Frequent MSI Mononucleotide Markers for Diagnosis of Hereditary Nonpolyposis Colorectal Cancer

Background: Failure in the DNA mismatch repair system is commonly accompanied by microsatellite instability and leads to colorectal cancer. The aim of this study was to find the most frequent of five mononucleotide markers in order to devise the simplest diagnostic strategy for identification of patients with hereditary nonpolyposis colorectal cancer (HNPCC) who were defined by defects in mismatch repair system. Materials and Methods: 78 patients with colorectal cancer were recruited for this investigation. Five mononucleotide markers, NR-27, NR-21, NR-24, BAT-25 and BAT-26, were used as a pentaplex panel to determine MSI status. Results: Two out of five mononucleotide markers, NR-21 (25.6%) and BAT-25 (23.1%) showed more instability than the others. Conclusion: In defining individuals with colorectal cancer, BAT25 and NR-21 may provide diagnostic assistance.     

Screening for Lynch Syndrome in Young Colorectal Cancer Patients from Saudi Arabia Using Microsatellite Instability as the Initial Test

Background: Lynch Syndrome (LS) is a familial cancer condition caused by germline mutations in DNA mismatch repair genes. Individuals with LS have a greatly increased risk of developing colorectal cancer (CRC) and it is therefore important to identify mutation carriers so they can undergo regular surveillance. Tumor DNA from LS patients characteristically shows microsatellite instability (MSI). Our aim here was to screen young CRC patients for MSI as a first step in the identification of unrecognized cases of LS in the Saudi population. Materials and Methods: Archival tumor tissue was obtained from 284 CRC patients treated at 4 institutes in Dammam and Riyadh between 2006 and 2015 and aged less than 60 years at diagnosis. MSI screening was performed using the BAT-26 microsatellite marker and positive cases confirmed using the pentaplex MSI analysis system. Positive cases were screened for BRAF mutations to exclude sporadic CRC and were evaluated for loss of expression of 4 DNA mismatch repair proteins using immunohistochemistry. Results: MSI was found in 33/284 (11.6%) cases, of which only one showed a BRAF mutation. Saudi MSI cases showed similar instability in the BAT-26 and BAT-25 markers to Australian MSI cases, but significantly lower frequencies of instability in 3 other microsatellite markers. Conclusions: MSI screening of young Saudi CRC patients reveals that approximately 1 in 9 are candidates for LS. Patients with MSI are strongly recommended to undergo genetic counselling and germline mutation testing for LS. Other affected family members can then be identified and offered regular surveillance for early detection of LS-associated cancers.     

筛查结直肠癌DNA错配修复基因缺失的方法分析

目的:通过对筛查结直肠癌DNA错配修复(mismatch repair,MMR)基因缺失两种最常用的检测方法的分析,寻找更为经济有效的检测策略。方法:分析新疆医科大学第一附属医院2018年9月至2019年9月收治并行手术的结直肠癌患者的肿瘤组织223例,采用免疫组织化学法检测平台检测MLH1、MSH2、PMS2、MSH6的表达缺失情况,PCR-毛细管电泳法检测肿瘤微卫星不稳定(microstatellites instability,MSI)状态。结果:在223例结直肠癌中,27例(12.1%)MMR蛋白表达缺失(MMR deficiency,dMMR),196例(87.9%)MMR蛋白表达完整(MMR proficient,pMMR)。MLH1、MSH2、MSH6和PMS2的缺失率分别为9.0%(20/223)、1.8%(4/223)、2.7%(6/223)和9.4%(21/223)。包含PMS2和MSH6的2种抗体试验筛查dMMR结直肠癌的灵敏度和特异度与4种抗体试验(MLH1、MSH2、PMS2、MSH6)的灵敏度和特异度均相同。微卫星高度不稳定(MSI-high,MSI-H)27例(12.1%),微卫星稳定(microsatellite stable,MSS)196例(87.9%),无微卫星低度不稳定(MSI-low,MSI-L)。BAT-25、BAT-26、NR-21、NR-24、NR-27、MONO-27共6个位点的灵敏度分别为88.9%、92.6%、96.3%、70.4%、92.6%、77.8%。将MSI定义为3种标记(NR-21、NR-27、BAT-26)至少有1处不稳定时,得出的结果与6种标记组(BAT-25、BAT-26、NR-21、NR-24、NR-27、MONO-27)完全相同。结论:简化的两种检测方案为结直肠癌dMMR/MSI的鉴定提供了更为简便、可靠、价格低廉的方法。     

