High-frequency microsatellite instability and BRAF mutation (V600E) in unselected Serbian patients with colorectal cancer

Microsatellite instability (MSI) is a genetic consequence of a MisMatch Repair defect in colorectal cancer (CRC). We compared clinicopathohistological features with MSI status of CRC and evaluated prognostic significance of MSI status and BRAF mutation in the group of MSI-H tumors. 155 primary CRCs were excised surgically, 2006–2008. MSI analysis was carried out using a fluorescence-based pentaplex polymerase chain reaction technique. BRAF mutation (V600E) was analyzed by direct sequencing in MSI-H tumors. For all patients were evaluated: age, gender, localization, tumor cell type, tumor differentiation, mucin production, lymphocytic infiltration (TILs) and TNM stage. Patients’ disease-free survival (DFS) was compared according to MSI and BRAF status using Kaplan–Meier test. Of the 155 CRCs, 19 (12.3%) were MSI-H, and 136 (87.7%) were MSS/L. BRAF mutations were found in 4 of the MSI-H tumors. Patients with MSI-H CRC had lower recurrence rate (log rank test; P = 0.04) than MSS/L group. Patients with MSI-H tumor and BRAF mutation had worse DFS than MSI-H tumors without this mutation (log rank test; P = 0.01). Most of the clinicopathologic characteristics of MSI-H CRC in Serbian patients are similar to those reported in previous studies. Patients with MSI tumor phenotype had favourable prognosis, but in those with BRAF mutation higher recurrence rate was observed.     

DNA mismatch repair,microsatellite instability and cancer

Mismatch (MMR) repair system plays a significant role in restoration of stability in the genome. Mutations in mismatch repair genes hamper their activity thus bring about a defect in mismatch repair (MMR) mechanism thereby conferring instability in the microsatellite sequences of both the coding and non-coding regions of the genome. Mutated mismatch repair genes result in the expansion or contraction of microsatellite sequence and confer microsatellite unstable or replication error positive phenotype. Hypermethylation of promoter regions of some of the MMR genes also causes inactivation of these genes and thus contribute to MSI. Microsatellite instability is an indicator of MMR deficiency and is a prime cause of varied tumorogenesis.     

错配修复基因与涎腺肿瘤的关系

错配修复(mismatch repair,MMR)是DNA复制后的一种修复机制,对维持基因组稳定起重要作用.错配修复基因功能缺陷是继癌基因激活、抑癌基因失活之后又一肿瘤的发生、发展机制,错配修复基因的异常表达与全身多种肿瘤相关.涎腺肿瘤为口腔颌面部常见肿瘤之一,具有与其他系统肿瘤相似的组织学类型,多来源于肌上皮.近年来,有关涎腺肿瘤与错配修复基因的关系正逐步成为研究热点,本文就错配修复基因的组成、作用机制以及与涎腺肿瘤发生、发展的关系作一综述.     

5-FU preferably induces apoptosis in BRAF V600E colorectal cancer cells via downregulation of Bcl-xL

Molecular and Cellular Biochemistry - Diallyl trisulfide (DATS) is distinguished as the most potent polysulfide isolated from garlic. The aim of our study was to investigate effects of oral...     

Clinicopathologic features in colorectal cancer patients with microsatellite instability

The microsatellite instability (MSI) mutational pathway is critical to carcinogenesis in a small but significant proportion of colorectal cancers. While MSI is identified in most cancers in individuals with hereditary non-polyposis colorectal cancer, the majority of MSI tumors are found in individuals with sporadic disease. Colorectal cancers arising as a result of MSI have distinct clinicopathologic features distinguishing them from those with microsatellite stability. MSI colorectal cancers affect a larger percentage of women, are usually localized proximal to the splenic flexure, and have a higher incidence of synchronous and metachronous tumors. They are associated with a mucinous histology, tumor-infiltrating lymphocytes, a Crohn's-like inflammatory response, and a higher grade but lower stage. Overall survival is better in individuals with MSI. The benefit of chemotherapy in MSI colorectal cancers, with and without lymph node metastases, remains unclear.     

