Takahito Chijiwa scite author profile

Aberrant hypermethylation of tumor suppressor genes plays an important role in the development of many tumors. Recently identified new DNA methyltransferase (DNMT) genes, DNMT3A and DNMT3B, code for de novo methyltransferases. To determine the roles of DNMT3A, DNMT3B, as well as DNMT1, in the development of leukemia, competitive polymerase chain reaction (PCR) assays were performed and the expression levels of DNMTs were measured in normal hematopoiesis, 33 cases of acute myelogenous leukemia (AML), and 17 cases of chronic myelogenous leukemia (CML). All genes were constitutively expressed, although at different levels, in T lymphocytes, monocytes, neutrophils, and normal bone marrow cells. Interestingly, DNMT3B was expressed at high levels in CD34 ؉ bone marrow cells but down-regulated in differentiated cells. In AML, 5.3-, 4.4-, and 11.7-fold mean increases were seen in the levels of DNMT1, 3A, and 3B, respectively, compared with the control bone marrow cells. Although CML cells in the chronic phase did not show significant changes, cells in the acute phase showed 3.2-, 4.5-, and 3.4-fold mean increases in the levels of DNMT1, 3A, and 3B, respectively. Using methylation-specific PCR, it was observed that the p15 INAK4B IntroductionDNA methylation plays an important role in tissue-and stagespecific gene regulation, 1,2 genomic imprinting, 3,4 and X-chromosome inactivation, 5 and has been shown to be essential for normal mammalian development. 6 Recent studies have revealed that both global DNA hypomethylation and regional hypermethylation occur in tumorigenesis. [7][8][9] Such aberrant DNA methylation is observed in a nonrandom, tumor type-specific manner. 10 In particular, certain types of tumors show regional hypermethylation of CpG islands associated with the promoter regions of tumor suppressor genes, such as RB, 11 VHL, 12 p16 INAK4A , 13 and hMLH1. 14 Furthermore, the regional hypermethylation is often associated with the inactivation of the tumor suppressor genes. 15 These data suggest that this epigenetic process has a pathogenetic role in the clonal evolution of cancer. 9 In hematologic malignancies, aberrant DNA hypermethylation is thought to have relevance to leukemogenesis. 16 For example, during the progression of chronic myelogenous leukemia (CML), the ABL1 promoter of the BCR-ABL fusion gene becomes significantly hypermethylated. 17,18 Also, aberrant hypermethylation of the p15 INAK4B tumor suppressor gene is associated with its inactivation in at least half of the patients with acute lymphoblastic leukemia (ALL) and acute myelogenous leukemia (AML). 19,20 Furthermore, hypermethylation of p15 INAK4B is observed concomitant with the disease progression in myelodysplastic syndrome (MDS). 21 In addition to these tumor-related genes, a number of other genes are concurrently hypermethylated in AML, 22 suggesting that there might be a dysregulation in the normal DNA methylation mechanism, by which the leukemic cells become predisposed to hypermethylation.Until recently, only one mammalian DNA methyl...

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Enzymatic properties of de novo-type mouse DNA (cytosine-5) methyltransferases

Aoki

et al. 2001

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We have purified GST-fused recombinant mouse Dnmt3a and three isoforms of mouse Dnmt3b to near homogeneity. Dnmt3b3, an isoform of Dnmt3b, did not have DNA methylation activity. Dnmt3a, Dnmt3b1 or Dnmt3b2 showed similar activity toward poly(dG-dC)-poly(dG-dC) for measuring de novo methylation activity, and toward poly(dI-dC)-poly(dI-dC) for measuring total activity. This indicates that the enzymes are de novo-type DNA methyltransferases. The enzyme activity was inhibited by NaCl or KCl at concentrations >100 mM. The kinetic parameter, K(m)(AdoMet), for Dnmt3a, Dnmt3b1 and Dnmt3b2 was 0.4, 1.2 and 0.9 microM when poly(dI-dC)-poly(dI-dC) was used, and 0.3, 1.2 and 0.8 microM when poly(dG-dC)-poly(dG-dC) was used, respectively. The K(m)(DNA) values for Dnmt3a, Dnmt3b1 and Dnmt3b2 were 2.7, 1.3 and 1.5 microM when poly(dI-dC)-poly(dI-dC) was used, and 3.5, 1.0 and 0.9 microM when poly(dG-dC)-poly(dG-dC) was used, respectively. For the methylation specificity, Dnmt3a significantly methylated CpG >> CpA. On the other hand, Dnmt3b1 methylated CpG > CpT >/= CpA. Immuno-purified Dnmt3a, Myc-tagged and overexpressed in HEK 293T cells, methylated CpG >> CpA > CpT. Neither Dnmt3a nor Dnmt3b1 methylated the first cytosine of CpC.

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Accelerated evolution of crotalinae snake venom gland serine proteases

et al. 1996

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Eight cDNAs encoding serine proteases isolated fromTrimeresurus flavoviridis (habu snake) and T. gramineus (green habu snake) venom gland cDNA libraries showed that nonsynonymous nucleotide substitutions have accumulated in the mature protein-coding regions to cause amino acid changes. Southern blot analysis of T. flavoviridis genomic DNAs using two proper probes indicated that venom gland serine protease genes form a muitigene family in the genome. These observations suggest that venom gland serine proteases have diversified their amino acid sequences in an accelerating manner. Since a similar feature has been previously discovered in crotalinae snake venom gland phospholipase A2 (PLA2) isozyme genes, accelerated evolution appears to be universal in plural isozyme families of crotalinae snake venom gland.

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Three novel DNMT3B mutations in Japanese patients with ICF syndrome

Shirohzu¹,

Kubota²,

Kumazawa³

et al. 2002

Am. J. Med. Genet.

111

102

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ICF syndrome is a rare autosomal recessive disorder characterized by immunodeficiency, centromeric instability, and facial anomalies. It is caused by mutations in a de novo DNA methyltransferase gene, DNMT3B. We here report the first three Japanese cases of ICF syndrome from two unrelated families. All patients had typical facial dysmorphism and immunoglobulin A (IgA) deficiency, but none of them had apparent mental retardation. Cytogenetic analysis of peripheral blood lymphocytes showed chromosomal abnormalities, including multiradial configurations and a stretching of the pericentromeric heterochromatin of chromosomes 1 and 16. Hypomethylation of classical satellite 2 DNA was also observed. Mutation analyses of DNMT3B revealed three novel mutations: patient 1 from the first family was a compound heterozygote for a nonsense mutation (Q42Term) and a missense mutation (R832Q); patients 2 and 3 from the second family were both homozygous for a missense mutation (S282P). The R832Q mutation occurred within the conserved methyltransferase domain, and thus may affect the enzyme activity directly. The S282P mutation, on the other hand, occurred close to the PWWP domain, which is presumably involved in protein-protein interaction. This is the first missense mutation mapped to the N-terminal half of the protein, suggesting that the region plays an important role in the regulation of the DNMT3B enzyme.

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Molecular diversity and accelerated evolution of C-type lectin-like proteins from snake venom

Ogawa¹,

Chijiwa²,

Oda-Ueda³

et al. 2005

Toxicon

162

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