BAT-26 microsatellite instability does not correlate with the loss of hMLH1 and hMSH2 protein expression in sporadic endometrial cancers

Microsatellite instability (MSI) is detected in about 20-25% of endometrial cancers (ECs). Incidence of this alteration correlates with lack of expression of certain mismatch repair genes such as hMLH1 and hMSH2. Although assessment of several markers has been proposed for identification of microsatellite unstable tumours, BAT-26, a mononucleotide microsatellite repeat, has been shown to be highly efficient when used as a single marker. The aim of the study was to evaluate instability within BAT-26 and expression of hMLH1 and hMSH2 proteins in sporadic endometrial cancer as well as to correlate these findings with histopathologic and clinical characteristics of tumours. Samples of 88 (74 endometrioid and 14 non-endometrioid) ECs were investigated for instability within BAT-26 by means of PCR and expression of hMLH1 and hMSH2 proteins using immunohistochemistry. BAT-26 MIS was discovered in 23.9% of endometrial cancers. Incidence of MSI did not correlated with grade, stage or depth of invasion. BAT-26 MSI was more frequent in non-endometrioid compared to endometrioid tumours (35.7% vs. 21.6%, respectively), but the difference was not statistically significant. Lack of hMLH1 and hMSH2 protein expression was detected in 21.6 and 15.9% of ECs, respectively, and did not correlate with clinicopathologic features of tumours. Loss of both hMLH1 and hMSH2 protein expression was similar in BAT-26 stable and unstable cancers. All cases of non-endometrioid tumours with BAT-26 MSI were positive for hMLH1. We can conclude that BAT-26 used alone may not be a reliable marker for identification of sporadic ECs with microsatellite instability induced by deficient expression of hMLH1 and hMSH2.     

Evidence of tumor microsatellite instability in gastric cancer with familial aggregation

About 90% of gastric cancer (GC) cases appear in a sporadic setting. Nonetheless, in high incidence areas high familial aggregation rates have been recently described. Microsatellite instability (MSI) is thought to be an important molecular phenotype both in sporadic GC and in tumors of the HNPCC spectrum. The aim of this study was to assess the frequency of MSI in GC with familial aggregation. Five quasimonomorphic mononucleotide repeats (BAT-26, BAT-25, NR-24, NR-21 and NR-27) were analyzed in 250 GC patients. Seventy-five patients (30%) had at least one-first-degree family member affected by GC and 63 patients (25.2%) showed MSI. The frequency of MSI was significantly higher in patients with a positive family history of GC (38.7%) compared to patients with other tumor types within the family (15.7%) or with a negative oncological familial history (21.9%, P = 0.004). Within cases with a positive familial oncological history, the MSI frequency in families with GC only was similar to the one observed in families with GC and colon cancer (P = 0.96). Nonetheless, in families with GC and lung cancer, the frequency of MSI was significantly lower (5.6%, P = 0.007). MSI occurs in GCs with familial aggregation. Similar MSI rates have been observed in GC patients with other family members affected by GC or colon cancer. The same does not occur in families with other members affected by lung cancer. Our data seem to suggest that familial aggregation for either GC alone or gastric and colon cancer share common etiological factors in contrast to families with gastric and lung cancers. C. Pedrazzani and G. Corso are contributed equally.     

散发性结直肠癌中微卫星不稳定性及临床病理意义

目的通过微卫星位点BAT-25和BAT-26的分析,观察散发性结直肠癌原发和转移灶中微卫星不稳定性（MSI）的阳性率,并探讨其与临床病理参数的关系。方法收集73例结直肠癌原发灶和53例转移灶石蜡标本,分离基因组DNA,通过荧光标记多重PCR法扩增微卫星位点BAT-25和BAT-26;应用全自动DNA测序仪和GeneScan 3．1软件进行片段分析,观察这2个位点重复序列长度的变化。以1例己知有MSI-H的遗传性非息肉病性结直肠癌（HNPCC）病例为阳性对照。结果73例散发性结直肠癌中,MSI的阳性率为15．1％,MSI与患者的性别、肿瘤发生部位、分化程度和预后有关（P〈0．05）;53例转移患者中,转移灶的MSI阳性率（17．0％）略高于原发灶（13．2％）,差异无统计学意义（P〉0．05）,但有2例原发灶MSI阴性,转移灶MSI阳性。结论散发性大肠癌中MSI是一个常见的分子事件;MSI可作为临床判断大肠癌恶性程度、预后等的重要参考指标,根据MSI对散发性结直肠癌进行分类有重要的理论和实际意义;MSI在部分散发性大肠癌的转移中可能起一定的作用。     

