Regulation of the Human MSH6 Gene by the Sp1 Transcription Factor and Alteration of Promoter Activity and Expression by Polymorphisms

Most susceptibility to colorectal cancer (CRC) is not accounted for by known risk factors. Because MLH1, MSH2 and MSH6 mutations underlie high-penetrance CRC susceptibility in hereditary nonpolyposis colon cancer (HNPCC), we hypothesized that attenuated alleles might also underlie susceptibility to sporadic CRC. We looked for gene variants associated with HNPCC in Israeli probands with familial CRC unstratified with respect to the microsatellite instability (MSI) phenotype. Association studies identified a new MLH1 variant (415G→C, resulting in the amino acid substitution D132H) in ∼1.3% of Israeli individuals with CRC self-described as Jewish, Christian and Muslim. MLH1 415C confers clinically significant susceptibility to CRC. In contrast to classic HNPCC, CRCs associated with MLH1 415C usually do not have the MSI defect, which is important for clinical mutation screening. Structural and functional analyses showed that the normal ATPase function of MLH1 is attenuated, but not eliminated, by the MLH1 415G→C mutation. The new MLH1 variant confers a high risk of CRC and identifies a previously unrecognized mechanism in microsatellite-stable tumors. These studies suggest that variants of mismatch repair proteins with attenuated function may account for a higher proportion of susceptibility to sporadic microsatellite-stable CRC than previously assumed.To identify variant alleles in MLH1, MSH2 or MSH6 with high sensitivity and specificity, we designed a new high-density oligonucleotide array (HNPCC Chip) that uses improved bioinformatic

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“…Similarly, promoter polymorphisms that cause a partial reduction in MMR gene transcription may contribute to sporadic CRC 18 .…”

Section: Wt/ai Ratiomentioning

confidence: 99%

The MLH1 D132H variant is associated with susceptibility to sporadic colorectal cancer

et al. 2004

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“…[35][36][37][38][39] Luciferase reporter assays revealed that the G-A haplotype caused transcriptional activation more efficiently than other haplotypes. The LTBP-1L promoter has a high GC content, but lacks a TATA box.…”

Section: Discussionmentioning

confidence: 99%

Novel Functional Single Nucleotide Polymorphisms in the Latent Transforming Growth Factor-β Binding Protein-1L Promoter

Higashi

Kyo

Inoue

et al. 2006

The Journal of Molecular Diagnostics

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Latent transforming growth factor (TGF)-␤ binding proteins (LTBPs) play important roles in the secretion and activation of TGF-␤. We previously reported that LTBP-1L is overexpressed in some patients with ovarian cancer. To clarify the molecular mechanism of LTBP-1L regulation , we analyzed DNA sequences in the promoter region of LTBP-1L and identified two novel single nucleotide polymorphisms , ؊202G/C and ؉20A/C. While the alleles with ؊202C and ؉20C were initially reported , our data demonstrated that ؊202G and ؉20A are common in both ovarian cancer patients and healthy patients in the Japanese population. Luciferase reporter assays revealed that the G-A haplotype induced transcriptional activation in a Sp1-dependent manner. Electrophoretic mobility shift assays showed that increased binding affinity of Sp1 to the promoter with ؊202G and ؉20A. Interestingly , ovarian cancer patients (n ‫؍‬ 42) with G-A/G-A homozygous genotype had increased expression of LTBP-1 and apparently poorer survival than those with other genotypes (P ‫؍‬ 0.02). These findings suggest that the single nucleotide polymorphisms ؊202G/C and ؉20A/C on the LTBP-1L promoter may affect the clinical outcome of ovarian cancer patients , probably via up-regulating protein expression. Further studies using a larger number of samples will definitively determine the correlation between LTBP-1 haplotype and clinical behavior of ovarian cancer. (J Mol

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“…The MSH6 gene may be transcribed from a housekeeping gene promoter (10,12). The MSH6 gene contains no TATAA-or CAAT-boxes in its translation initiation site, which is surrounded by sequences containing CpG islands.…”

Section: Genetic Location and Function Of Msh6mentioning

confidence: 99%

“…There are multiple start sites for transcription and copies of consensus-binding sequences of the transcription factors, including specificity protein (Sp)1, ETF, meta-regulatory transcription factor-1 and activator protein-1. The gene contains seven functional Sp1 transcription-factor binding sites in the 5'-flanking region, which bind Sp1 and Sp3 and regulate MSH6 promoter activity (12).…”

