Your search keyword '"CPG METHYLATION"' showing total 821 results

51. CpG Methylation Altered the Stability and Structure of the i-Motifs Located in the CpG Islands.

Author

Oshikawa, Daiki, Inaba, Shintaro, Kitagawa, Yudai, Tsukakoshi, Kaori, and Ikebukuro, Kazunori

Subjects

*METHYLATION, *CYTOSINE, *ISLANDS, *CIRCULAR dichroism, *GEL electrophoresis, *HYDROGEN bonding, *THERMAL stability

Abstract

Cytosine methylation within the 5′-C-phosphate-G-3′ sequence of nucleotides (called CpG methylation) is a well-known epigenetic modification of genomic DNA that plays an important role in gene expression and development. CpG methylation is likely to be altered in the CpG islands. CpG islands are rich in cytosine, forming a structure called the i-motif via cytosine-cytosine hydrogen bonding. However, little is known about the effect of CpG methylation on the i-motif. In this study, The CpG methylation-induced structural changes on the i-motif was examined by thermal stability, circular dichroism (CD) spectroscopy, and native-polyacrylamide gel electrophoresis (Native-PAGE) evaluation of five i-motif-forming DNAs from four cancer-related genes (VEGF, C-KIT, BCL2, and HRAS). This research shows that CpG methylation increased the transitional pH of several i-motif-forming DNAs and their thermal stability. When examining the effect of CpG methylation on the i-motif in the presence of opposite G4-forming DNAs, CpG methylation influenced the proportion of G4 and i-motif formation. This study showed that CpG methylation altered the stability and structure of the i-motif in CpG islands. [ABSTRACT FROM AUTHOR]

Published

2022

52. Mechanistic study on DNA mutation of the cytosine methylation reaction at C5 position

Author

Mansour H. Almatarneh, Ghada G. Kayed, Sanaa S. Al Abbad, Zainab H.A. Alsunaidi, Mohammed S. Al-Sheraideh, and Yuming Zhao

Subjects

Epigenetics, DNA Methylation, DNA Methyltransferases, 5-Methyl Cytosine, CpG methylation, Transition state, Chemistry, QD1-999

Abstract

DNA methylation is a crucial epigenetic mark connected to conventionally changing the DNA bases, typically by adding methyl groups into DNA bases. Methylation of cytosine at the C5 position (5-methylcytosine) occurs mostly in the context of cytosine-phosphate-guanine dinucleotides, the methylation of which has important impacts on gene regulation and expression. However, the mechanistic details of this reaction are still debatable concerning the concertedness of the key reaction steps and the roles played by the base that abstracts the proton in the β-elimination and water molecules at the active site. To gain a deeper insight into the formation of 5-mehtylcytosine, an extensive density functional theory (DFT) study was performed with the B3LYP functional in conjunction with different basis sets. Our study has clearly established the mechanistic details of this methylation approach, based on which the roles of conserved active site residues, such as glutamic acid and waters, are well understood. Our results show that the reaction of 5-methylcytosine follows a concerted mechanism in which water molecules are critically involved. Moreover, arginine and alanine give more significant catalytic effects than glutamic acid on the 5-methylcytosine process. Considering the effect of Alanine, Arginine, and one water bridging molecule, the activation energy is 31 kJ mol−1 calculated at B3LYP/6-31G(d) level of theory.

Published

2022

53. Genoprotective activity of the Pleurotus eryngii mushrooms following their in vitro and in vivo fermentation by fecal microbiota

Author

Athina Boulaka, Panagiota Mantellou, Gabriela-Monica Stanc, Efthymia Souka, Christoς Valavanis, Georgia Saxami, Evdokia Mitsou, Georgios Koutrotsios, Georgios I. Zervakis, Adamantini Kyriacou, Vasiliki Pletsa, and Panagiotis Georgiadis

Subjects

mushroom, genoprotection, anticancer, CpG methylation, immunomodulation, antioxidative mechanisms, Nutrition. Foods and food supply, TX341-641

Abstract

Pleurotus eryngii mushrooms are commercially cultivated and widely consumed due to their organoleptic properties, and the low caloric and high nutritional value. In addition, they contain various biologically active and health-promoting compounds; very recently, their genoprotective effect in Caco-2 cells after their fermentation by the human fecal microbiota was also documented. In the current study, the effect of P. eryngii pre- and post-fermentation supernatants in micronuclei formation was evaluated in human lymphocytes. In addition, the genoprotective properties of increasing concentrations of aqueous extracts from P. eryngii mushrooms (150, 300, 600 mg/kg) against the cyclophosphamide-induced DNA damage were studied in young and elderly female and male mice in bone marrow and whole blood cells. The ability of the highest dose (600 mg/kg) to regulate the main cellular signaling pathways was also evaluated in gut and liver tissues of female animals by quantifying the mRNA expression of NrF2, Nfkβ, DNMT1, and IL-22 genes. P. eryngii post-fermentation, but not pre-fermentation, supernatants were able to protect human lymphocytes from the mitomycin C-induced DNA damage in a dose-dependent manner. Similarly, genoprotection was also observed in bone marrow cells of mice treated by gavage with P. eryngii extract. The effect was observed in all the experimental groups of mice (young and elderly, male and female) and was more potent in young female mice. Overexpression of all genes examined was observed in both tissues, mainly among the elderly animals. In conclusion, P. eryngii mushrooms were shown to maintain genome integrity through protecting cells from genotoxic insults. These beneficial effects can be attributed to their antioxidant and immunomodulatory properties, as well as their ability to regulate the cell’s epigenetic mechanisms and maintain cell homeostasis.

Published

2022

54. The Methylation Analysis of the Glucose-Dependent Insulinotropic Polypeptide Receptor (GIPR) Locus in GH-Secreting Pituitary Adenomas

Author

Mattia Dalle Nogare, Sarah D’Annunzio, Giovanni Vazza, Daniela Regazzo, Luna Picello, Luca Denaro, Giacomo Voltan, Carla Scaroni, Filippo Ceccato, and Gianluca Occhi

Subjects

glucose-dependent insulinotropic polypeptide receptor (GIPR), GH-secreting pituitary adenomas, CpG methylation, 5-aza-2′-deoxycytidine, acromegaly, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The glucose-dependent insulinotropic polypeptide receptor (GIPR) is aberrantly expressed in about one-third of GH-secreting pituitary adenomas (GH-PAs) and has been associated with a paradoxical increase of GH after a glucose load. The reason for such an overexpression has not yet been clarified. In this work, we aimed to evaluate whether locus-specific changes in DNA methylation patterns could contribute to this phenomenon. By cloning bisulfite-sequencing PCR, we compared the methylation pattern of the GIPR locus in GIPR-positive (GIPR+) and GIPR-negative (GIPR−) GH-PAs. Then, to assess the correlation between Gipr expression and locus methylation, we induced global DNA methylation changes by treating the lactosomatotroph GH3 cells with 5-aza-2′-deoxycytidine. Differences in methylation levels were observed between GIPR+ and GIPR− GH-PAs, both within the promoter (31.9% vs. 68.2%, p < 0.05) and at two gene body regions (GB_1 20.7% vs. 9.1%; GB_2 51.2% vs. 65.8%, p < 0.05). GH3 cells treated with 5-aza-2′-deoxycytidine showed a ~75% reduction in Gipr steady-state level, possibly associated with the observed decrease in CpGs methylation. These results indicate that epigenetic regulation affects GIPR expression in GH-PAs, even though this possibly represents only a part of a much more complex regulatory mechanism.

Published

2023

55. nc886, an RNA Polymerase III-Transcribed Noncoding RNA Whose Expression Is Dynamic and Regulated by Intriguing Mechanisms

Author

Yeon-Su Lee and Yong Sun Lee

Subjects

nc886, RNA polymerase III, regulation, transcription factor, CpG methylation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

nc886 is a medium-sized non-coding RNA that is transcribed by RNA polymerase III (Pol III) and plays diverse roles in tumorigenesis, innate immunity, and other cellular processes. Although Pol III-transcribed ncRNAs were previously thought to be expressed constitutively, this concept is evolving, and nc886 is the most notable example. The transcription of nc886 in a cell, as well as in human individuals, is controlled by multiple mechanisms, including its promoter CpG DNA methylation and transcription factor activity. Additionally, the RNA instability of nc886 contributes to its highly variable steady-state expression levels in a given situation. This comprehensive review discusses nc886’s variable expression in physiological and pathological conditions and critically examines the regulatory factors that determine its expression levels.

Published

2023

56. Complete Sequence of a 641-kb Insertion of Mitochondrial DNA in the Arabidopsis thaliana Nuclear Genome.

Author

Fields, Peter D., Waneka, Gus, Naish, Matthew, Schatz, Michael C., Henderson, Ian R., and Sloan, Daniel B.

Subjects

*MITOCHONDRIAL DNA, *ARABIDOPSIS thaliana, *CENTROMERE, *FLUORESCENCE in situ hybridization, *NUCLEOTIDE sequence, *GENOMES

Abstract

Intracellular transfers of mitochondrial DNA continue to shape nuclear genomes. Chromosome 2 of the model plant Arabidopsis thaliana contains one of the largest known nuclear insertions of mitochondrial DNA (numts). Estimated at over 600 kb in size, this numt is larger than the entire Arabidopsis mitochondrial genome. The primary Arabidopsis nuclear reference genome contains less than half of the numt because of its structural complexity and repetitiveness. Recent data sets generated with improved long-read sequencing technologies (PacBio HiFi) provide an opportunity to finally determine the accurate sequence and structure of this numt. We performed a de novo assembly using sequencing data from recent initiatives to span the Arabidopsis centromeres, producing a gap-free sequence of the Chromosome 2 numt, which is 641 kb in length and has 99.933% nucleotide sequence identity with the actual mitochondrial genome. The numt assembly is consistent with the repetitive structure previously predicted from fiber-based fluorescent in situ hybridization. Nanopore sequencing data indicate that the numt has high levels of cytosine methylation, helping to explain its biased spectrum of nucleotide sequence divergence and supporting previous inferences that it is transcriptionally inactive. The original numt insertion appears to have involved multiple mitochondrial DNA copies with alternative structures that subsequently underwent an additional duplication event within the nuclear genome. This work provides insights into numt evolution, addresses one of the last unresolved regions of the Arabidopsis reference genome, and represents a resource for distinguishing between highly similar numt and mitochondrial sequences in studies of transcription, epigenetic modifications, and de novo mutations. [ABSTRACT FROM AUTHOR]

Published

2022

57. CpG Site-Specific Methylation-Modulated Divergent Expression of PRSS3 Transcript Variants Facilitates Nongenetic Intratumor Heterogeneity in Human Hepatocellular Carcinoma.