Evaluation of MT1XT20 Single Quasi-Monomorphic Mononucleotide Marker for Characterizing Microsatellite Instability in Persian Lynch Syndrome Patients

Background: Colorectal malignancies with high microsatellite instability (MSI-H), either hereditary (Lynch syndrome) or sporadic, demonstrate better prognosis and altered response to 5FU chemotherapy. It is now recommended to perform MSI testing for all new cases of colorectal cancer regardless of being categorized as hereditary or sporadic. For MSI detection, immunohistochemistry or PCR-based protocols using a cohort of various sets of STR markers are recommended. Here we aimed to evaluate a simplified protocol using just a single STR marker, MT1XT20 mononucleotide repeat, for detection of MSI in Lynch syndrome patients. A Promega five-marker MSI testing panel and immunohistochemistry (IHC) were used as the gold standard in conjunction with MT1XT20. Materials and Methods: Colorectal patients with a positive history of familial cancers were selected by evaluating medical records. Based on Amsterdam II criteria for Lynch syndrome 20 families were short listed. DNA was extracted from formalin fixed paraffin embedded tumour and adjacent normal tissues resected from the index case in each family. Extracted DNA was subjected to MT1XT20 mononucleotide marker analysis and assessment with a commercially available five marker MSI testing kit (Promega, USA). IHC also was performed on tissue sections and the results were compared with PCR based data. Results: Eight (40%), seven (35%) and five (25%) cases were MSI positive using with the Promega kit, IHC and MT1XT20, respectively. Among the markers included in Promega kit, BAT26 marker showed instability in all 8 samples. NR24 and NR21 markers showed instability in 7 (87.5%), and BAT25 and MONO 27 in 6 (75%) and 5 (62.5%). Conclusions: Although MT1XT20 was earlier reported as a valid standalone marker for MSI testing in CRC patients, we could not verify this in our Iranian patients. Instead BAT26 among the markers included in Promega MSI testing kit showed instability in all 8 MSI-H CRC samples. Therefore, it seems BAT26 could act well as a single marker for MSI testing in Iranian CRC patients.     

Microsatellite instability testing in Korean patients with colorectal cancer

Microsatellite instability (MSI) testing is useful for identifying patients with hereditary nonpolyposis colorectal cancer and detecting sporadic colorectal cancer that develops through replication error pathways. A pentaplex panel is recommended by the National Cancer Institute for MSI testing, but simplified mononucleotide panels and immunohistochemistry of mismatch repair proteins are widely employed for convenience. This study was to evaluate the MSI status of colorectal cancer in Korean patients. This study included 1,435 patients with colorectal adenocarcinoma subjected to surgical resection. The pentaplex Bethesda panel was used for MSI testing. Seventy nine (5.5?%) carcinomas were classified as MSI-high (MSI-H) and 95 (6.6?%) as MSI-low (MSI-L). BAT-26 and BAT-25 were unstable in 73 and 75 of 79 MSI-H carcinomas, respectively. With the panel comprising these 2 mononucleotide markers, 72 carcinomas were diagnosed as MSI-H, compared to the Bethesda panel data (72/79, 91.1?%). In contrast, BAT-26 or BAT-25 were unstable in only 7 (7.4?%) of the 95 MSI-L tumors. In the panel with 2 dinucleotide markers, D17250 linked to p53 and D2S123 to hMSH2, detection rates were 89.9?% (71/79) for MSI-H and 80.0?% (76/95) for MSI-L carcinomas, compared to the Bethesda panel. Moreover, we compared the frequency of MSI tumor in our patients with those reported previously from Western countries. In conclusion, the frequency of MSI-H appears lower in colorectal cancer patients in Korea. A simplified panel for MSI testing with BAT-26 and BAT-25 seems not effective for the accurate evaluation of MSI status, particularly in MSI-L colorectal carcinomas, in our patients.     