MiRNA genes constitute new targets for microsatellite instability in colorectal cancer

Mismatch repair-deficient colorectal cancers (CRC) display widespread instability at DNA microsatellite sequences (MSI). Although MSI has been reported to commonly occur at coding repeats, leading to alterations in the function of a number of genes encoding cancer-related proteins, nothing is known about the putative impact of this process on non-coding microRNAs. In miRbase V15, we identified very few human microRNA genes with mono- or di-nucleotide repeats (n = 27). A mutational analysis of these sequences in a large series of MSI CRC cell lines and primary tumors underscored instability in 15 of the 24 microRNA genes successfully studied at variable frequencies ranging from 2.5% to 100%. Following a maximum likelihood statistical method, microRNA genes were separated into two groups that differed significantly in their mutation frequencies and in their tendency to represent mutations that may or may not be under selective pressures during MSI tumoral progression. The first group included 21 genes that displayed no or few mutations in CRC. The second group contained three genes, i.e., hsa-mir-1273c, hsa-mir-1303 and hsa-mir-567, with frequent (≥ 80%) and sometimes bi-allelic mutations in MSI tumors. For the only one expressed in colonic tissues, hsa-mir-1303, no direct link was found between the presence or not of mono- or bi-allelic alterations and the levels of mature miR expression in MSI cell lines, as determined by sequencing and quantitative PCR respectively. Overall, our results provide evidence that DNA repeats contained in human miRNA genes are relatively rare and preserved from mutations due to MSI in MMR-deficient cancer cells. Functional studies are now required to conclude whether mutated miRNAs, and especially the miR-1303, might have a role in MSI tumorigenesis.     

Assessment of microsatellite instability in colorectal cancer patients from Brazil

The replication error status analysis of DNA, through microsatellite instability detection, has become an indispensable tool for hereditary non-polyposis colorectal cancer screening. This study investigated the microsatellite instability in Brazilian individuals presenting colorectal cancer. In this study, 66 patients were clinically analyzed according to Amsterdam II and Bethesda guidelines. Normal and tumour tissues were collected and analyzed for MSI degree according to molecular markers BAT25, BAT26, BAT40, APC–D5S346, D2S123, and D17S250. Eight patients (12.1%) fulfilled the Amsterdam II guidelines, and 15 (22.7%) met the Bethesda guidelines. BAT25 was the most sensitive marker (86.7%), while BAT26 was the least sensitive (66.7%). The specificity of both markers was 100%, but all of the markers must be used since the contribution of each marker to the sensitivity and specificity of the test is complementary. Proximal tumours were significantly predominant among RER⁺ patients. Conclusions: Patients with a family history of colorectal cancer with the tumour in the proximal colon must be screened to replication error status as early as possible in order to avoid the progression of the disease.     

Effect of BRAF V600E mutation on tumor response of anti-EGFR monoclonal antibodies for first-line metastatic colorectal cancer treatment: a meta-analysis of randomized studies

Anti-EGFR monoclonal antibodies (anti-EGFR MoAbs) in metastatic colorectal cancer (mCRC) treatment are still not effective in all patients. This study aimed to evaluate the relationship between BRAF V600E mutation and the tumor response of anti-EGFR MoAbs for first-line treatment in mCRC patients. We searched the MEDLINE and EMBASE databases, using the key words that included colorectal cancer, cetuximab, panitumumab, and BRAF mutation and retrieved 445 articles. Among them four were included in the systematic review. Relative risks (RRs) with 95 % confidence intervals (CI) for response rate were calculated. BRAF mutation carriers had worse ORR than non-carriers in mCRC patients with KRAS wild-type in first-line treatment whether adding anti-EGFR MoAb to chemotherapy or not (RR = 0.43, [95 % CI 0.16–0.75]; RR = 0.38, [95 % CI 0.20–0.73]). But in the unselected patients whose KRAS mutation were unknown, BRAF mutation carriers had similar ORR whether adding cetuximab to chemotherapy or not (RR = 0.45, [95 % CI 0.18–1.09]; RR = 0.57, [95 % CI 0.15–2.23]). In BRAF mutation carriers adding anti-EGFR MoAb to chemotherapy was similar to chemotherapy alone whether in patients with wild-type KRAS or unselected patients (RR = 1.61, [95 % CI 0.57–4.47]; RR = 0.71, [95 % CI 0.18–2.77]). But in the BRAF mutation non-carriers, adding anti-EGFR MoAb produced a clear benefit in response rate than chemotherapy alone and this advantage was restricted to KRAS wild-type patients (RR = 1.48, [95 % CI 1.28–1.71]). BRAF mutation decreases tumor response in first-line treatment whether cetuximab was given or not in patients with KRAS wild-type, and anti-EGFR MoAb produces a clear benefit in response rate in patients with BRAF and KRAS wild-type.     

