Nobuya Ohishi scite author profile

MicroRNA (miRNA) expression is frequently altered in human cancers. To search for epigenetically silenced miRNAs in nonsmall-cell lung cancer (NSCLC), we mapped human miRNAs on autosomal chromosomes and selected 55 miRNAs in silico. We treated six NSCLC cell lines with the DNA methylation inhibitor 5-aza-2 0 -deoxycytidine (5-aza-CdR) and determined the expressions of the 55 miRNAs. Fourteen miRNAs were decreased in the cancer cell lines and were induced after 5-aza-CdR treatment. After a detailed DNA methylation analysis, we found that mir-34b and mir-126 were silenced by DNA methylation. Mir-34b was silenced by the DNA methylation of its own promoter, whereas mir-126 was silenced by the DNA methylation of its host gene, EGFL7. A chromatin immunoprecipitation assay revealed H3K9me2 and H3K9me3 in mir-34b and EGFL7, and H3K27me3 in EGFL7. The overexpression of mir-34b and mir-126 decreased the expression of c-Met and Crk, respectively. The 5-aza-CdR treatment of lung cancer cell line resulted in increased mir-34b expression and decreased c-Met protein. We next analyzed the DNA methylation status of these miRNAs using 99 primary NSCLCs. Mir-34b and mir-126 were methylated in 41 and 7% of all the cases, respectively. The DNA methylation of mir-34b was not associated with c-Met expression determined by immunohistochemistry, but both mir-34b methylation (p 5 0.007) and c-Met expression (p 5 0.005) were significantly associated with lymphatic invasion in a multivariate analysis. The DNA methylation of mir-34b can be used as a biomarker for an invasive phenotype of lung cancer.MicroRNAs (miRNAs) are broadly conserved small noncoding RNA that regulate gene expression by binding to the 3 0 UTR of target mRNAs in a complementary manner. 1Through the posttranscriptional regulation of many target genes, miRNAs are involved in many biological processes, such as development and human carcinogenesis. MicroRNA expression is altered in human cancers, and some miRNAs have oncogenic or tumor suppressive functions in human malignancies, including lung cancer. 2-5Chromosomal deletions or amplifications are important mechanisms of miRNA expression change in cancers. For example, mir-15 and mir-16 are frequently deleted and downregulated in chronic lymphocytic leukemia.2 The mir-17-92 miRNA cluster is amplified and overexpressed in B-cell lymphoma 6 and lung cancer. 4 However, the precise mechanisms responsible for changes in miRNA expression in cancer remain largely unknown.DNA methylation plays an important role in inactivating tumor suppressor genes in many types of human cancers. 7,8 Recently, DNA methylation in cancerous tissue has been shown to cause the silencing of miRNAs located in the vicinity of CpG islands. 9,10 As the epigenetic silencing of tumor suppressor genes is a common event in lung carcinogenesis 11-14 and miRNA expression is altered in lung cancer, 5 we decided to search for epigenetically silenced miRNAs in lung cancer.In our study, we selected 55 candidate miRNAs in silico based on the genome structure and tre...

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Leukotriene A4 hydrolase is a zinc-containing aminopeptidase

Minami¹,

Ohishi²,

Mutoh³

et al. 1990

Biochemical and Biophysical Research Communications

108

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The induction of H3K9 methylation by PIWIL4 at the p16Ink4a locus

Sugimoto

Kage

Aki

et al. 2007

Biochemical and Biophysical Research Communications

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Fine Localization of a Major Disease-Susceptibility Locus for Diffuse Panbronchiolitis

Keicho

Ohashi

Tamiya

et al. 2000

The American Journal of Human Genetics

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Diffuse panbronchiolitis affecting East Asians is strongly associated with the class I human leukocyte antigen (HLA) alleles. Recent observations suggest that a major disease-susceptibility gene may be located between the HLA-B and HLA-A loci in the class I region of the major histocompatibility complex on chromosome 6. To test this possibility, we analyzed 14 polymorphic markers in 92 Japanese patients and 93 healthy controls. Of these, seven marker alleles, including HLA-B54 and HLA-A11, were significantly associated with the disease. Maximum-likelihood haplotype analysis and subsequent direct determination of individual haplotypes identified a group of disease-associated haplotypes, one of which contained all seven disease-associated marker alleles. Another haplotype, containing HLA-B*5504, was also associated with the disease. All these haplotypes seem to have diverged from a common ancestral haplotype in East Asians and share a specific segment containing three consecutive markers between the S and TFIIH loci in the class I region. Furthermore, one of the markers within the candidate region showed the highest delta value, indicating the strongest association. Of 20 Korean patients with diffuse panbronchiolitis, 17 also shared the combination of the disease-associated marker alleles within the candidate region. These results indicate that an HLA-associated major susceptibility gene for diffuse panbronchiolitis is probably located within the 200 kb in the class I region 300 kb telomeric of the HLA-B locus on the chromosome 6p21.3.

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Contribution of HLA Genes to Genetic Predisposition in Diffuse Panbronchiolitis

Keicho

Tokunaga

Nakata

et al. 1998

Am J Respir Crit Care Med

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Diffuse panbronchiolitis (DPB) in East Asia is a distinctive chronic obstructive pulmonary disease of unknown etiology. We hypothesize that the disease susceptibility is due to genetic predisposition unique to Asians. Association between human leukocyte antigen (HLA)-Bw54 and the disease was previously reported. In the present study, using newly developed polymerase chain reaction (PCR)- based methods, we directly analyzed HLA class I and II alleles in 76 Japanese patients. HLA-A, -B, and -C antigens were screened by the conventional typing method, and then B22-group alleles including HLA-B54 were genotyped by single-strand conformation polymorphism analysis. Alleles of HLA-DRB1 gene were fully determined by the microtiter plate hybridization method. Thirty-seven percent of the patients possessed HLA-B*5401 allele conserved predominantly in East Asians, as compared with 15% of 110 healthy volunteers (chi2 = 12.4, p = 0.0004). In addition, 4% of the patients possessed B*5504 also unique to Asians but a rare allele which was not found in normal control subjects in this study. Typing of HLA-DRB1 class II gene did not demonstrate strong positive association with the disease. A33, B44, and DRB1*1302 showed negative association with the disease. We conclude that distinctive molecular structure of HLA-B alleles or a closely linked gene in the HLA region contributes to genetic predisposition in diffuse panbronchiolitis. This may partly explain why this disorder is found primarily in Asians.

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Nobuya Ohishi

Genome structure‐based screening identified epigenetically silenced microRNA associated with invasiveness in non‐small‐cell lung cancer

Leukotriene A4 hydrolase is a zinc-containing aminopeptidase

The induction of H3K9 methylation by PIWIL4 at the p16Ink4a locus

Fine Localization of a Major Disease-Susceptibility Locus for Diffuse Panbronchiolitis

Contribution of HLA Genes to Genetic Predisposition in Diffuse Panbronchiolitis

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