Fluorescent-based BAT-26 analysis for distinct screening of microsatellite instability in colorectal cancers

For easy screening of genetic instability in colorectal cancers, we tried BAT-26 and BAT-25 mononucleotide repeats using fluorescent analysis and evaluated their usefulness and problems compared with other markers: D5S346, D17S250, D2S123, and D2S391, D4S392 (located near BAT-26 and BAT-25 respectively). The high-frequency of MSI (MSI-H) tumours, defined as tumours having instability in more than two markers, were detected in 8/146 (5.5%). These MSI-H cases were younger ages at diagnosis, and showed significantly higher incidences of right side location, and poorly differentiated histology than other cases (p<0.05). Four cases (2.7%) showed a 1 bp size shift in BAT-26 and 2 of them showed loss of heterozygosity (LOH) at D2S391 near BAT-26 locus. Among 9 cases with a 1 bp size shift in BAT-25, 6 cases showed LOH at D4S392 near the BAT-25 locus (p=0.035). In all 4 cases, non-cancerous DNA had two analogous peaks of BAT-26, indicating the heterozygosity of BAT-26 in constitutional DNA. This phenomenon was also detected in the peaks of BAT-25 in some cases, in whose constitutional DNAs, 1 bp size shift was also detectable in three other markers. To elucidate the reasons for the alterations of the 1 bp size shift of peak of these markers, we examined by microsatellite analysis mixed samples of tumour DNA with complete loss of the one allele at the 1p loci and each constitutional DNA sample of neuroblastoma patients. One base shift of the peak signal of the microsatellite marker was clearly obtained in proportion to the ratio of cancerous DNA and constitutional DNA. Fluorescent-based analysis of BAT-26 or BAT-25 was easy and useful for detection of MSI-H in colorectal cancers without analyzing non-cancerous DNA. A 1 bp size shift in BAT-26 or BAT-25 was considered to be affected by LOH at these loci. Thus, it is important to distinguish MSI from LOH to evaluated MSI using these markers.     

Allelic variation of BAT-25 and BAT-26 mononucleotide repeat loci in tumours from a group of young women with breast cancer

Genomic instability in the form of repeat number variation at microsatellite loci has been reported in several human cancers. To resolve current confusion regarding frequency of microsatellite instability (MSI), standardised protocols have proposed use of a consensus set of informative loci; it is claimed that analysis of 2 apparently quasi-homozygous, quasi-monomorphic, mononucleotide repeats (BAT-25 and BAT-26) is sufficiently accurate to define MSI (obviating need for corresponding constitutive DNA). We examined these loci in 163 breast cancers, 108 of which had previously been analysed at 11-24 other loci and found to have MSI in 38% of them. For BAT-26 only 1/153 (homozygous) tumours showed a contracted allele, with minor size variations (1-6 bp) between individuals. For BAT-25 repeat contractions were unambiguously observed in 12 (7.4%) tumours; only 4 of these were previously designated MSI+. DNA from normal individuals showed significant allelic variation in 8/159 (5%) cases for BAT-25; no instance of heterozygosity was seen for BAT-26. Subsequently, we analysed normal DNA from the 12 individuals whose tumours had MSI at BAT-25; in 2 cases there was germline heterozygosity. We conclude that analysis with BAT-26 (in contrast to other loci) was not a useful detector of MSI. With BAT-25, a low frequency of MSI not much greater than germline polymorphism, also limits the utility of this marker for determining MSI in breast cancer.     

散发性结直肠癌中微卫星不稳定研究及其临床病理意义

目的检测散发性结直肠癌(SCRC)中的微卫星不稳定状态,并探讨其与临床病理特征的关系。方法应用荧光标记多重PCR法扩增微卫星位点BAT-25和BAT-26,将PCR扩增产物在荧光毛细管中进行电泳,以GenScan3.1软件扫描分析两个微卫星位点状况。结果112例SCRC患者中,BAT-25和BAT-26两个位点均阳性者14例,MSI-H发生率为12.5(14/112);BAT-25单位点阳性者4例,BAT-26单位点阳性者6例;两个位点均阴性者88例,MSS发生率为78.6。SCRC中MSI-H和MSS两组的比较显示:MSI-H者发病部位以近端结肠癌多见(P=0.034),组织学类型以黏液腺癌、印戒细胞癌相对多见(P=0.023),分化程度以低分化癌多见(P=0.039),而MSI-H与MSS两者在性别、年龄、肿瘤浸润深度、淋巴结转移、远处转移等方面差异无统计学意义。结论SCRC中微卫星不稳定是一个常见的分子事件,微卫星不稳定的SCRC好发于右半结肠,具有低分化的倾向。     