Author

Lin, Shuye, Xu, Hanli, Pang, Mengdi, Zhou, Xiaomeng, Pan, Yuanming, Zhang, Lishu, Guan, Xin, Wang, Xiaoyue, Lin, Bonan, Tian, Rongmeng, Chen, Keqiang, Zhang, Xiaochen, Yang, Zijiang, Ji, Fengmin, Huang, Yingying, Wei, Wu, Gong, Wanghua, Ren, Jianke, Wang, Ji Ming, and Guo, Mingzhou

Subjects

HEPATOCELLULAR carcinoma, HETEROGENEITY, DNA methylation, TREATMENT effectiveness, PROMOTERS (Genetics)

Abstract

Background: Hepatocellular carcinoma (HCC) is one of the most lethal human tumors with extensive intratumor heterogeneity (ITH). Serine protease 3 (PRSS3) is an indispensable member of the trypsin family and has been implicated in the pathogenesis of several malignancies, including HCC. However, the paradoxical effects of PRSS3 on carcinogenesis due to an unclear molecular basis impede the utilization of its biomarker potential. We hereby explored the contribution of PRSS3 transcripts to tumor functional heterogeneity by systematically dissecting the expression of four known splice variants of PRSS3 (PRSS3-SVs, V1~V4) and their functional relevance to HCC. Methods: The expression and DNA methylation of PRSS3 transcripts and their associated clinical relevance in HCC were analyzed using several publicly available datasets and validated using qPCR-based assays. Functional experiments were performed in gain- and loss-of-function cell models, in which PRSS3 transcript constructs were separately transfected after deleting PRSS3 expression by CRISPR/Cas9 editing. Results: PRSS3 was aberrantly differentially expressed toward bipolarity from very low (PRSS3Low) to very high (PRSS3High) expression across HCC cell lines and tissues. This was attributable to the disruption of PRSS3-SVs , in which PRSS3-V2 and/or PRSS3-V1 were dominant transcripts leading to PRSS3 expression, whereas PRSS3-V3 and -V4 were rarely or minimally expressed. The expression of PRSS3-V2 or -V1 was inversely associated with site-specific CpG methylation at the PRSS3 promoter region that distinguished HCC cells and tissues phenotypically between hypermethylated low-expression (m PRSS3-SVLow) and hypomethylated high-expression (um PRSS3-SVHigh) groups. PRSS3-SVs displayed distinct functions from oncogenic PRSS3-V2 to tumor-suppressive PRSS3-V1 , -V3 or PRSS3-V4 in HCC cells. Clinically, aberrant expression of PRSS3-SVs was translated into divergent relevance in patients with HCC, in which significant epigenetic downregulation of PRSS3-V2 was seen in early HCC and was associated with favorable patient outcome. Conclusions: These results provide the first evidence for the transcriptional and functional characterization of PRSS3 transcripts in HCC. Aberrant expression of divergent PRSS3-SVs disrupted by site-specific CpG methylation may integrate the effects of oncogenic PRSS3-V2 and tumor-suppressive PRSS3-V1 , resulting in the molecular diversity and functional plasticity of PRSS3 in HCC. Dysregulated expression of PRSS3-V2 by site-specific CpG methylation may have potential diagnostic value for patients with early HCC. [ABSTRACT FROM AUTHOR]

Published

2022

58. Selenoproteins and Epigenetic Regulation in Mammals

Author

Lu, Hsin-Yi, Somuncu, Berna, Zhu, Jianhong, Muftuoglu, Meltem, Cheng, Wen-Hsing, Patel, Vinood B., editor, and Preedy, Victor R., editor

Published

2019

59. Promoter CpG methylation status affects ADRP gene expression level and intramuscular fat content in pigs

Author

Yongyan Zhao, Xiangsheng Lin, Kaiqing Liu, Ye Tian, Lifan Zhang, Wei Wei, and Jie Chen

Subjects

adrp, cpg methylation, expression, intramuscular fat, pigs, Animal culture, SF1-1100

Abstract

Adipose differentiation-related protein (ADRP) is a lipid droplet-associated protein that is expressed early during adipose differentiation. However, the underlying mechanism is still unclear. In this study, the porcine ADRP (pADRP) gene regulatory mechanism and its relationship to intramuscular fat (IMF) content are analysed. We investigated the characteristics of the pADRP gene prompter as well as its transcription level, core promoter and epigenetic modification status using real-time PCR, Dual-luciferase reporter assays and bisulphite sequencing. The results showed that pADRP mRNA expression in Longissimus Dorsi (LD) muscle of the low IMF (LEAN) group was lower than that in the high IMF (FAT) group (p

Published

2020

60. CpG Site-Specific Methylation-Modulated Divergent Expression of PRSS3 Transcript Variants Facilitates Nongenetic Intratumor Heterogeneity in Human Hepatocellular Carcinoma

Author

Shuye Lin, Hanli Xu, Mengdi Pang, Xiaomeng Zhou, Yuanming Pan, Lishu Zhang, Xin Guan, Xiaoyue Wang, Bonan Lin, Rongmeng Tian, Keqiang Chen, Xiaochen Zhang, Zijiang Yang, Fengmin Ji, Yingying Huang, Wu Wei, Wanghua Gong, Jianke Ren, Ji Ming Wang, Mingzhou Guo, and Jiaqiang Huang

Subjects

liver cancer, hepatocellular carcinoma, PRSS3, transcript variant, intratumor heterogeneity, CpG methylation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundHepatocellular carcinoma (HCC) is one of the most lethal human tumors with extensive intratumor heterogeneity (ITH). Serine protease 3 (PRSS3) is an indispensable member of the trypsin family and has been implicated in the pathogenesis of several malignancies, including HCC. However, the paradoxical effects of PRSS3 on carcinogenesis due to an unclear molecular basis impede the utilization of its biomarker potential. We hereby explored the contribution of PRSS3 transcripts to tumor functional heterogeneity by systematically dissecting the expression of four known splice variants of PRSS3 (PRSS3-SVs, V1~V4) and their functional relevance to HCC.MethodsThe expression and DNA methylation of PRSS3 transcripts and their associated clinical relevance in HCC were analyzed using several publicly available datasets and validated using qPCR-based assays. Functional experiments were performed in gain- and loss-of-function cell models, in which PRSS3 transcript constructs were separately transfected after deleting PRSS3 expression by CRISPR/Cas9 editing.ResultsPRSS3 was aberrantly differentially expressed toward bipolarity from very low (PRSS3Low) to very high (PRSS3High) expression across HCC cell lines and tissues. This was attributable to the disruption of PRSS3-SVs, in which PRSS3-V2 and/or PRSS3-V1 were dominant transcripts leading to PRSS3 expression, whereas PRSS3-V3 and -V4 were rarely or minimally expressed. The expression of PRSS3-V2 or -V1 was inversely associated with site-specific CpG methylation at the PRSS3 promoter region that distinguished HCC cells and tissues phenotypically between hypermethylated low-expression (mPRSS3-SVLow) and hypomethylated high-expression (umPRSS3-SVHigh) groups. PRSS3-SVs displayed distinct functions from oncogenic PRSS3-V2 to tumor-suppressive PRSS3-V1, -V3 or PRSS3-V4 in HCC cells. Clinically, aberrant expression of PRSS3-SVs was translated into divergent relevance in patients with HCC, in which significant epigenetic downregulation of PRSS3-V2 was seen in early HCC and was associated with favorable patient outcome.ConclusionsThese results provide the first evidence for the transcriptional and functional characterization of PRSS3 transcripts in HCC. Aberrant expression of divergent PRSS3-SVs disrupted by site-specific CpG methylation may integrate the effects of oncogenic PRSS3-V2 and tumor-suppressive PRSS3-V1, resulting in the molecular diversity and functional plasticity of PRSS3 in HCC. Dysregulated expression of PRSS3-V2 by site-specific CpG methylation may have potential diagnostic value for patients with early HCC.

Published

2022

61. Stabilization of VEGF i-motif structure by CpG methylation.

Author

Kimura, Kosuke, Oshikawa, Daiki, Ikebukuro, Kazunori, and Yoshida, Wataru

Subjects

*METHYLATION, *BASE pairs, *CIRCULAR dichroism, *CELL physiology, *NUCLEIC acids, *CYTOSINE

Abstract

The intercalated motif (i-motif) is a non-canonical nucleic acid structure formed by intercalated hemi-protonated cytosine base pairs (C–C+) under acidic conditions. The i-motif structure formation is involved in biological processes such as transcription regulation. Therefore, the identification of factors controlling i-motif formation is important in elucidating the cellular functions it controls. We previously reported that the VEGF G-quadruplex structure is stabilized by CpG methylation. In this study, the effect of CpG methylation on the stability of the VEGF i-motif structure was investigated. The VEGF i-motif-forming oligonucleotide contains four cytosines on CpG sites, and three of the four cytosines (C4, C15, and C20) are involved in C–C+ formation in the i-motif structure. Circular dichroism (CD) spectra analysis demonstrated that full CpG methylation increased the pH of mid transition (pH T) of the i-motif structure by 0.1, and the melting temperature (T m) by 5.1 °C in 25 mM sodium cacodylate buffer at pH 5.0. Moreover, single methylation at C4, C15, and C20 increased T m by 0.5, 1.7, and 2.0 °C in the buffer, respectively. These results demonstrated that CpG methylation stabilized the VEGF i-motif structure. [Display omitted] • Full CpG methylation increased the pH of mid transition of the VEGF i-motif by 0.1. • Full CpG methylation increased the melting temperature at pH 5.0 by 5.1 °C. • Methylation at cytosines involved in C–C+ formation stabilized the i-motif. [ABSTRACT FROM AUTHOR]

Published

2022

62. Oligoribonucleotide interference-PCR: principles and applications.

Author

Shimizu, Takeshi, Fujita, Toshitsugu, and Fujii, Hodaka

Subjects

*NUCLEOTIDES, *POLYMERASE chain reaction, *MOLECULAR biology, *CANCER cells, *NUCLEOTIDE sequence

Abstract

Polymerase chain reaction (PCR) amplification of multiple templates using common primers is used widely for molecular biological research and clinical diagnosis. However, amplifying a specific DNA sequence harboring a mutation that is present in a small number of mutant cells within a large population of normal cells (e.g. as in cancer) in a tissue is difficult using the original PCR protocol. Thus, some measures are necessary to suppress amplification of background signals. To achieve this, we developed the oligoribonucleotide (ORN) interference-PCR (ORNi-PCR) technology in which an ORN (short RNA) hybridizes with a complementary DNA sequence to inhibit PCR amplification across the specific target sequence. ORNs can be prepared inexpensively, and ORNi-PCR can be carried out easily by adding ORNs to the PCR reaction mixture. Suppressing amplification of target sequences by ORNi-PCR is useful for detecting target sequence mutations. We showed that ORNi-PCR can discriminate single-nucleotide mutations in cancer cells and indel mutations introduced by genome editing. We also showed that ORNi-PCR can identify the CpG methylation status of a target sequence within bisulfite-treated DNA, and can enrich DNA sequences of interest from a DNA mixture by suppressing amplification of unwanted sequences. Thus, ORNi-PCR has many potential applications in various fields, including medical diagnosis and molecular biology. In this review, we outline the principles of the ORNi-PCR method and its use to detect nucleotide mutations in a variety of specimens. [ABSTRACT FROM AUTHOR]

Published

2022

63. time is ripe to investigate human centromeres by long-read sequencing†.

