Low values of 5‐hydroxymethylcytosine (5hmC), the “sixth base,” are associated with anaplasia in human brain tumors

Kraus, Theo; Globisch, Daniel; Wagner, Mirko; Eigenbrod, Sabina; Widmann, David; Münzel, Martin; Müller, Markus; Pfaffeneder, Toni; Hackner, Benjamin; Feiden, W.; Schüller, Ulrich; Carell, Thomas; Kretzschmar, Hans A.

doi:10.1002/ijc.27429

Cited by 140 publications

(172 citation statements)

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“…On the other hand, 5-hmC was reduced by about 3-fold in the tumors of GC cases. In line with recent studies [9,26], our data also show that 5-hmC values varied widely among individuals. P values were analyzed using a two-tailed Pearson correlation.…”

Section: Discussionsupporting

confidence: 93%

“…and 2-oxoglutarate (2-OG), and 2-OG is dependent on the activity of isocitrate dehydrogenase IDH1 and IDH2 [5,6] ( Figure S1). The loss of 5-hydroxymethylcytosine and the down-regulation of the TET family and IDH2 have been found in human cancers [7][8][9][10][11], but comprehensive evaluations of the modified cytosines and the enzymes that are involved have remained largely unperformed and most previous studies have used dot blot analyses as a means of measuring 5-hydroxymethyldeoxycytidine (5-hmC), which is at best a semi-quantitative method. Because dot blot analysis is based on the antigen-antibody reaction direct assessments of the absolute amount of 5-mC, 5-hmC, 5-fC, and 5-caC are not possible.…”

Section: Introductionmentioning

confidence: 99%

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Robust quantitative assessments of cytosine modifications and changes in the expressions of related enzymes in gastric cancer

Kurabe

Matsushima

et al. 2014

Gastric Cancer

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Background The rediscovery of 5-hydroxymethylcytosine, the ten-eleven translocation (TET) family, thymine-DNA glycosylase (TDG) and isocitrate dehydrogenase (IDH) have opened new avenues in the study of DNA demethylation pathways in gastric cancer (GC). We performed a comprehensive and robust analysis of these genes and modified cytosines in gastric cancer. Methods Liquid chromatography mass spectrometry/ mass spectrometry (LC-MS/MS) was used to assess 5-methyldeoxycytidine (5-mC), 5-hydroxymethyldeoxycytidine (5-hmC), 5-formyldeoxycytidine (5-fC) and 5-carboxyldeoxycytidine (5-caC) quantitatively in tumorous and non-tumorous regions of GCs; [D 2 ]-5-hmC was used as an internal standard. Expression levels of the genes TET1, TET2, TET3, TDG, IDH1 and IDH2 were measured using a real-time reverse transcription polymerase chain reaction (RT-PCR) and were compared to the clinical attributes of each case. Using HEK293T cells the effects of introducing plasmids containing full-length TET1, TET2, and TET3 and 7 variants of the TET2 catalytic domain were evaluated in terms of their effect on cytosine demethylation. Results LC-MS/MS showed that 5-hmC was significantly decreased in tumorous portions. 5-mC was also moderately decreased in tumors, while 5-fC and 5-caC were barely detectable. The expressions of TET1, TET2, TET3, TDG and IDH2, but not IDH1, were notably decreased in GCs, compared with the adjacent non-tumor portion. TET1 123Gastric Cancer (2015( ) 18:516-525 DOI 10.1007 expression and the 5-hmC levels determined using LC-MS/ MS had a significantly positive correlation and TET1 protein had a greater effect on the increase in 5-hmC than TET2 and TET3 in HEK293T cells. Conclusions The loss of 5-hmC and the down-regulation of TET1-3, TDG and IDH2 were found in GCs. The loss of 5-hmC in GCs was mainly correlated with the down-regulation of TET1.