DNA variants of BAT-25 in Japanese, a locus frequently used for analysis of microsatellite instability

BAT-25 is a DNA marker, intragenic to the c-kit protooncogene, assigned to 4q12, containing a polythymine tract, mostly repeats of 25 poly(T) (T25). The BAT-25 locus is frequently used in the analysis of microsatellite instability (MSI) in cancer tissues. The number of poly(T) repeats at BAT-25 is reported to be quasi-monomorphic and this property permits the easy identification of the MSI status. We report DNA variants of BAT-25, in one patient with hereditary nonpolyposis colorectal cancer presenting T21 and T25 alleles and another carrying T18 and T25 alleles in the analysis of 100 normal Japanese donors. Observed allelic frequencies were 0.5% for both T21 and T18 alleles. So far, DNA variants of BAT-25 locus have been reported in African Americans with relatively high frequencies, but not in Japanese.     

Detection of microsatellite instability in endometrial cancer: advantages of a panel of five mononucleotide repeats over the National Cancer Institute panel of markers

The aim of this study was to find the optimal set of microsatellite markers for diagnosis of the microsatellite instability (MSI) phenotype in endometrial cancers. We compared the sensitivity, specificity and ease of use of a reference panel of five markers originally recommended by the National Cancer Institute (NCI) for colorectal cancer and a panel of five quasi-monomorphic mononucleotide repeat markers (pentaplex PCR system). We used these panels for establishing the MSI status of a series of 80 sporadic endometrial adenocarcinomas by comparing the allelic profiles of the markers between tumor and matching germline DNA. Both panels detected the same subset of 21 out of 80 (26%) endometrial MSI carcinomas. However, in the MSI cases, the mean instability of the five mononucleotide repeats was 96.1% as compared with a mean instability of 69.8% for the three dinucleotide repeats of the NCI panel, indicating a superiority of mononucleotide repeats over dinucleotide repeats in detecting MSI. The fact that the two panels of markers detect the same set of MSI tumors is due to the presence of two mononucleotide repeats within the NCI panel. As demonstrated previously in gastric and colon MSI cases, the pentaplex PCR reaction using mononucleotide repeats is thus an easier and more sensitive method than the NCI panel, for the screening of MSI status in endometrial tumors.     

Mononucleotide repeats BAT-26 and BAT-25 accurately detect MSI-H tumors and predict tumor content: implications for population screening

Tumors with a defective DNA mismatch repair system (MSI-H tumors) have distinct molecular and clinicopathologic profiles compared with mismatch repair-proficient tumors and are associated with a relatively favorable prognosis. There is evidence to suggest that colorectal cancer patients with MSI-H tumors respond differently to adjuvant chemotherapy. Determination of MSI status also has clinical application for assisting in the diagnosis of suspected hereditary nonpolyposis colorectal cancer cases. For these reasons, it is becoming increasingly apparent that testing for MSI should be conducted routinely in human cancer types that frequently present with such a phenotype. BAT-26 and BAT-25 are mononucleotide repeats that are widely used to establish the MSI status of human tumors. We show here that their allelic size profiles provide an estimate of the percentage of contaminating normal cells in MSI-H tumors. These markers are sensitive enough to detect instability when the tumor cell content of a sample is as low as 5-10%. MSI-H tumors contain mutations in coding repeats within genes known to be targets for instability. In cases with low tumor cell content, no mutations in any of 9 coding repeats were detected. However, when these samples were enriched for tumor cells, mutations were detected in the same target genes. Thus, BAT-26 and BAT-25 markers accurately identify MSI-H tumors without prior need for enrichment for tumor cells and indicate which samples require further purification before screening for mutations in target genes for instability. Our results have implications for large-scale screening of cancer patients to determine MSI-H status and prognosis.     