Author

Suzuki, Yuta and Morishita, Shinichi

Abstract

The complete sequencing of human centromeres, which are filled with highly repetitive elements, has long been challenging. In human centromeres, α-satellite monomers of about 171 bp in length are the basic repeating units, but α-satellite monomers constitute the higher-order repeat (HOR) units, and thousands of copies of highly homologous HOR units form large arrays, which have hampered sequence assembly of human centromeres. Because most HOR unit occurrences are covered by long reads of about 10 kb, the recent availability of much longer reads is expected to enable observation of individual HOR occurrences in terms of their single-nucleotide or structural variants. The time has come to examine the complete sequence of human centromeres. [ABSTRACT FROM AUTHOR]

Published

2021

64. Molecular-Genetic Diagnostics of Angelman Syndrome – The Bulgarian Experience

Author

Georgieva B., Atemin S., Todorova A., Todorov T., Miteva A., Avdjieva-Tzavella D., and Mitev V.

Subjects

angelman syndrome, ube3a, imprinting center, cpg methylation, 15q11.2-q13, paternal upd, Medicine

Abstract

Objective: The aim of the study was to determine the molecular mechanisms of mutagenesis in Bulgarian patients with Angelman syndrome (AS). AS is a severe neurodevelopmental disorder caused by loss of expression in brain of the maternally inherited UBE3A gene as a result of various 15q11.2-q13 alterations.

Published

2020

65. The Novel Methylation Biomarker NPY5R Sensitizes Breast Cancer Cells to Chemotherapy

Author

Jiazhou Liu, Xiaoyu Wang, Jiazheng Sun, Yuru Chen, Jie Li, Jing Huang, Huimin Du, Lu Gan, Zhu Qiu, Hongzhong Li, Guosheng Ren, and Yuxian Wei

Subjects

breast cancer, NPY5R, WGCNA, IL6, stat3, CpG methylation, Biology (General), QH301-705.5

Abstract

Breast cancer (BC) is the most common tumor in women, and the molecular mechanism underlying its pathogenesis remains unclear. In this study, we aimed to investigate gene modules related to the phenotypes of BC, and identify representative candidate biomarkers for clinical prognosis of BC patients. Using weighted gene co-expression network analysis, we here identified NPY5R as a hub gene in BC. We further found that NPY5R was frequently downregulated in BC tissues compared with adjacent tumor-matched control tissues, due to its aberrant promoter CpG methylation which was confirmed by methylation analysis and treatment with demethylation agent. Higher expression of NPY5R was closely associated with better prognosis for BC patients. Gene set enrichment analysis showed that transcriptome signatures concerning apoptosis and cell cycle were critically enriched in specimens with elevated NPY5R. Ectopic expression of NPY5R significantly curbed breast tumor cell growth, induced cell apoptosis and G2/M arrest. Moreover, NPY5R also promoted the sensitivity of BC cells to doxorubicin. Mechanistically, we found that NPY5R restricted STAT3 signaling pathway activation through interacting with IL6, which may be responsible for the antitumor activity of NPY5R. Collectively, our findings indicate that NPY5R functions as a tumor suppressor but was frequently downregulated in BC.

Published

2022

66. Myotonic dystrophy type 1 embryonic stem cells show decreased myogenic potential, increased CpG methylation at the DMPK locus and RNA mis-splicing

Author

Silvie Franck, Edouard Couvreu De Deckersberg, Jodi L. Bubenik, Christina Markouli, Lise Barbé, Joke Allemeersch, Pierre Hilven, Geoffrey Duqué, Maurice S. Swanson, Alexander Gheldof, Claudia Spits, and D. Karen

Subjects

myotonic dystrophy type 1, human embryonic stem cells, myogenic differentiation, cpg methylation, rna mis-splicing, Science, Biology (General), QH301-705.5

Abstract

Skeletal muscle tissue is severely affected in myotonic dystrophy type 1 (DM1) patients, characterised by muscle weakness, myotonia and muscle immaturity in the most severe congenital form of the disease. Previously, it was not known at what stage during myogenesis the DM1 phenotype appears. In this study we differentiated healthy and DM1 human embryonic stem cells to myoblasts and myotubes and compared their differentiation potential using a comprehensive multi-omics approach. We found myogenesis in DM1 cells to be abnormal with altered myotube generation compared to healthy cells. We did not find differentially expressed genes between DM1 and non-DM1 cell lines within the same developmental stage. However, during differentiation we observed an aberrant inflammatory response and increased CpG methylation upstream of the CTG repeat at the myoblast level and RNA mis-splicing at the myotube stage. We show that early myogenesis modelled in hESC reiterates the early developmental manifestation of DM1.

Published

2022

67. Gene Expression and Epigenetic Modification of Aromatase during Sex Reversal and Gonadal Development in Blotched Snakehead (Channa maculata)

Author

Sujing Huang, Yuxia Wu, Kunci Chen, Xiaotian Zhang, Jian Zhao, Qing Luo, Haiyang Liu, Fang Wang, Kaibin Li, Shuzhan Fei, Xincheng Zhang, and Mi Ou

Subjects

aromatase, sex reversal, gene expression, CpG methylation, Channa maculata, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

The cyp19a1 gene codes aromatase that converts androgen to estrogen, which plays a central role in early female differentiation and ovarian development in teleosts. For the blotched snakehead (Channa maculata), an important aquaculture fish that is susceptible to hormone-induced sex reversal, two aromatase genes were characterized in the present study, cyp19a1a and cyp19a1b. We analyzed gene expression and the epigenetic state of cyp19a1a and cyp19a1b in different adult tissues: the gonad and brain from normal XX females (XX-F), normal XY males (XY-M), sex-reversal females (XY-F) induced by estrogen, and YY super-males (YY-M), and gonads at different development stages. Cyp19a1a exhibited strong female-biased expression patterns in the ovary, and cyp19a1b dominantly expressed in the brain with no sex bias. Cyp19a1a’s expression pattern in the XY-F ovary was similar to that in the XX-F ovary, with a relatively high expression level, which was far higher than that in XY-M and YY-M testis. Meanwhile, CpG methylation levels of cyp19a1a promoter were lower in XX-F and XY-F ovaries compared with XY-M and YY-M testis. A significantly negative correlation between the CpG methylation levels and cyp19a1a expression was elucidated in XX-F, XY-M, XY-F, and YY-M gonads. Furthermore, the strong female-biased cyp19a1a expression was closely related to ovarian differentiation and maturation, and the overall methylation levels of cyp19a1a promoter were inversely correlated with cyp19a1a expression. There were no detectable sexually dimorphic differences in cyp19a1b expression and CpG methylation levels of cyp19a1b promoter in the brain and gonad between sexes in C. maculata, thus the function of cyp19a1b in C. maculata needs further research. Our research illustrates that cyp19a1a is closely related to estrogen production, ovary differentiation/maintenance, and sex reversal, and epigenetic modification plays a crucial part in maintaining the sexual dimorphic expression of cyp19a1a, ovarian differentiation and oogenesis in C. maculata.

Published

2023

68. α-Synuclein and Mechanisms of Epigenetic Regulation

Author

Andrei Surguchov

Subjects

α-synuclein, epigenetic, DNA-binding proteins, DNA methyltransferase, CpG methylation, chromatin remodeling, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Synucleinopathies are a group of neurodegenerative diseases with common pathological lesions associated with the excessive accumulation and abnormal intracellular deposition of toxic species of α-synuclein. The shared clinical features are chronic progressive decline of motor, cognitive, and behavioral functions. These disorders include Parkinson’s disease, dementia with Lewy body, and multiple system atrophy. Vigorous research in the mechanisms of pathology of these illnesses is currently under way to find disease-modifying treatment and molecular markers for early diagnosis. α-Synuclein is a prone-to-aggregate, small amyloidogenic protein with multiple roles in synaptic vesicle trafficking, neurotransmitter release, and intracellular signaling events. Its expression is controlled by several mechanisms, one of which is epigenetic regulation. When transmitted to the nucleus, α-synuclein binds to DNA and histones and participates in epigenetic regulatory functions controlling specific gene transcription. Here, we discuss the various aspects of α-synuclein involvement in epigenetic regulation in health and diseases.

Published

2023

69. Epigenetic Modification of Cytosines in Hematopoietic Differentiation and Malignant Transformation

Author

Jungeun An and Myunggon Ko

Subjects

CpG methylation, DNMT enzyme, TET dioxygenases, hematopoietic stem cells, clonal hematopoiesis, blood cancer, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The mammalian DNA methylation landscape is established and maintained by the combined activities of the two key epigenetic modifiers, DNA methyltransferases (DNMT) and Ten-eleven-translocation (TET) enzymes. Once DNMTs produce 5-methylcytosine (5mC), TET proteins fine-tune the DNA methylation status by consecutively oxidizing 5mC to 5-hydroxymethylcytosine (5hmC) and further oxidized derivatives. The 5mC and oxidized methylcytosines are essential for the maintenance of cellular identity and function during differentiation. Cytosine modifications with DNMT and TET enzymes exert pleiotropic effects on various aspects of hematopoiesis, including self-renewal of hematopoietic stem/progenitor cells (HSPCs), lineage determination, differentiation, and function. Under pathological conditions, these enzymes are frequently dysregulated, leading to loss of function. In particular, the loss of DNMT3A and TET2 function is conspicuous in diverse hematological disorders, including myeloid and lymphoid malignancies, and causally related to clonal hematopoiesis and malignant transformation. Here, we update recent advances in understanding how the maintenance of DNA methylation homeostasis by DNMT and TET proteins influences normal hematopoiesis and malignant transformation, highlighting the potential impact of DNMT3A and TET2 dysregulation on clonal dominance and evolution of pre-leukemic stem cells to full-blown malignancies. Clarification of the normal and pathological functions of DNA-modifying epigenetic regulators will be crucial to future innovations in epigenetic therapies for treating hematological disorders.

Published

2023

70. A CpG Methylation Signature as a Potential Marker for Early Diagnosis of Hepatocellular Carcinoma From HBV-Related Liver Disease Using Multiplex Bisulfite Sequencing.