Mismatch repair genes and microsatellite instability as molecular markers for gynecological cancer detection

Due to major developments in genetics over the past decade, molecular biology tests are serving promising tools in early diagnosis and follow-up of cancer patients. Recent epidemiological studies revealed that the risk for each individual to develop cancer is closely linked to his/her own genetic potentialities. Some populations that are defective in DNA repair processes, for example in Xeroderma pigmentosum or in the Lynch syndrome, are particularly prone to cancer due to the accumulation of mutations within the genome. Such populations would benefit from the development of tests aimed at identifying people who are particularly at risk. Here, we review some data suggesting that the inactivation of mismatch repair is often found in endometrial cancer and we discuss molecular-based strategies that would help to identify the affected individuals in families with cases of glandular malignancies.     

hMRE11 deficiency leads to microsatellite instability and defective DNA mismatch repair

DNA mismatch repair (MMR) is essential in the surveillance of accurate transmission of genetic information, and defects in this pathway lead to microsatellite instability and hereditary nonpolyposis colorectal cancer (HNPCC). Our previous study raised the possibility that hMRE11 might be involved in MMR through physical interaction with hMLH1. Here, we show that hMRE11 deficiency leads to significant increase in MSI for both mono- and dinucleotide sequences. Furthermore, RNA-interference-mediated hMRE11-knockdown in HeLa cells results in MMR deficiency. Analysis of seven HNPCC-associated hMLH1 missense mutations located within the hMRE11-interacting domain shows that four mutations (L574P, K618T, R659P and A681T) cause near-complete disruption of the interaction between hMRE11 and hMLH1, and two mutations (Q542L and L582V) cause a 30% reduction of protein interaction. These findings indicate that hMRE11 represents a functional component of the MMR pathway and the disruption of hMLH1-hMRE11 interaction could be an alternative molecular explanation for hMLH1 mutations in a subset of HNPCC tumours.     

High frequency of microsatellite instability in sporadic colorectal cancer patients in Iran

Microsatellite instability in sporadic colorectal cancer patients was assessed, and the clinicopathological associations were evaluated in northeastern Iran, which is a high-risk region for gastrointestinal malignancies. Microsatellite instability (MSI) status of tumoral tissue, compared to normal tissue, was assessed with a standard panel of MSI markers on paraffin-embedded surgically resected tissues from 67 consecutive sporadic colorectal cancer patients. Eleven of the patients were under 40 years old. Female patients were significantly younger than male patients (mean age 54.2 vs 62.1 years, P = 0.020). MSI analysis revealed 18 cases of MSI-H (26.9%), 11 MSI-L (16.4%) and 38 MSS (microsatellite stable tumors; 56.7%). While a greater proportion of patients consisted of males, 56.7 vs 43.3% females, MSI-H was more frequent in females (34.5 vs 21.5%). MSI was associated with proximal location of tumor (P = 0.003) and lower stages of tumor (P = 0.002), while MSS tumors were associated with node metastasis. MSI has a higher frequency in sporadic colorectal cancer patients, suggesting that molecular epidemiology of the genetic alterations involved in colorectal cancer carcinogenesis has a different pattern in the Iranian population, which deserves further epidemiological attention. The high frequency of MSI-H in this population suggests that we should look at microsatellite instability prior to chemotherapy to determine the most appropriate chemotherapeutic strategy in our population.     

Two modes of microsatellite instability in human cancer: differential connection of defective DNA mismatch repair to dinucleotide repeat instability

Microsatellite instability (MSI) is associated with defective DNA mismatch repair in various human malignancies. Using a unique fluorescent technique, we have observed two distinct modes of dinucleotide microsatellite alterations in human colorectal cancer. Type A alterations are defined as length changes of ≤6 bp. Type B changes are more drastic and involve modifications of ≥8 bp. We show here that defective mismatch repair is necessary and sufficient for Type A changes. These changes were observed in cell lines and in tumours from mismatch repair gene-knockout mice. No Type B instability was seen in these cells or tumours. In a panel of human colorectal tumours, both Type A MSI and Type B instability were observed. Both types of MSI were associated with hMSH2 or hMLH1 mismatch repair gene alterations. Intriguingly, p53 mutations, which are generally regarded as uncommon in human tumours of the MSI⁺ phenotype, were frequently associated with Type A instability, whereas none was found in tumours with Type B instability, reflecting the prevailing viewpoint. Inspection of published data reveals that the microsatellite instability that has been observed in various malignancies, including those associated with Hereditary Non-Polyposis Colorectal Cancer (HNPCC), is predominantly Type B. Our findings indicate that Type B instability is not a simple reflection of a repair defect. We suggest that there are at least two qualitatively distinct modes of dinucleotide MSI in human colorectal cancer, and that different molecular mechanisms may underlie these modes of MSI. The relationship between MSI and defective mismatch repair may be more complex than hitherto suspected.     

DNA methylation analysis using bisulfite treatment and PCR-single-strand conformation polymorphism in colorectal cancer showing microsatellite instability.