Microsatellite instability testing in colorectal carcinoma: choice of markers affects sensitivity of detection of mismatch repair-deficient tumors.

PURPOSE: Microsatellite instability (MSI) is found in 10% to 15% of sporadic colorectal tumors and is usually caused by defects in DNA mismatch repair (MMR). In 1997, a panel of microsatellite markers including mononucleotide and dinucleotide repeats was recommended by a National Cancer Institute workshop on MSI. We investigated the relationship between instability of these markers and MMR protein expression in a cohort of sporadic colorectal cancer patients. EXPERIMENTAL DESIGN: Paraffin sections of normal and tumor tissue from 262 colorectal cancer patients were examined for MSI status by PCR amplification and for MMR protein expression using antibodies against hMLH1, hPMS2, hMSH2, and hMSH6. RESULTS: Twenty-six (10%) of the patients studied had tumors with a high level of MSI (MSI-H). The frequencies of MSI were the same in African-American and Caucasian patients. Each of the MSI-H tumors had mutations in both mononucleotide and dinucleotide repeats and had loss of MMR protein expression, as did two tumors that had low levels of MSI (MSI-L). These two MSI-L tumors exhibited mutations in mononucleotide repeats only, whereas eight of the other nine MSI-L tumors had mutations in just a single dinucleotide repeat. There was not a statistically significant difference in outcomes between patients whose tumors were MMR-positive or MMR-negative, although there was a slight trend toward improved survival among those with MMR-deficient tumors. CONCLUSIONS: The choice of microsatellite markers is important for MSI testing. Examination of mononucleotide repeats is sufficient for detection of tumors with MMR defects, whereas instability only in dinucleotides is characteristic of MSI-L/MMR-positive tumors.     

T25 repeat in the 3' untranslated region of the CASP2 gene: a sensitive and specific marker for microsatellite instability in colorectal cancer

DNA mismatch repair deficiency is observed in about 10% to 15% of all colorectal carcinomas and in up to 90% of hereditary nonpolyposis colorectal cancer (HNPCC) patients. Tumors with mismatch repair defects acquire mutations in short repetitive DNA sequences, a phenomenon termed high-level microsatellite instability (MSI-H). The diagnosis of MSI-H in colon cancer is of increasing relevance, because MSI-H is an independent prognostic factor in colorectal cancer, seems to influence the efficacy of adjuvant chemotherapy, and is the most important molecular screening tool to identify HNPCC patients. To make MSI typing feasible for the routine pathology laboratory, highly reproducible and cost effective laboratory tests are required. Here, we describe a novel T25 mononucleotide marker in the 3'untranslated region of the CASP2 gene (CAT25) that displayed a quasimonomorphic repeat pattern in normal tissue of 200 unrelated individuals of Caucasian origin. In addition, CAT25 was monomorphic also in all tested donors of African and Asian origin (n = 102 and n = 79, respectively) and thus differs from the most commonly used markers BAT25 and BAT26. Without the analysis of corresponding normal tissue, CAT25 correctly detected 56 of 57 colorectal cancer specimens classified as MSI-H by using the standard National Cancer Institute/International Collaborative Group-HNPCC marker panel. Combined with the standard markers BAT25 and BAT26 in a multiplex PCR, all MSI-H colorectal cancer samples were typed correctly. No false-positive results were obtained in 60 non-MSI-H control colorectal cancer specimens. These data suggest that CAT25 should be included into novel marker panels for microsatellite testing thus allowing for a significant reduction of the complexity and costs of MSI typing. Moreover, CAT25 represents a highly promising marker for early detection of colorectal cancer in HNPCC germ line mutation carriers.     

Minisatellite instability is found in colorectal tumours with mismatch repair deficiency.