Author

Li, Kang, Song, Yi, Qin, Ling, Li, Ang, Jiang, Sanjie, Ren, Lei, Zang, Chaoran, Sun, Jianping, Zhao, Yan, and Zhang, Yonghong

Subjects

HEPATOCELLULAR carcinoma, MONONUCLEAR leukocytes, LIVER diseases, EARLY diagnosis, RECEIVER operating characteristic curves, METHYLATION

Abstract

Background: Aberrant methylation of CpG sites served as an epigenetic marker for building diagnostic, prognostic, and recurrence models for hepatocellular carcinoma (HCC). Methods: Using Illumina 450K and EPIC Beadchip, we identified 34 CpG sites in peripheral blood mononuclear cell (PBMC) DNA that were differentially methylated in early HCC versus HBV-related liver diseases (HBVLD). We employed multiplex bisulfite sequencing (MBS) based on next-generation sequencing (NGS) to measure methylation of 34 CpG sites in PBMC DNA from 654 patients that were divided into a training set (n = 442) and a test set (n = 212). Using the training set, we selected and built a six-CpG-scorer (namely, cg14171514, cg07721852, cg05166871, cg18087306, cg05213896, and cg18772205), applying least absolute shrinkage and selection operator (LASSO) regression. We performed multivariable analyses of four candidate risk predictors (namely, six-CpG-scorer, age, sex, and AFP level), using 20 times imputation of missing data, non-linearly transformed, and backwards feature selection with logistic regression. The final model's regression coefficients were calculated according to "Rubin's Rules". The diagnostic accuracy of the model was internally validated with a 10,000 bootstrap validation dataset and then applied to the test set for validation. Results: The area under the receiver operating characteristic curve (AUROC) of the model was 0.81 (95% CI, 0.77–0.85) and it showed good calibration and decision curve analysis. Using enhanced bootstrap validation, adjusted C-statistics and adjusted Brier score were 0.809 and 0.199, respectively. The model also showed an AUROC value of 0.84 (95% CI 0.79–0.88) of diagnosis for early HCC in the test set. Conclusions: Our model based on the six-CpG-scorer was a reliable diagnosis tool for early HCC from HBVLD. The usage of the MBS method can realize large-scale detection of CpG sites in clinical diagnosis of early HCC and benefit the majority of patients. [ABSTRACT FROM AUTHOR]

Published

2021

71. MIR137/MIR2682 locus is associated with perineural invasiveness in head and neck cancer.

Author

Čelešnik, Helena, Büdefeld, Tomaž, Čizmarević, Bogdan, Švagan, Matija, and Potočnik, Uroš

Subjects

*MICRORNA, *CANCER invasiveness, *HEAD & neck cancer, *CONDUCTION anesthesia, *CANCER relapse, *PROGNOSIS, *TUMOR suppressor proteins

Abstract

Background: Head and neck cancer (HNSCC) is one of the most lethal cancers characterized by high relapse and poor prognosis. Several miRNAs have been implicated in HNSCC, including the tumor suppressor miR‐137. A large CpG island (CpG73) spans most of the miR‐137 gene sequence and stretches 659‐bp downstream, ending just upstream of miR‐2682 in the same host gene. Here, we assessed the role of the MIR137/MIR2682 locus in HNSCC. Methods: MiRNA expression was analyzed in paired cancerous and normal tissues from 77 HNSCC patients by Quantitative Reverse‐Transcription PCR. CpG73 methylation in paired tissues from 48 patients was determined by combined bisulfite restriction analysis. Associations between expression and methylation levels and patient clinicopathological parameters were investigated. Results: Decreased expression of miR‐137 (P<0.01) and miR‐2682 (P<0.01) precursors was observed in cancerous tissues, most significantly in oropharyngeal tumors. Lower miR‐137 levels correlated with increased perineural invasiveness (P = 0.04). Predicted common miRNA targets MTDH and Notch1 were upregulated in tumor tissues. The CpG73 region between miR‐137 and miR‐2682 was hypermethylated in tumors. Methylation was observed in 60.4% of cancerous compared to 31.6% of normal tissues, and methylation levels were significantly higher (P<0.01) in tumors. Increased methylation correlated with decreased disease‐free patient survival (P = 0.024). Conclusion: The MIR137/MIR2682 locus correlated with HNSCC perineural invasiveness. This is the first report showing miR‐2682 downregulation in head and neck cancer. Our results support the tumor suppressive role of miR‐137 and miR‐2682. The inverse correlation between CpG73 hypermethylation and disease‐free survival suggests this epigenetic mark may have prognostic value in HNSCC. [ABSTRACT FROM AUTHOR]

Published

2021

72. C2orf40 inhibits hepatocellular carcinoma through interaction with UBR5.

Author

Wu, Yue, Xiang, Qin, Lv, Xiaoqin, Xiang, Xia, Feng, Zhihao, Tian, Shaorong, Tang, Jun, Xiang, Tingxiu, and Gong, Jianping

Subjects

*HEPATOCELLULAR carcinoma, *TUMOR suppressor genes, *IMMUNOHISTOCHEMISTRY, *LIVER cancer, *CELL migration

Abstract

Background and Aim: Hepatocellular carcinoma (HCC) urgently needs a marker for early diagnosis and targeted treatment. C2orf40 has been identified as a tumor suppressor gene in many cancers. However, the precise role and regulatory mechanism by C2orf40 contribute to HCC remain elusive and merit exploration. Methods: Reverse‐transcription PCR, quantitative real‐time PCR, and methylation‐specific PCR were used to detect expression and methylation of C2orf40 in HCC cell lines or tissues. The effects of C2orf40 in liver cancer cells were examined via colony formation, CCK8, transwell, and flow cytometric assays. The effect of C2orf40 on tumorigenesis in vivo was determined by xenografts and immunohistochemical analysis. Western blot, indirect immunofluorescence, Co‐IP, and cycloheximide (CHX) were used to further investigate the potential mechanism of C2orf40. Results: The down‐regulation of C2orf40 in hepatocellular cancer tissue samples is often related to the degree of methylation of its promoter CpG. The recovery of C2orf40 expression in HCC cell lines can induce G0/G1 phase arrest and apoptosis and also inhibit cell migration and invasion by reversing the epithelial–mesenchymal transition (EMT) process, both in vivo and in vitro. In addition, C2orf40 can increase the expression of p21 through interaction with UBR5. Conclusions: Low expression levels of C2orf40 are related to the hypermethylation of its promoter. C2orf40 can inhibit HCC through UBR5‐dependent or p53‐independent mechanisms. C2orf40 may be a diagnostic biomarker and a potential therapeutic target in HCC. [ABSTRACT FROM AUTHOR]

Published

2021

73. RUNX3 PROMOTER METHYLATION IS ASSOCIATED WITH ORAL SQUAMOUS CELL CARCINOMA LOCATION.

Author

ONYEGBULA, Kenneth C., EMIKPE, Benjamin O., ADISA, Akinyele O., and ANUMUDU, Chiaka I.

Subjects

*TUMOR suppressor genes, *SQUAMOUS cell carcinoma, *METHYLATION, *CARCINOGENS, *PROMOTERS (Genetics), *POLYMERASE chain reaction

Abstract

The aetiology of OSCC remains unclear, however, aberrant methylation of CpG island promoters of tumor suppressor genes have been identified as contributory developmental pathways in several cancers. The aim of this study was to determine the presence of RUNX3 gene methylation and how its association with patients' demographic variables such as gender, age, histologic class and tumor location could be of diagnostic value for OSCC. Sixty-seven formalin-fixed paraffin-embedded (FFPE) solid tissue blocks of OSCC, and nine blocks of benign oral lesions of epithelial origin retrieved from the archives of the Department of Oral Pathology, University College Hospital, Ibadan, South-West Nigeria were used for the analyses. Frequency of CpG island methylation in the promoter region of RUNX3 was determined by methylation-specific polymerase chain reaction (MSP). Association between gender, age, tumor location, histologic class and promoter methylation in RUNX3 was assessed with Pearson's X2 test. Overall, 45% (30/67) of OSCC demonstrated methylation in the RUNX3 promoter indicating a high frequency of methylation of the CpG island promoter region of RUNX3. There was no association between gender, age, histologic class and promoter methylation in RUNX3 (P > 0.05), however a significant association was observed between tumor location and promoter methylation of RUNX3 (P < 0.05). Aberrant methylation of the CpG island promoter region of RUNX3 together with tumor location could therefore be critical in the development and diagnosis of OSCC. [ABSTRACT FROM AUTHOR]

Published

2021

74. Structural impact of complete CpG methylation within target DNA on specific complex formation of the inducible transcription factor Egr-1

Author

Iwahara, Junji [Univ. of Texas Medical Branch, Galveston, TX (United States)]

Published

2015

75. A CpG Methylation Signature as a Potential Marker for Early Diagnosis of Hepatocellular Carcinoma From HBV-Related Liver Disease Using Multiplex Bisulfite Sequencing

Author

Kang Li, Yi Song, Ling Qin, Ang Li, Sanjie Jiang, Lei Ren, Chaoran Zang, Jianping Sun, Yan Zhao, and Yonghong Zhang

Subjects

multiplex bisulfite sequencing, CpG methylation, early HCC, diagnostic model, enhanced bootstrap validation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundAberrant methylation of CpG sites served as an epigenetic marker for building diagnostic, prognostic, and recurrence models for hepatocellular carcinoma (HCC).MethodsUsing Illumina 450K and EPIC Beadchip, we identified 34 CpG sites in peripheral blood mononuclear cell (PBMC) DNA that were differentially methylated in early HCC versus HBV-related liver diseases (HBVLD). We employed multiplex bisulfite sequencing (MBS) based on next-generation sequencing (NGS) to measure methylation of 34 CpG sites in PBMC DNA from 654 patients that were divided into a training set (n = 442) and a test set (n = 212). Using the training set, we selected and built a six-CpG-scorer (namely, cg14171514, cg07721852, cg05166871, cg18087306, cg05213896, and cg18772205), applying least absolute shrinkage and selection operator (LASSO) regression. We performed multivariable analyses of four candidate risk predictors (namely, six-CpG-scorer, age, sex, and AFP level), using 20 times imputation of missing data, non-linearly transformed, and backwards feature selection with logistic regression. The final model’s regression coefficients were calculated according to “Rubin’s Rules”. The diagnostic accuracy of the model was internally validated with a 10,000 bootstrap validation dataset and then applied to the test set for validation.ResultsThe area under the receiver operating characteristic curve (AUROC) of the model was 0.81 (95% CI, 0.77–0.85) and it showed good calibration and decision curve analysis. Using enhanced bootstrap validation, adjusted C-statistics and adjusted Brier score were 0.809 and 0.199, respectively. The model also showed an AUROC value of 0.84 (95% CI 0.79–0.88) of diagnosis for early HCC in the test set.ConclusionsOur model based on the six-CpG-scorer was a reliable diagnosis tool for early HCC from HBVLD. The usage of the MBS method can realize large-scale detection of CpG sites in clinical diagnosis of early HCC and benefit the majority of patients.

