001 in HNPCC). Interestingly, the most frequent mutation, c.1757_1758insC in MLH1, was a founder mutation inherited from a common Korean ancestor.     

PAX6 gene variations associated with aniridia in south India

Background

Hereditary non-polyposis colorectal cancer (HNPCC) is an autosomal dominant disease with a high risk for colorectal and endometrial cancer caused by germline mutations in DNA mismatch-repair genes (MMR). HNPCC accounts for approximately 2 to 5% of all colorectal cancers. Here we present 6 novel mutations in the DNA mismatch-repair genes MLH1, MSH2 and MSH6.

Methods

Patients with clinical diagnosis of HNPCC were counselled. Tumor specimen were analysed for microsatellite instability and immunohistochemistry for MLH1, MSH2 and MSH6 protein was performed. If one of these proteins was not detectable in the tumor mutation analysis of the corresponding gene was carried out.

Results

We identified 6 frameshift mutations (2 in MLH1, 3 in MSH2, 1 in MSH6) resulting in a premature stop: two mutations in MLH1 (c.2198_2199insAACA [p.N733fsX745], c.2076_2077delTG [p.G693fsX702]), three mutations in MSH2 (c.810_811delGT [p.C271fsX282], c.763_766delAGTGinsTT [p.F255fsX282], c.873_876delGACT [p.L292fsX298]) and one mutation in MSH6 (c.1421_1422dupTG [p.C475fsX480]). All six tumors tested for microsatellite instability showed high levels of microsatellite instability (MSI-H).

Conclusions

HNPCC in families with MSH6 germline mutations may show an age of onset that is comparable to this of patients with MLH1 and MSH2 mutations.     

DGGE screening of mutations in mismatch repair genes (hMSH2 and hMLH1) in 34 Swedish families with colorectal cancer

Hereditary non-polyposis colorectal cancer (HNPCC) is an autosomal dominantly inherited syndrome which confers an increased risk for colorectal cancer and endometrial cancer as well as other tumors. It is caused by germline DNA mismatch repair (MMR) gene mutations in five MMR genes, hMSH2, hMLH1, hPMS1, hPMS2 and hMSH6. Finding mutations in these high risk families means that you can offer presymptomatic carrier diagnosis and thereby identify individuals with a very high risk for cancer. These persons benefit from counseling and should be offered surveillance. We have used DGGE to screen members from 34 families for mutations in hMLHl and hMSH2. Six mutations in five families were found, five of these mutations are new. Besides, three new polymorphisms were identified. The mutations were found in two of seven Amsterdam criteria HNPCC families and in three of four families with at least one case of early onset of CRC (before 35), suggesting there are apporopriate families to be chosen for mutation screening in MMR genes.     

Compound heterozygosity for two MSH6 mutations in a patient with early onset of HNPCC-associated cancers, but without hematological malignancy and brain tumor

Heterozygous germline mutations in the human mismatch repair (MMR) genes MLH1, PMS2, MSH2 and MSH6 predispose to the hereditary non-polyposis colorectal cancer (HNPCC) syndrome. Biallelic mutations in these genes have been reported for a limited number of cases resulting in hematological malignancies, brain tumors and gastrointestinal tumors early in childhood. These tumor phenotypes are frequently associated with café-au-lait spots (CALS), one of the clinical hallmarks of neurofibromatosis type 1 (NF1). We report the first case of compound heterozygosity for two MSH6 mutations resulting in a nonconservative amino-acid change of a conserved residue and in a premature stop codon in a patient who developed rectal and endometrial cancer at ages 19 and 24 years, respectively, and presented few CALS in a single body segment. Immunohistochemistry and Western blotting revealed only residual expression of the MSH6 protein in the normal cells. The disease history resembles the HNPCC phenotype rather than a phenotype associated with biallelic MMR gene mutations. Therefore, we assume that one or both mutations abolish protein function only partially, further supported by the parents, which are both carriers of one of the mutations each, and not affected by the disease at ages 57 and 58 years. Our data suggest considering biallelic mutations in MMR genes for patients who develop HNPCC-associated tumors at an unusually young age of onset, even without hematological or brain malignancies.     