Section: Genetic Location and Function Of Msh6mentioning

confidence: 99%

“…Such patients are also more susceptible to a wide spectrum of tumors, even more than to colon cancer, including tumors of the rectum, endometrium, small bowel, urinary tract and brain (17,18). Unlike early-onset HNPCC driven by MSH2 and MLH1 mutations, familial HNPCC driven by MSH6 mutations is associated with a later onset (9,10,12,19).…”

Section: Germline Msh6 Mutations and Cancer Susceptibilitymentioning

confidence: 99%

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Association of MSH6 mutation with glioma susceptibility, drug resistance and progression

Xie

Huang

Zhang

et al. 2016

Molecular and Clinical Oncology

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Abstract. MutS homolog 6 (MSH6) is one of the mismatch repair proteins and is encoded by the MSH6 gene, which is located on chromosome 2 and is 23,806 bp in length, including 10 exons and 83 untranslated regions. The MSH6 protein consists of 1,358 amino acid residues and forms a heterodimer with another mismatch repair protein, MSH2. The MSH2-MSH6 heterodimeric complex is able to recognize base-base substitution and single-base insertion/deletion mismatches. Germline mutations of MSH6 lead to high susceptibility to glioma, as well as a number of benign or malignant tumors in other organs. However, somatic MSH6 mutations are not associated with susceptibility to glioma. Somatic MSH6 mutations usually follow temozolomide treatment and result in resistance to temozolomide. Subsequently, MSH6 mutations cause a hypermutation in the glioma cell genome, which may accelerate tumor progression. Contents1. Introduction 2. Genetic location and function of MSH6 3. Germline MSH6 mutations and cancer susceptibility 4. Somatic MSH6 mutations, glioma recurrence and drug resistance 5. MSH6 mutations lead to tumor genome hypermutation IntroductionGlioma is the most frequent malignant brain tumor in adults. This tumor is characterized by diffuse infiltration of the brain and frequent local recurrence. A malignant tumor is considered to be the result of an accumulation of gene mutations, and tumor progression is driven by additional mutations (1). DNA is constantly exposed to biological, physical and chemical damage that may result in gene mutations; the DNA mismatch repair (MMR) system is responsible for repairing DNA damage. As a result, gene mutations are significantly more frequent in MMR-deficient cells (2,3). Theoretically, mutations in the MMR system may cause additional mutations in numerous other genes, initiating a cascade of mutations throughout the cancer genome. Some of these mutations may confer selective advantages, which enable the mutated cells to proliferate and achieve clonal dominance (4). Growing evidence indicates that a deficiency of MMR genes is associated with the recurrence and drug resistance of glioma. Candidate genes of interest include mutL homolog (MLH)1, mutS homolog (MSH)2 and MSH6 (4,5). In particular, MSH6 mutations are considered to play an important role in the recurrence of glioma, acquired resistance to alkylating agents and genome instability (3,6,7). The aim of the present study was to review the association between MSH6 mutations and glioma. Genetic location and function of MSH6Mismatches inevitably occur during DNA replication. Prokaryotic as well as eukaryotic organisms are equipped with enzymatic systems to repair these mismatches. The bacterial MutHLS system repairs single-base mismatches and small insertion/deletions. Eukaryotic cells possess respective counterpart enzymes to repair mismatches. In yeast, mammalian cells and other organisms, the MMR systems are similar to the prokaryotic MutHLS system, and are therefore named MSHs and MLHs (8). Certain MMR proteins have unique functions...

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Regulation of the Human MSH6 Gene by the Sp1 Transcription Factor and Alteration of Promoter Activity and Expression by Polymorphisms

Cited by 54 publications

References 64 publications

The MLH1 D132H variant is associated with susceptibility to sporadic colorectal cancer

The MLH1 D132H variant is associated with susceptibility to sporadic colorectal cancer

Novel Functional Single Nucleotide Polymorphisms in the Latent Transforming Growth Factor-β Binding Protein-1L Promoter

Association of MSH6 mutation with glioma susceptibility, drug resistance and progression

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