Published

2021

76. Gastritis-Infection-Cancer Sequence of Epstein-Barr Virus-Associated Gastric Cancer

Author

Fukayama, Masashi, Kunita, Akiko, Kaneda, Atsushi, COHEN, IRUN R., Series Editor, LAJTHA, ABEL, Series Editor, LAMBRIS, JOHN D., Series Editor, PAOLETTI, RODOLFO, Series Editor, REZAEI, NIMA, Series Editor, Kawaguchi, Yasushi, editor, Mori, Yasuko, editor, and Kimura, Hiroshi, editor

Published

2018

77. Next-Generation Sequencing Analysis of CpG Methylation of a Tumor Suppressor Gene SHP-1 Promoter in Stable Cell Lines and HCV-Positive Patients

Author

Priya Devi, Katarina Engdahl, Tanel Punga, and Anders Bergqvist

Subjects

HCV, SHP-1, CpG methylation, next-generation sequencing, Microbiology, QR1-502

Abstract

Hepatitis C virus (HCV) is the major causative pathogen associated with hepatocellular carcinoma and liver cirrhosis. The main virion component, the Core (C) protein, is involved in multiple aspects of HCV pathology including oncogenesis and immune evasion. In this study, we established a next-generation bisulfite sequencing (NGS-BS) protocol to analyze the CpG methylation profile at the tumor suppressor gene SHP-1 P2 promoter as a model system. Our data show that HCV C protein expression in the immortalized T cells correlated with a specific CpG methylation profile at the SHP-1 P2. The NGS-BS on HCV-positive (HCV+) patient-derived PBMCs revealed a considerably different CpG methylation profile compared to the HCV C protein immortalized T cells. Notably, the CpG methylation profile was very similar in healthy and HCV+ PBMCs, suggesting that the SHP-1 P2 CpG methylation profile is not altered in the HCV+ individuals. Collectively, the NGS-BS is a highly sensitive method that can be used to quantitatively characterize the CpG methylation status at the level of individual CpG position and also allows the characterization of cis-acting effects on epigenetic regulation.

Published

2022

78. Epigenetic Suppression of the IL-7 Pathway in Progressive Glioblastoma

Author

Marton Tompa, Zoltan Kraboth, Bence Galik, Bela Kajtar, Attila Gyenesei, and Bernadette Kalman

Subjects

glioblastoma, immune evasion, epigenomics, CpG methylation, interleukin 7 pathway, Biology (General), QH301-705.5

Abstract

Background: Immune evasion in glioblastoma (GBM) shields cancer cells from cytotoxic immune response. Methods: We investigated CpG methylation in promoters, genes, and pathways in 22 pairs of formalin-fixed paraffin-embedded sequential (FFPE) GBM using restricted resolution bisulfite sequencing (RRBS) and bioinformatic analyses. Results: Gene ontology revealed hypermethylation in elements of the innate and adaptive immune system when recurrent GBM samples (GBMrec) were compared to control (CG) and primary GBM samples (GBMprim). Higher methylation levels of the IL-7 signaling pathway and response to IL-7 were found in GBMrec suggesting a progressive blockade of the IL-7 driven T cell response in sequential GBM. Analyses of the Cancer Genome Atlas array-based data confirmed hypermethylation of the IL-7 pathway in recurrent compared with primary GBM. We also quantified DNA CpG methylation in promoter and gene regions of the IL-7 ligand and IL-7 α-receptor subunit in individual samples of a large RRBS-based sequential cohort of GBM in a Viennese database and found significantly higher methylation levels in the IL-7 receptor α-subunit in GBMrec compared with GBMprim. Conclusions: This study revealed the progressive suppression of the IL-7 receptor-mediated pathway as a means of immune evasion by GBM and thereby highlighted it as a new treatment target.

Published

2022

79. Global CpG DNA Methylation Footprint in Kaposi’s Sarcoma

Author

Guy Journo, Anuj Ahuja, David Dias-Polak, Yonatan Eran, Reuven Bergman, and Meir Shamay

Subjects

Kaposi’s sarcoma, CpG methylation, KS, KSHV, gene expression, promoter, Microbiology, QR1-502

Abstract

Kaposi’s sarcoma-associated herpesvirus (KSHV), also familiar as human herpesvirus 8 (HHV-8), is one of the well-known human cancer-causing viruses. KSHV was originally discovered by its association with Kaposi’s sarcoma (KS), a common AIDS-related neoplasia. Additionally, KSHV is associated with two B-lymphocyte disorders; primary effusion lymphoma (PEL) and Multicentric Castlemans Disease (MCD). DNA methylation is an epigenetic modification that is essential for a properly functioning human genome through its roles in chromatin structure maintenance, chromosome stability and transcription regulation. Genomic studies show that expressed promoters tend to be un-methylated whereas methylated promoters tend to be inactive. We have previously revealed the global methylation footprint in PEL cells and found that many cellular gene promoters become differentially methylated and hence differentially expressed in KSHV chronically infected PEL cell lines. Here we present the cellular CpG DNA methylation footprint in KS, the most common malignancy associated with KSHV. We performed MethylationEPIC BeadChip to compare the global methylation status in normal skin compared to KS biopsies, and revealed dramatic global methylation alterations occurring in KS. Many of these changes were attributed to hyper-methylation of promoters and enhancers that regulate genes associated with abnormal skin morphology, a well-known hallmark of KS development. We observed six-fold increase in hypo-methylated CpGs between early stage of KS (plaque) and the more progressed stage (nodule). These observations suggest that hyper-methylation takes place early in KS while hypo-methylation is a later process that is more significant in nodule. Our findings add another layer to the understanding of the relationship between epigenetic changes caused by KSHV infection and tumorigenesis.

Published

2021

80. The Novel Methylation Biomarker SCARA5 Sensitizes Cancer Cells to DNA Damage Chemotherapy Drugs in NSCLC

Author

Qi Peng, Yan Liu, Xuehua Kong, Jie Xian, Lin Ye, Li Yang, Shuliang Guo, Yan Zhang, Lan Zhou, and Tingxiu Xiang

Subjects

tumor marker, SCARA5, CpG methylation, FOXM1, non-small cell lung cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundScavenger Receptor Class A Member 5 (SCARA5), also known as TESR, is expressed in various tissues and organs and participates in host defense. Recent studies have found SCARA5 to produce an anti-tumor effect for multiple tumors, although the mechanistic basis for the effect is unknown.MethodsBioinformatics, methylation-specific polymerase chain reaction (MSP), quantitative real-time PCR, and immunohistochemistry were used to assess promoter methylation and expression of SCARA5 in lung cancer tissues and cell lines. The biological effect of SCARA5 on lung cancer cells was confirmed by the CCK8 assay, colony formation assay, and flow cytometry. GSEA, Western blot, RNA sequencing, and luciferase-based gene reporter assay were used to explore the mechanistic basis for the anti-tumor effect of SCARA5. Chemosensitivity assays were used to evaluate the anti-tumor effect of SCARA5 in conjunction with chemotherapeutic drugs.ResultsWe found SCARA5 to be downregulated in lung cancer cell lines and tissues with SCARA5 levels negatively related to promoter methylation. Ectopic expression of SCARA5 suppressed proliferation of lung cancer both in vitro and in vivo through upregulation of HSPA5 expression, which inhibited FOXM1 expression resulting in G2/M arrest of the A549 cell line. SCARA5 also improved susceptibility of A549 cells to chemotherapeutic drugs that damage DNA.ConclusionSCARA5 was silenced in NSCLC due to promoter methylation and could be a potential tumor marker in NSCLC.

Published

2021

81. Sex Dimorphic Changes in Trh Gene Methylation and Thyroid-Axis Response to Energy Demands in Maternally Separated Rats.

Author

Jaimes-Hoy, Lorraine, Pérez-Maldonado, Adrián, Bahena, Elian Narváez, Guarneros, Natalia de la Cruz, Rodríguez-Rodríguez, Adair, Charli, Jean-Louis, Soberón, Xavier, and Joseph-Bravo, Patricia

Subjects

ELECTRIC power consumption, ADIPOSE tissues, LABORATORY rats, THYROID hormone receptors, METHYLATION

Abstract

The hypothalamus-pituitary-thyroid (HPT) axis regulates energy balance through the pleiotropic action of thyroid hormones. HPT basal activity and stimulation by cold or voluntary exercise are repressed by previous chronic stress in adults. Maternal separation (MS) modifies HPT basal activity; we thus studied the response of the axis to energy demands and analyzed possible epigenetic changes on Trh promoter. Nonhandled (NH) or MS male Wistar rats were cold exposed 1 h at adulthood; Trh expression in the hypothalamic paraventricular nucleus (PVN) and serum thyrotropin (TSH) concentration were increased only in NH rats. Two weeks of voluntary exercise decreased fat mass and increased Trh expression, and thyroid hormones concentration changed proportionally to running distance in NH male rats and MS male rats. Although NH females ran more than MS and much more than males, exercise decreased body weight and fat mass only in NH rats with no change on any parameter of the HPT axis but increased Pomc expression in arcuate-nucleus of NH and Npy in MS females. Overall, the methylation pattern of PVN Trh gene promoter was similar in NH males and females; MS modified methylation of specific CpG sites, a thyroid hormone receptor (THR)-binding site present after the initiation site was hypomethylated in MS males; in MS females, the THR binding site of the proximal promoter (site 4) and 2 sites in the first intron were hypermethylated. Our studies showed that, in a sex-dimorphic manner, MS blunted the responses of HPT axis to energy demands in adult animals and caused methylation changes on Trh promoter that could alter T3 feedback. [ABSTRACT FROM AUTHOR]

Published

2021

82. Global CpG DNA Methylation Footprint in Kaposi's Sarcoma.

Author

Journo, Guy, Ahuja, Anuj, Dias-Polak, David, Eran, Yonatan, Bergman, Reuven, and Shamay, Meir

Subjects

KAPOSI'S sarcoma, DNA methylation, KAPOSI'S sarcoma-associated herpesvirus, EPIGENOMICS, ECOLOGICAL impact, ONCOGENIC viruses, TUMOR suppressor genes