The combination of bisulfite treatment and PCR-single-strand DNA conformation polymorphism (SSCP) analysis is proposed for quantitative methylation assay. We applied this procedure to the methylation analysis of the hMLH1 promoter region in colorectal cancer. An analysis of mixtures of known amounts of methylated and unmethylated DNA revealed a linear relation. Using a calibration curve, proportions of methylated DNA were calculated. The hMLH1 promoter region was highly methylated in about 80% of microsatellite instability (MSI) (+) colorectal cancers, but in none of the MSI(-) colorectal cancers. A significant correlation existed between hypermethylation of the hMLH1 promoter and MSI, as in previous reports. In conclusion, bisulfite-PCR-SSCP (BiPS) analysis could be applied to the rapid identification of methylation status in multiple samples, quantification of methylation differences, and detection of methylation heterogeneity in amplified DNA fragments.     

Association between DNA damage, DNA repair genes variability and clinical characteristics in breast cancer patients

The cell's susceptibility to DNA damage and its ability to repair this damage are important for cancer induction, promotion and progression. In the present work we determined the level of basal (total endogenous) and endogenous oxidative DNA damage as well as polymorphism of the DNA repair genes: RAD51 (135 G/C), XRCC3 (Thr241Met), OGG1 (Ser326Cys) and XPD (Lys751Gln) in peripheral blood lymphocytes of 41 breast cancer patients and 48 healthy individuals. DNA damage was evaluated by alkaline comet assay with DNA repair enzymes: Endo III and Fpg, preferentially recognizing oxidized DNA bases. The genotypes of the polymorphisms were determined by restriction fragment length polymorphism PCR. We observed a strong association between breast cancer occurrence and the genotypes C/C of the RAD51-135G/C polymorphism, Ser/Ser of the OGG1-Ser326Cys and Lys/Gln of the XPD-Lys751Gln, whereas the genotypes G/C of the RAD51-135G/C and Lys/Lys of the XPD-Lys751Gln exerted a protective effect against breast cancer. We also found that individuals with the G/C genotype of the RAD51-135G/C polymorphism and with the Lys/Lys genotype of the XPD-Lys751Gln polymorphism displayed a lower extent of basal and oxidative DNA damage. A strong association between higher level of oxidative DNA damage and the Lys/Gln genotype of the latter polymorphism was found. We also correlated genotypes with clinical characteristics of breast cancer patients. We observed a strong association between the G/C genotype of the RAD51-135 G/C polymorphism and the expression of the progesterone receptor and between both alleles of the OGG1-Ser326Cys polymorphism and lymph node metastasis. Our results suggest that the polymorphism of the RAD51, OGG1 and XPD genes may be linked with breast cancer by the modulation of the cellular response to oxidative stress and these polymorphisms may be considered as markers in breast cancer along with the genetic or/and environmental indicators of oxidative stress.     

Frameshift mutation, microsatellites and mismatch repair

The structure of eukaryotic DNA, with its repeated sequences, makes base addition and loss a major obstacle to the maintenance of genetic stability. As compared to the bacteria, much of the mismatch repair capacity of the eukaryotic cell must be devoted to the surveillance of frameshift changes. Any alteration in the activity of proteins which recognize frameshifts or which hold the DNA in place during replication is likely to result in genomic instability.     

天津地区人群hMLH1和hMSH2基因多态性与散发性结直肠癌易感性的关系

为探讨错配修复基因hMLH1和hMSH2单核苷酸多态性(Single nucleotide polymorphism,SNP)与散发性结直肠癌(Sporadic colorectal caner,SCRC)发病易感性之间的关系,文章采用聚合酶链式反应-变性高效液相色谱方法和序列分析技术,检测了天津地区600例SCRC患者和600例健康对照个体hMLH1394G/C、hMSH2943-1G/A、hMSH21917T/G和hMSH22783C/A的基因型频率分布。结果显示:SCRC患者组hMSH22783C/A3种基因型C/C、C/A、A/A频率(90%、9%、1%)与对照组(95%、4.8%、0.2%)相比差异具有统计学意义(χ2=11.91,P0.01)。与hMSH22783C/C基因型相比,C/A和A/A基因型能增加SCRC发病风险(OR值分别为1.77和11.94,95%CI分别为1.03～3.03和1.38～103.2)。多态性位点联合分析显示,SCRC组与对照组单倍型分布差异有统计学意义(χ2=38.38,P0.01);与394G/943-1G/2783C单倍型相比,394G/943-1G/2783A单倍型显著增加SCRC的发病风险(OR=2.18,95%CI:1.40～3.40)。结果提示hMSH22783C/A多态性可能成为预测SCRC发病风险的独立因素,394G/943-1G/2783A单倍型可能增加SCRC的发病风险。