Microsatellite instability (MSI) in colorectal tumours is demonstrated by PCR amplification of several different microsatellite loci. Minisatellites, which are repeats of longer sequences also found throughout the genome, may also be affected by tumorigenesis. Certain minisatellite alleles contain 2 types of similar repeat unit that are randomly interspersed. The interspersion pattern can be analysed by mapping variant repeat units along an amplified allele, minisatellite variant repeat unit mapping PCR (MVR-PCR). We have applied microsatellite analysis with 10 markers and MVR-PCR for locus D7S21 to 33 cases of colorectal neoplasia, 27 sporadic and 6 from patients suspected of having hereditary non-polyposis colorectal cancer (HNPCC). Of the 27 sporadic cases, 3 were MSI-high on microsatellite analysis and one MSI-low. Instability with MVR-PCR was observed, but only in the MSI-high cases. Four of the HNPCC patients had mismatch repair (MMR) gene mutations in either hMLH1 or hMSH2. All 4 had DNA instability by MVR-PCR, but only two of these had MSI (one high, one low). The other 2 of the 6 patients with suspected HNPCC were negative to mutation analysis. One had features strongly suggestive of HNPCC and was unstable by both microsatellite analysis (MSI-high) and by MVR-PCR. The other tumour, from an Amsterdam criteria positive kindred, did not demonstrate instability by any technique. Thus MVR-PCR detects DNA instability in MSI-high sporadic tumours and in those associated with HNPCC where MSI is observed. Further, in some MMR mutation positive cases MSI was not seen but instability was observed by MVR-PCR. MVR-PCR may be a valuable adjunct to the detection of MMR deficiency in colorectal tumours and it may allow new insights into the nature of DNA instability in this condition.     

Proficiency of DNA repair genes and microsatellite instability in operated colorectal cancer patients with clinical suspicion of lynch syndrome

Background

Lynch syndrome (LS) diagnosis is underestimated, and most of the patients remain undetected after colorectal resections. The study aims to assess the frequency of LS in patients undergoing surgical treatment for colorectal cancer (CRC).

Methods

A total of 458 CRC patients were operated from January 2005 to December 2008. Positive CRC family history (FH) was present in 118 (25.8%) patients. Histologic sections were reviewed for microsatellite instability (MSI) criteria (Bethesda guidelines), immunohistochemical (IHC) analysis for MLH1, MSH2, MSH6, PMS2 proteins, through the avidin-biotin-peroxidase complex, MSI (BAT-25, BAT-26, NR-21, NR-24 and MONO-27) and BRAF somatic mutation.

Results

Of the 118 patients with FH, 61 (51.69%) met at least one of the revised Bethesda criteria. IHC was abnormal in 8 (13.1%) and MSI in 12 patients (20%). BRAF was negative in all cases. MSI histopathological included: intratumoral lymphocytes (47.5%), expansive tumors (29.5%) mucinous component (27.8%) and Crohn’s like reaction in (14.7%). There was an association between the revised Bethesda criteria with: sex, mucinous histology and Crohn’s like reaction; MSI and IHC with PMS2 and MLH1. Revised Bethesda criteria 4 had 10.6 increased chances to display positive MSI. We have proposed a score to contribute as a practical tool in the diagnosis of LS.

Conclusions

The frequence of LS in resected CRC patients was 2.6%. The criterion 4 Revised Bethesda was associated more strongly with the presence of MSI.     

Mutations of the 'minor' mismatch repair gene MSH6 in typical and atypical hereditary nonpolyposis colorectal cancer

Mutations of the mismatch repair (MMR) genes MLH1 and MSH2 are associated with hereditary nonpolyposis colorectal cancer (HNPCC), a highly penetrant autosomal dominant condition characterized by hypermutability of short tandemly repeated sequences in tumor DNA. Mutations of another MMR gene, MSH6, seem to be less common than MLH1 and MSH2 defects, and have been mostly observed in atypical HNPCC families, characterized by a weaker tumor family history, higher age at disease onset, and low degrees of microsatellite instability (MSI), predominantly involving mononucleotide runs. We have investigated the MSH6 gene sequence in the peripheral blood of 4 HNPCC and 20 atypical HNPCC probands. Two frameshift mutations within exon 4 were detected in 2 patients. One mutation was found in a proband from a typical HNPCC family, who had developed a colorectal cancer (CRC), a gastric cancer and a rectal adenoma. The CRC and the adenoma showed mild MSI limited to mononucleotide tracts, while the gastric carcinoma was microsatellite stable. The other mutation was detected in an atypical HNPCC proband, whose CRC showed widespread MSI involving both mono- and dinucleotide repeats. The phenotypic variability associated with MSH6 constitutional mutations represents a complicating factor for the optimization of strategies aimed at identifying candidates to MSH6 genetic testing.