Abstract

Kaposi's sarcoma-associated herpesvirus (KSHV), also familiar as human herpesvirus 8 (HHV-8), is one of the well-known human cancer-causing viruses. KSHV was originally discovered by its association with Kaposi's sarcoma (KS), a common AIDS-related neoplasia. Additionally, KSHV is associated with two B-lymphocyte disorders; primary effusion lymphoma (PEL) and Multicentric Castlemans Disease (MCD). DNA methylation is an epigenetic modification that is essential for a properly functioning human genome through its roles in chromatin structure maintenance, chromosome stability and transcription regulation. Genomic studies show that expressed promoters tend to be un-methylated whereas methylated promoters tend to be inactive. We have previously revealed the global methylation footprint in PEL cells and found that many cellular gene promoters become differentially methylated and hence differentially expressed in KSHV chronically infected PEL cell lines. Here we present the cellular CpG DNA methylation footprint in KS, the most common malignancy associated with KSHV. We performed MethylationEPIC BeadChip to compare the global methylation status in normal skin compared to KS biopsies, and revealed dramatic global methylation alterations occurring in KS. Many of these changes were attributed to hyper-methylation of promoters and enhancers that regulate genes associated with abnormal skin morphology, a well-known hallmark of KS development. We observed six-fold increase in hypo-methylated CpGs between early stage of KS (plaque) and the more progressed stage (nodule). These observations suggest that hyper-methylation takes place early in KS while hypo-methylation is a later process that is more significant in nodule. Our findings add another layer to the understanding of the relationship between epigenetic changes caused by KSHV infection and tumorigenesis. [ABSTRACT FROM AUTHOR]

Published

2021

83. Genetic and epigenetic regulation of skeletal muscle ribosome biogenesis with exercise.

Author

Figueiredo, Vandré C., Wen, Yuan, Alkner, Björn, Fernandez‐Gonzalo, Rodrigo, Norrbom, Jessica, Vechetti, Ivan J., Valentino, Taylor, Mobley, C. Brooks, Zentner, Gabriel E., Peterson, Charlotte A., McCarthy, John J., Murach, Kevin A., and Walden, Ferdinand

Subjects

*ORGANELLE formation, *GENETIC regulation, *SKELETAL muscle, *RIBOSOMAL DNA, *CHLOROPLAST DNA, *RESISTANCE training

Abstract

Key points: Ribosome biogenesis and MYC transcription are associated with acute resistance exercise (RE) and are distinct from endurance exercise in human skeletal muscle throughout a 24 h time course of recovery.A PCR‐based method for relative ribosomal DNA (rDNA) copy number estimation was validated by whole genome sequencing and revealed that rDNA dosage is positively correlated with ribosome biogenesis in response to RE.Acute RE modifies rDNA methylation patterns in enhancer, intergenic spacer and non‐canonical MYC‐associated regions, but not the promoter.Myonuclear‐specific rDNA methylation patterns with acute mechanical overload in mice corroborate and expand on rDNA findings with RE in humans.A genetic predisposition for hypertrophic responsiveness may exist based on rDNA gene dosage. Ribosomes are the macromolecular engines of protein synthesis. Skeletal muscle ribosome biogenesis is stimulated by exercise, although the contribution of ribosomal DNA (rDNA) copy number and methylation to exercise‐induced rDNA transcription is unclear. To investigate the genetic and epigenetic regulation of ribosome biogenesis with exercise, a time course of skeletal muscle biopsies was obtained from 30 participants (18 men and 12 women; 31 ± 8 years, 25 ± 4 kg m–2) at rest and 30 min, 3 h, 8 h and 24 h after acute endurance (n = 10, 45 min cycling, 70% V̇O2max) or resistance exercise (n = 10, 4 × 7 × 2 exercises); 10 control participants underwent biopsies without exercise. rDNA transcription and dosage were assessed using quantitative PCR and whole genome sequencing. rDNA promoter methylation was investigated using massARRAY EpiTYPER and global rDNA CpG methylation was assessed using reduced‐representation bisulphite sequencing. Ribosome biogenesis and MYC transcription were associated primarily with resistance but not endurance exercise, indicating preferential up‐regulation during hypertrophic processes. With resistance exercise, ribosome biogenesis was associated with rDNA gene dosage, as well as epigenetic changes in enhancer and non‐canonical MYC‐associated areas in rDNA, but not the promoter. A mouse model of in vivo metabolic RNA labelling and genetic myonuclear fluorescence labelling validated the effects of an acute hypertrophic stimulus on ribosome biogenesis and Myc transcription, and also corroborated rDNA enhancer and Myc‐associated methylation alterations specifically in myonuclei. The present study provides the first information on skeletal muscle genetic and rDNA gene‐wide epigenetic regulation of ribosome biogenesis in response to exercise, revealing novel roles for rDNA dosage and CpG methylation. Key points: Ribosome biogenesis and MYC transcription are associated with acute resistance exercise (RE) and are distinct from endurance exercise in human skeletal muscle throughout a 24 h time course of recovery.A PCR‐based method for relative ribosomal DNA (rDNA) copy number estimation was validated by whole genome sequencing and revealed that rDNA dosage is positively correlated with ribosome biogenesis in response to RE.Acute RE modifies rDNA methylation patterns in enhancer, intergenic spacer and non‐canonical MYC‐associated regions, but not the promoter.Myonuclear‐specific rDNA methylation patterns with acute mechanical overload in mice corroborate and expand on rDNA findings with RE in humans.A genetic predisposition for hypertrophic responsiveness may exist based on rDNA gene dosage. [ABSTRACT FROM AUTHOR]

Published

2021

84. The Novel Methylation Biomarker SCARA5 Sensitizes Cancer Cells to DNA Damage Chemotherapy Drugs in NSCLC.

Author

Peng, Qi, Liu, Yan, Kong, Xuehua, Xian, Jie, Ye, Lin, Yang, Li, Guo, Shuliang, Zhang, Yan, Zhou, Lan, and Xiang, Tingxiu

Subjects

CANCER cells, DNA damage, METHYLATION, NON-small-cell lung carcinoma, TUMOR suppressor genes, BIOMARKERS

Abstract

Background: Scavenger Receptor Class A Member 5 (SCARA5), also known as TESR, is expressed in various tissues and organs and participates in host defense. Recent studies have found SCARA5 to produce an anti-tumor effect for multiple tumors, although the mechanistic basis for the effect is unknown. Methods: Bioinformatics, methylation-specific polymerase chain reaction (MSP), quantitative real-time PCR, and immunohistochemistry were used to assess promoter methylation and expression of SCARA5 in lung cancer tissues and cell lines. The biological effect of SCARA5 on lung cancer cells was confirmed by the CCK8 assay, colony formation assay, and flow cytometry. GSEA, Western blot, RNA sequencing, and luciferase-based gene reporter assay were used to explore the mechanistic basis for the anti-tumor effect of SCARA5. Chemosensitivity assays were used to evaluate the anti-tumor effect of SCARA5 in conjunction with chemotherapeutic drugs. Results: We found SCARA5 to be downregulated in lung cancer cell lines and tissues with SCARA5 levels negatively related to promoter methylation. Ectopic expression of SCARA5 suppressed proliferation of lung cancer both in vitro and in vivo through upregulation of HSPA5 expression, which inhibited FOXM1 expression resulting in G2/M arrest of the A549 cell line. SCARA5 also improved susceptibility of A549 cells to chemotherapeutic drugs that damage DNA. Conclusion: SCARA5 was silenced in NSCLC due to promoter methylation and could be a potential tumor marker in NSCLC. [ABSTRACT FROM AUTHOR]

Published

2021

85. Inhibition of CpG methylation improves the barrier integrity of bronchial epithelial cells in asthma.

Author

Wawrzyniak, Paulina, Krawczyk, Krzysztof, Acharya, Swati, Tan, Ge, Wawrzyniak, Marcin, Karouzakis, Emmanuel, Dreher, Anita, Jakiela, Bogdan, Altunbulakli, Can, Sanak, Marek, O'Mahony, Liam, Nadeau, Kari, and Akdis, Cezmi A.

Subjects

*EPITHELIAL cells, *ASTHMA, *METHYLATION, *DNA methyltransferases, *METHYLTRANSFERASES, *PROTEIN arginine methyltransferases

Abstract

Asthma, CpG methylation, DNA methyltransferases, tight junction Keywords: asthma; CpG methylation; DNA methyltransferases; tight junction EN asthma CpG methylation DNA methyltransferases tight junction 1864 1868 5 06/18/21 20210601 NES 210601 Abbreviations ALI air-liquid interface BEGM bronchial epithelial growth medium DNMT DNA methyltransferase FITC fluorescein isothiocyanate HBEC human bronchial epithelial cells LINE-1 long interspersed nuclear element-1 5-mc 5-methylcytosine TER transepithelial electric resistance ZO zonula occludens Asthma is a complex and heterogeneous chronic airway inflammatory disease with the involvement of environmental factors through epigenetic mechanisms.1 Accordingly, repeated injury, repair, and regeneration of the airway epithelium following exposure to environmental factors and inflammation results in histological changes and functional abnormalities in the airway mucosal epithelium, which are associated with the pathophysiology of asthma.2 Epigenetics is defined by heritable changes in gene expression without changes in the DNA sequence.3 Regulation of gene expression is mediated by different mechanisms such as DNA methylation, histone modifications, and RNA-associated silencing by small non-coding RNAs. [Extracted from the article]

Published

2021

86. Associations between placental CpG methylation of metastable epialleles and childhood body mass index across ages one, two and ten in the Extremely Low Gestational Age Newborns (ELGAN) cohort

Author

Jeliyah Clark, Elizabeth Martin, Catherine M. Bulka, Lisa Smeester, Hudson P. Santos, T.Michael O’Shea, and Rebecca C. Fry

Subjects

metastable epialleles, placenta, epigenetics, cpg methylation, body mass index, child health, Genetics, QH426-470

Abstract

The Developmental Origins of Health and Disease (DOHaD) hypothesis posits that in utero and early life conditions can disrupt normal fetal development and program susceptibility to later-life disease. Metastable epialleles are genomic loci in which CpG methylation patterning is responsive to maternal diet and conserved across time and tissues. Thus, these sites could serve as ‘signatures’ of gestational environment conditions. Here, we sought to determine if methylation of metastable epialleles was associated with changes in childhood body mass index (BMI) z-scores across ages one, two and ten in the Extremely Low Gestational Age Newborns (ELGAN) cohort. CpG methylation of 250 probes (corresponding to 111 genes) within metastable epiallele regions was measured in placental tissue. Linear mixed effects models were fit to evaluate the overall and sex-stratified associations between methylation and changes in BMI z-score over time. In total, 26 probes were associated (p

Published

2019

87. CpG Methylation Altered the Stability and Structure of the i-Motifs Located in the CpG Islands

Author

Daiki Oshikawa, Shintaro Inaba, Yudai Kitagawa, Kaori Tsukakoshi, and Kazunori Ikebukuro

Subjects

CpG methylation, epigenetics, CpG islands, i-motif, G-quadruplex, pH dependance, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Cytosine methylation within the 5′-C-phosphate-G-3′ sequence of nucleotides (called CpG methylation) is a well-known epigenetic modification of genomic DNA that plays an important role in gene expression and development. CpG methylation is likely to be altered in the CpG islands. CpG islands are rich in cytosine, forming a structure called the i-motif via cytosine-cytosine hydrogen bonding. However, little is known about the effect of CpG methylation on the i-motif. In this study, The CpG methylation-induced structural changes on the i-motif was examined by thermal stability, circular dichroism (CD) spectroscopy, and native-polyacrylamide gel electrophoresis (Native-PAGE) evaluation of five i-motif-forming DNAs from four cancer-related genes (VEGF, C-KIT, BCL2, and HRAS). This research shows that CpG methylation increased the transitional pH of several i-motif-forming DNAs and their thermal stability. When examining the effect of CpG methylation on the i-motif in the presence of opposite G4-forming DNAs, CpG methylation influenced the proportion of G4 and i-motif formation. This study showed that CpG methylation altered the stability and structure of the i-motif in CpG islands.