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Section: Discussionsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Robust quantitative assessments of cytosine modifications and changes in the expressions of related enzymes in gastric cancer

Kurabe

Matsushima

et al. 2014

Gastric Cancer

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“…Jin et al showed tumor-associated loss of 5hmC for lung, brain, breast, liver, kidney, prostate, intestine, and uterus cancers and melanoma [109]. Reduction of 5hmC in different types of solid tumors was confirmed in many other studies [110][111][112][113][114]. Although decreased 5hmC seems to be a common feature of cancers, there is no straight link with TET expression or Brought to you by | MIT Libraries Authenticated Download Date | 5/11/18 7:43 PM mutation levels and aberrant methylation.…”

Section: Ogt and Tetmentioning

confidence: 87%

The potential role of O-GlcNAc modification in cancer epigenetics

Forma

Jóźwiak

Bryś

et al. 2014

Cellular and Molecular Biology Letters

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There is no doubt that cancer is not only a genetic disease but that it can also occur due to epigenetic abnormalities. Diet and environmental factors can alter the scope of epigenetic regulation. The results of recent studies suggest that O-GlcNAcylation, which involves the addition of N-acetylglucosamine on the serine or threonine residues of proteins, may play a key role in the regulation of the epigenome in response to the metabolic status of the cell. Two enzymes are responsible for cyclic O-GlcNAcylation: O-GlcNAc transferase (OGT), which catalyzes the addition of the GlcNAc moiety to target proteins; and O-GlcNAcase (OGA), which removes the sugar moiety from proteins. Aberrant expression of O-GlcNAc cycling enzymes, especially OGT, has been found in all studied human cancers. OGT can link the cellular metabolic state and the epigenetic status of cancer cells by interacting with and modifying many epigenetic factors, such as HCF-1, TET, mSin3A, HDAC, and BAP1. A growing body of evidence from animal model systems also suggests an important role for OGT in polycomb-dependent repression of genes activity. Moreover, O-GlcNAcylation may be a part of the histone code: O-GlcNAc residues are found on all core histones.

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“…The conversion of 5mC to 5-hydroxy-methylcytosine (5hmC) in mammalian cells by methylcytosine dioxygenase Ten-Eleven Translocation (TET) is thought to be an important procedure during active demethylation process [23]. 5hmc has been recognized as the "sixth base" in the genome because of its distinctive epigenetic role [24].…”

Section: Dna Methylation and Demethylationmentioning

confidence: 99%

“…Brain is one of the organs that with 5hmC presence at high levels. In terms of cancers developed in the central nervous system, it is observed that 5hmC levels decreased by clinical grades of the tumors; meaning high numbers of 5hmC positive cells in WHO grade I gliomas, fewer in grades II and III, and the least number of 5hmC positive cells in grade IV gliomas [24,45].…”

Section: Biological Impact Of Dna Hypomethylation In Cancer Developmentmentioning

confidence: 99%

Chromatin Memory in the Development of Human Cancers

2014

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Cancer is a complex disease with acquired genomic and epigenomic alterations that affect cell proliferation, viability and invasiveness. Almost all the epigenetic mechanisms including cytosine methylation and hydroxymethylation, chromatin remodeling and non-coding RNAs have been found associate with carcinogenesis and cancer specific expression profile. Altered histone modification as an epigenetic hallmark is frequently found in tumors. Understanding the epigenetic alterations induced by carcinogens or infectious agents may help us understand early epigenetic changes prior to the development of cancer. In this review, we focus on chromatin remodeling and the associated histone modifiers in the development of cancer; the application of these modifiers as a cancer therapy target in different clinical trial phases is also discussed.

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Low values of 5‐hydroxymethylcytosine (5hmC), the “sixth base,” are associated with anaplasia in human brain tumors

Cited by 140 publications

References 24 publications

Robust quantitative assessments of cytosine modifications and changes in the expressions of related enzymes in gastric cancer

Robust quantitative assessments of cytosine modifications and changes in the expressions of related enzymes in gastric cancer

The potential role of O-GlcNAc modification in cancer epigenetics

Chromatin Memory in the Development of Human Cancers

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