错配修复蛋白表达及RAS基因突变与结直肠癌临床病理特征的关系

目的 探讨结直肠癌组织中错配修复(mismatch repair,MMR)蛋白表达及RAS基因突变状态与临床病理特征的相关性.方法 采用免疫组化法检测186例结直肠癌组织中4种MMR蛋白(MSH2、MSH6、MLH1、PMS2)的表达,并采用ARMS-PCR法检测RAS基因突变状态.结果 186例结直肠癌组织中MMR蛋...     

Strategies for screening for hereditary non-polyposis colorectal cancer

Germline mutations in DNA mismatch repair genes (MLH1, MSH2, PMS1, PMS2, and MSH6) predispose to hereditary non-polyposis colorectal cancer (HNPCC). In the absence of pathognomonic clinical features, diagnosis of HNPCC is often based on family history. Microsatellite instability (MSI) analysis has successfully been used for screening colorectal cancer patients for HNPCC. The aim of this study was to evaluate the feasibility of a recently introduced logistical model based on family history data in detecting HNPCC patients with germline mutations. A series of 509 kindreds with a proband with colorectal cancer was studied. MSI analysis and subsequent germline mutation analysis (MLH1 and MSH2) in MSI positive patients had been performed previously. Of the 509 patients, 63 (12%) were MSI positive and 10 (2%) had a germline mutation in MLH1 or MSH2. The power of the logistical model was tested to determine its value in predicting the probability of a germline mutation. The model proposed a high probability in three out of 10 mutation positive cases when data on cancer in first degree relatives were considered (typically three generation pedigrees, consisting, on average, of eight people). Using extended pedigrees and family cancer data in the 10 mutation positive kindreds (an average of 38 family members available), the model suggested high probabilities in seven out of 10 mutation positive cases. We conclude that for the model to predict germline mutation cases, extensive pedigrees and family history data are required. When screening colorectal cancer patients for HNPCC, a model using a combination of family information and MSI has optimal specificity and sensitivity.     

Microsatellite instability and expression of MLH1 and MSH2 in normal and malignant endometrial and ovarian epithelium in hereditary nonpolyposis colorectal cancer family members.

Mismatch repair deficiency is a characteristic molecular finding in hereditary nonpolyposis colorectal cancer (HNPCC), and has been demonstrated in both colorectal cancers and benign adenomas. Endometrial and ovarian cancers are common extracolonic tumors in this syndrome; however, few studies have investigated whether genetic changes occur in histologically normal endometrial and ovarian epithelia from HNPCC family members. If early genetic changes exist, they might be used as molecular markers to detect susceptibility to endometrial and ovarian cancers. In this study, we analyzed microsatellite instability (MSI) and MLH1 and MSH2 immunohistochemical expression in 20 histologically normal epithelia (12 endometrial and 8 ovarian) and 8 cancers (4 endometrial and 4 ovarian) obtained from 20 individuals representing 7 unrelated HNPCC families. While MSI was observed in endometrial (75%) and ovarian (100%) cancers, no case was determined to exhibit MSI in histologically normal epithelia of the endometrium or ovary. Similarly, in immunohistochemical expressions for MLH1 and MSH2, histologically normal epithelia had no genetic changes predisposing to malignancy. In cancer cases, a correlation existed between the expression of MLH1 and MSH2, the presence of germline mutations in the hMLH1 and hMSH2 genes, and the presence of tumor MSI. These data suggest that MSI and MLH1 and MSH2 expression are not useful biomarkers for the early detection of endometrial and ovarian malignancy in cancer-unaffected HNPCC germline mutation carriers. Further studies of other genetic changes in normal and premalignant precursor lesions are needed.