Published

2022

88. OPCML is hypermethylated in a subset of patients with metaplastic changes in their esophagus

Author

Natalia Castaño-Rodríguez, Georgia L. Popple, Gloria Liliana Porras-Hurtado, José Luis Cardona-Deazza, Juan José Montoya-Martinez, Antonio Javier Cadavid-Velez, Héctor William Toro-Hidalgo, Alba Ruth Cobo-Alvarado, Ofelia del Socorro Hincapié-Rincón, Stephen M. Riordan, and Nadeem O. Kaakoush

Subjects

OPCML, CpG methylation, Dysplasia, Adenocarcinoma, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract OPCML hypermethylation is considered a promising cancer biomarker. We examined methylation levels in the first exon of OPCML in two patient cohorts within the esophageal adenocarcinoma and gastric adenocarcinoma cascades and in a range of cell-lines using a custom PyroMark CpG assay. Methylation levels were significantly higher in esophageal tissue with histologically confirmed glandular mucosa as compared to tissue from normal esophagi or gastro-esophageal reflux disease. Higher levels of OPCML methylation were absent in the adjacent normal esophageal tissue of patients with glandular mucosa. Higher levels of methylation were confirmed in cell-lines derived from patients with adenocarcinoma, but also detected in two cell-lines with signs of dysplasia. We validated our assay by showing no differences in methylation levels in DNA extracted from blood of patients within the gastric adenocarcinoma cascade. OPCML hypermethylation is present in a subset of patients with metaplastic changes in their esophagus.

Published

2018

89. Epigenetics and Its Role in Human Cancer

Author

Raj, Utkarsh, Varadwaj, Pritish Kumar, Chen, Zhu, Series editor, Shen, Xiaoming, Series editor, Chen, Saijuan, Series editor, Dai, Kerong, Series editor, Wei, Dong-Qing, editor, Ma, Yilong, editor, Cho, William C.S., editor, Xu, Qin, editor, and Zhou, Fengfeng, editor

Published

2017

90. Enrichment of phytoplasma genome DNA through a methyl-CpG binding domain-mediated method for efficient genome sequencing.

Author

Nijo, Takamichi, Iwabuchi, Nozomu, Tokuda, Ryosuke, Suzuki, Takumi, Matsumoto, Oki, Miyazaki, Akio, Maejima, Kensaku, Oshima, Kenro, Namba, Shigetou, and Yamaji, Yasuyuki

Subjects

*NUCLEOTIDE sequencing, *BACTERIAL DNA, *DNA, *PLANT DNA, *GENOMES, *PHYTOPATHOGENIC bacteria, *OPERONS, *TRANSFER RNA

Abstract

Phytoplasmas are obligate intracellular phytopathogenic bacteria infecting many agriculturally important plants. Although the information on the genome sequences is very useful, it is difficult to sequence phytoplasma genomes because pure phytoplasma DNA is unavailable. Here, we explored whether a methyl-CpG binding domain (MBD)-mediated enrichment method for bacterial DNA could facilitate enrichment of phytoplasma DNA from infected plants for next-generation sequencing of phytoplasma genome. Quantitative PCR revealed that phytoplasma DNA was enriched 10- to 30-fold by MBD-mediated enrichment compared to total DNA from the infected plant. Using the enriched DNA of the 'Candidatus (Ca.) Phytoplasma asteris' onion yellows strain (OY-M), most genome regions were sequenced by only one million sequence reads generated by an Illumina MiSeq platform. In addition, we present the first draft genome sequence of the 'Ca. P. asteris' hydrangea phyllody strain (HP) by using MBD-mediated enrichment from total DNA of the natural host plant. The draft features 36 contigs of total length 597,762 bp with 521 coding sequences, one rRNA operon, and 30 tRNA genes. One contig resembles plasmids of 'Ca. P. asteris'-related strains. Pairwise alignment with the OY-M genome indicated that most regions of the HP genome except for repetitive regions had been sequenced. Thus, MBD-mediated enrichment greatly aids genome sequencing of phytoplasmas. [ABSTRACT FROM AUTHOR]

Published

2021

91. SARS-CoV-2 hot-spot mutations are significantly enriched within inverted repeats and CpG island loci.

Author

Goswami, Pratik, Bartas, Martin, Lexa, Matej, Bohálová, Natália, Volná, Adriana, Červeň, Jiří, Červeňová, Veronika, Pečinka, Petr, Špunda, Vladimír, Fojta, Miroslav, and Brázda, Václav

Subjects

*SARS-CoV-2, *COVID-19, *INVERTED repeats (Genetics), *CORONAVIRUSES, *GEOLOGIC hot spots, *DISEASE progression

Abstract

SARS-CoV-2 is an intensively investigated virus from the order Nidovirales (Coronaviridae family) that causes COVID-19 disease in humans. Through enormous scientific effort, thousands of viral strains have been sequenced to date, thereby creating a strong background for deep bioinformatics studies of the SARS-CoV-2 genome. In this study, we inspected high-frequency mutations of SARS-CoV-2 and carried out systematic analyses of their overlay with inverted repeat (IR) loci and CpG islands. The main conclusion of our study is that SARS-CoV-2 hot-spot mutations are significantly enriched within both IRs and CpG island loci. This points to their role in genomic instability and may predict further mutational drive of the SARS-CoV-2 genome. Moreover, CpG islands are strongly enriched upstream from viral ORFs and thus could play important roles in transcription and the viral life cycle. We hypothesize that hypermethylation of these loci will decrease the transcription of viral ORFs and could therefore limit the progression of the disease. [ABSTRACT FROM AUTHOR]

Published

2021

92. Effects of CpG methylation on the thermal stability of c-kit2, c-kit*, and c-kit1 G-quadruplex structures

Author

Saowalak Laddachote, Rika Ishii, and Wataru Yoshida

Subjects

G-quadruplex, CpG methylation, Thermal stability, c-kit, Biochemistry, QD415-436, Genetics, QH426-470

Abstract

In genomic DNA, G-quadruplex (G4)-forming DNA can form either a duplex or G4 structure, suggesting that understanding the factors regulating G4 formation is important for revealing the cellular functions controlled by G4 formation. Cytosine DNA methylation in the CpG islands is known to play an important role in transcriptional regulation. Additionally, CpG methylation increases the thermal stability of G4 structures such as BCL2 and VEGF G4. In this study, we evaluated the effects of CpG methylation in three G4 structures (c-kit2, c-kit*, and c-kit1) produced by the c-KIT promoter. Each was analyzed using circular dichroism (CD) melting analysis. The results demonstrate that CpG methylation does not alter the thermal stability of c-kit2 G4 structure when formed in the presence of K+; a single-CpG methylation at C1 or C11 decreases the thermal stability of any c-kit2 G4 structure formed in the presence of Na+ and Mg2+ while methylation at C5 increases the thermal stability; CpG methylation does not alter the thermal stability of c-kit1 or c-kit* G4 structures formed in the presence of K+; and the c-kit1 and c-kit* G4-forming oligonucleotides do not form G4 structures in the presence of Na+ and Mg2+. These results provide important clues for understanding the regulatory mechanisms underlying the formation of CpG methylation-induced G4 structures.

Published

2021

93. Decitabine treatment demethylates vast majority of high-confidence differentially methylated regions in HCT-116 colorectal cancer cells [version 1; peer review: 2 not approved]

Author

Anna Sandler, Jonathan Anderson, Ariane Balaram, Yoan Ganev, Samuel Gascoigne, Christina Gimondo, Brett Palmero, Ayesha Quraishi, Alejandro Rodriguez, Said Omer Sadat, and William H. Conrad

Subjects

Research Article, Articles, epigenetics, CpG methylation, colon cancer, decitabine

Abstract

Background: Gene silencing by CpG island hypermethylation often plays a role in colorectal cancer (CRC) progression. Certain regions of the genome, called high confidence differentially-methylated regions (DMRs), are consistently hypermethylated across numerous patient samples. Methods: In this study, we used bioinformatics and bisulfite PCR sequencing of HCT-116 cells to investigate methylation levels at DMRs in the promoters of six genes: DKK3, EN1, MiR34b, SDC2, SPG20, and TLX1. We then investigated whether the anti-cancer drug decitabine, had a demethylating effect at these promoter regions. Results: We found that hypermethylation correlated with lack of transcriptional enhancer binding in these six regions. Importantly, we observed that for all DMRs, decitabine significantly reduced CpG methylation. Decitabine also reduced clonogenic survival, suggesting that there is a correlation between lower CpG island methylation levels and reduced cancerous properties. Conclusions: Our study provided single-nucleotide resolution and revealed hypermethylated CpG sites not shown by previous genome-wide methylation studies. In the future, we plan to perform experiments that demonstrate a causal link between promoter hypermethylation and carcinogenesis and that more accurately model treatments in CRC patients.

Published

2020

94. Relationships among Inorganic Arsenic, Nutritional Status CpG Methylation and microRNAs: A Review of the Literature.

Author

Venkatratnam, Abhishek, Marable, Carmen A, Keshava, Arjun M, and Fry, Rebecca C

Subjects

*MICRORNA, *METHYLATION, *PUBLIC health, *CPG nucleotides, *EPIGENETICS

Abstract

Inorganic arsenic is a naturally occurring toxicant that poses a significant and persistent challenge to public health. The World Health Organization has identified many geographical regions where inorganic arsenic levels exceed safe limits in drinking water. Numerous epidemiological studies have associated exposure to inorganic arsenic with increased risk of adverse health outcomes. Randomized clinical trials have shown that nutritional supplementation can mitigate or reduce exacerbation of exposure-related effects. Although a growing body of evidence suggests that epigenetic status influences toxicity, the relationships among environmental exposure to arsenic, nutrition, and the epigenome are not well detailed. This review provides a comprehensive summary of findings from human, rodent, and in vitro studies highlighting these interactive relationships. [ABSTRACT FROM AUTHOR]

Published

2021

95. STAT5 Regulation of Sex-Dependent Hepatic CpG Methylation at Distal Regulatory Elements Mapping to Sex-Biased Genes.

Author

Pengying Hao and Waxman, David J.

Subjects

*GENE mapping, *METHYLATION, *GENES, *REGULATOR genes

Abstract

Growth hormone-activated STAT5b is an essential regulator of sex-differential gene expression in mouse liver; however, its impact on hepatic gene expression and epigenetic responses is poorly understood. Here, we found a substantial, albeit incomplete loss of liver sex bias in hepatocyte-specific STAT5a/STAT5b (collectively, STAT5)-deficient mouse liver. In male liver, many male-biased genes were downregulated in direct association with the loss of STAT5 binding; many female-biased genes, which show low STAT5 binding, were derepressed, indicating an indirect mechanism for repression by STAT5. Extensive changes in CpG methylation were seen in STAT5-deficient liver, where sex differences were abolished at 88% of; 1,500 sex-differentially methylated regions, largely due to increased DNA methylation upon STAT5 loss. STAT5-dependent CpG hypomethylation was rarely found at proximal promoters of STAT5-dependent genes. Rather, STAT5 primarily regulated the methylation of distal enhancers, where STAT5 deficiency induced widespread hypermethylation at genomic regions enriched for accessible chromatin, enhancer histone marks (histone H3 lysine 4 monomethylation [H3K4me1] and histone H3 lysine 27 acetylation [H3K27ac]), STAT5 binding, and DNA motifs for STAT5 and other transcription factors implicated in liver sex differences. Thus, the sex-dependent binding of STAT5 to liver chromatin is closely linked to the sex-dependent demethylation of distal regulatory elements linked to STAT5-dependent genes important for liver sex bias. [ABSTRACT FROM AUTHOR]

Published

2021

96. iChIP-SILAC analysis identifies epigenetic regulators of CpG methylation of the p16 INK4A gene.

Author

Fujita T and Fujii H

Subjects

Humans, Chromatin Immunoprecipitation, DEAD-box RNA Helicases metabolism, DEAD-box RNA Helicases genetics, DNA (Cytosine-5-)-Methyltransferases metabolism, DNA (Cytosine-5-)-Methyltransferases genetics, HCT116 Cells, CpG Islands, Cyclin-Dependent Kinase Inhibitor p16 genetics, Cyclin-Dependent Kinase Inhibitor p16 metabolism, DNA Methylation, Epigenesis, Genetic

Abstract

Allele-specific epigenetic events regulate the expression of specific genes such as tumor suppressor genes. Methods to biochemically identify epigenetic regulators remain limited. Here, we used insertional chromatin immunoprecipitation (iChIP) to address this issue. iChIP combined with quantitative mass spectrometry identified DNA methyltransferase 1 (DNMT1) and epigenetic regulators as proteins that potentially interact with a region of the p16 INK4A gene that is CpG-methylated in one allele in HCT116 cells. Some of the identified proteins are involved in the CpG methylation of this region, and of these, DEAD-box helicase 24 (DDX24) contributes to CpG methylation by regulating the protein levels of DNMT1. Thus, iChIP is a useful method to identify proteins which bind to a target locus of interest., (© 2024 The Authors. FEBS Letters published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published

2024

97. Promoter CpG methylation status affects ADRP gene expression level and intramuscular fat content in pigs.

Author

Zhao, Yongyan, Lin, Xiangsheng, Liu, Kaiqing, Tian, Ye, Zhang, Lifan, Wei, Wei, and Chen, Jie

Subjects

*PERILIPIN, *GENE expression, *METHYLATION, *FAT, *REGULATOR genes, *P16 gene

Abstract

Adipose differentiation-related protein (ADRP) is a lipid droplet-associated protein that is expressed early during adipose differentiation. However, the underlying mechanism is still unclear. In this study, the porcine ADRP (pADRP) gene regulatory mechanism and its relationship to intramuscular fat (IMF) content are analysed. We investigated the characteristics of the pADRP gene prompter as well as its transcription level, core promoter and epigenetic modification status using real-time PCR, Dual-luciferase reporter assays and bisulphite sequencing. The results showed that pADRP mRNA expression in Longissimus Dorsi (LD) muscle of the low IMF (LEAN) group was lower than that in the high IMF (FAT) group (p<.01). Maximum promoter activity was found in the −926 bp to −235 bp region. The methylation level of the pADRP of this region (mainly 7th, 10th, 12th CpG sites) in the low IMF group (86.67%) was significantly higher than that in the high IMF group (46.7%) (p<.01). Our result plays an important role in pADRP transcriptional regulation and provides a good prospect for the marbling traits improvement. pADRP expression differs in divergent IMF content pigs. Promoter region located −929 to −235 bp, and its methylation contributes to gene expression. [ABSTRACT FROM AUTHOR]

Published

2020

98. Investigation of allele-specific expression of genes involved in adipogenesis and lipid metabolism suggests complex regulatory mechanisms of PPARGC1A expression in porcine fat tissues

Author

Monika Stachowiak, Izabela Szczerbal, and Krzysztof Flisikowski

Subjects

Allele-specific expression, CpG methylation, Fat, Muscle, Pig, PPARA, Genetics, QH426-470

Abstract

Abstract Background The expression of genes involved in regulating adipogenesis and lipid metabolism may affect economically important fatness traits in pigs. Allele-specific expression (ASE) reflects imbalance between allelic transcript levels and can be used to identify underlying cis-regulatory elements. ASE has not yet been intensively studied in pigs. The aim of this investigation was to analyze the differential allelic expression of four genes, PPARA, PPARG, SREBF1, and PPARGC1A, which are involved in the regulation of fat deposition in porcine subcutaneous and visceral fat and longissimus dorsi muscle. Results Quantification of allelic proportions by pyrosequencing revealed that both alleles of PPARG and SREBF1 are expressed at similar levels. PPARGC1A showed the greatest ASE imbalance in fat deposits in Polish Large White (PLW), Polish Landrace and Pietrain pigs; and PPARA in PLW pigs. Significant deviations of mean PPARGC1A allelic transcript ratio between cDNA and genomic DNA were detected in all tissues, with the most pronounced difference (p

Published

2018

99. Interferon Consensus Sequence-Binding Protein 8, a Tumor Suppressor, Suppresses Tumor Growth and Invasion of Non-Small Cell Lung Cancer by Interacting with the Wnt/β-Catenin Pathway

Author

Lin Ye, Tingxiu Xiang, Jing Zhu, Dairong Li, Qin Shao, Weiyan Peng, Jun Tang, Lili Li, and Guosheng Ren

Subjects

IRF8, NSCLC, Tumor suppressor, CpG methylation, TCF/LEF, Wnt/β-catenin, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aims: Interferon consensus sequence-binding protein 8 (IRF8) belongs to a family of interferon (IFN) regulatory factors that modulates various important physiological processes including carcinogenesis. As reported by others and our group, IRF8 expression is silenced by DNA methylation in both human solid tumors and hematological malignancies. However, the role of IRF8 in lung carcinoma remains elusive. In this study, we determined IRF8 epigenetic regulation, biological functions, and the signaling pathway involved in non-small cell lung cancer (NSCLC). Methods: IRF8 expression were determined by Q- PCR. MSP and A+T determined promotor methylation. MTS, clonogenic, Transwell assay, Flow cytometry, three-dimensional culture and AO/EB stain verified cell function. In vivo tumorigenesis examed the in vivo effects. By Chip-QPCR, RT-PCR, Western blot and Immunofluorescence staining, the mechanisms were studied. Results: IRF8 was significantly downregulated in lung tumor tissues compared with adjacent non-cancerous tissues. Furthermore, methylation-specific PCR analyses revealed that IRF8 methylation in NSCLC was a common event, and demethylation reagent treatment proved that downregulation of IRF8 was due to its promoter CpG hypermethylation. Clinical data showed that the IRF8 methylation was associated with tumor stage, lymph node metastasis status, patient outcome, and tumor histology. Exogenous expression of IRF8 in the silenced or downregulated lung cancer cell lines A549 and H1299 at least partially restored the sensitivity of lung cancer cells to apoptosis, and arrested cells at the G0/G1 phase. Cell viability, clonogenicity, and cell migration and invasive abilities were strongly inhibited by restored expression of IRF8. A three-dimensional culture system demonstrated that IRF8 changed the cells to a more spherical phenotype. Moreover, ectopic expression of IRF8 enhanced NSCLC chemosensitivity to cisplatin. Furthermore, as verified by Chip-qPCR, immunofluorescence staining, and western blotting, IRF8 bound to the T-cell factor/lymphoid enhancer factor (TCF /LEF) promoter, thus repressing β-catenin nuclear translocation and its activation. IRF8 significantly disrupted the effects of Wnt agonist, bml284, further suggesting its involvement in the Wnt/β-catenin pathway. Conclusion: IRF8 acted as a tumor suppressor gene through the transcriptional repression of β-catenin-TCF/LEF in NSCLC. IRF8 methylation may serve as a potential biomarker in NSCLC prognosis.

Published

2018

100. Dynamic demethylation of the IL2RA promoter during in vitro CD4+ T cell activation in association with IL2RA expression

Author

Marie-Pierre Belot, Anne-Laure Castell, Sophie Le Fur, and Pierre Bougnères

Subjects

il2ra, cpg methylation, cd4+ t cells, tregs, age, Genetics, QH426-470

Abstract

IL2RA, a subunit of the high affinity receptor for interleukin-2 (IL2), plays a crucial role in immune homeostasis. Notably, IL2RA expression is induced in CD4+ T cells in response to various stimuli and is constitutive in regulatory T cells (Tregs). We selected for our study 18 CpGs located within cognate regulatory regions of the IL2RA locus and characterized their methylation in naive, regulatory, and memory CD4+ T cells. We found that 5/18 CpGs (notably CpG + 3502) show dynamic, active demethylation during the in vitro activation of naive CD4+ T cells. Demethylation of these CpGs correlates with appearance of IL2RA protein at the cell surface. We found no influence of cis located SNP alleles upon CpG methylation. Treg cells show constitutive demethylation at all studied CpGs. Methylation of 9/18 CpGs, including CpG +3502, decreases with age. Our data thus identify CpG +3502 and a few other CpGs at the IL2RA locus as coordinated epigenetic regulators of IL2RA expression in CD4+ T cells. This may contribute to unravel how the IL2RA locus can be involved in immune physiology and pathology.

Published

2018