Your search keyword '"Epigenetic Alteration"' showing total 197 results

1. Evolution of Repetitive Elements, Their Roles in Homeostasis and Human Disease, and Potential Therapeutic Applications.

Author

Snowbarger, Jeffrey, Koganti, Praveen, and Spruck, Charles

Subjects

*EUKARYOTIC genomes, *PROKARYOTIC genomes, *EPIGENETICS, *DNA sequencing, *NEUROLOGICAL disorders

Abstract

Repeating sequences of DNA, or repetitive elements (REs), are common features across both prokaryotic and eukaryotic genomes. Unlike many of their protein-coding counterparts, the functions of REs in host cells remained largely unknown and have often been overlooked. While there is still more to learn about their functions, REs are now recognized to play significant roles in both beneficial and pathological processes in their hosts at the cellular and organismal levels. Therefore, in this review, we discuss the various types of REs and review what is known about their evolution. In addition, we aim to classify general mechanisms by which REs promote processes that are variously beneficial and harmful to host cells/organisms. Finally, we address the emerging role of REs in cancer, aging, and neurological disorders and provide insights into how RE modulation could provide new therapeutic benefits for these specific conditions. [ABSTRACT FROM AUTHOR]

Published

2024

2. A novel iPSC-based model of ICF syndrome subtype 2 recapitulates the molecular phenotype of ZBTB24 deficiency.

Author

Lullo, Vincenzo, Cecere, Francesco, Batti, Saveria, Allegretti, Sara, Morone, Barbara, Fioriniello, Salvatore, Pisapia, Laura, Genesio, Rita, Ragione, Floriana Della, Giardino, Giuliana, Pignata, Claudio, Riccio, Andrea, Matarazzo, Maria R., and Strazzullo, Maria

Subjects

INDUCED pluripotent stem cells, PHENOTYPES, TRANSCRIPTION factors, INTELLECTUAL disabilities, DNA methylation, GENETIC disorders

Abstract

Immunodeficiency, Centromeric instability and Facial anomalies (ICF) syndrome is a rare genetic disorder characterized by variable immunodeficiency. More than half of the affected individuals show mild to severe intellectual disability at early onset. This disorder is genetically heterogeneous and ZBTB24 is the causative gene of the subtype 2, accounting for about 30% of the ICF cases. ZBTB24 is a multifaceted transcription factor belonging to the Zinc-finger and BTB domain-containing protein family, which are key regulators of developmental processes. Aberrant DNA methylation is the main molecular hallmark of ICF syndrome. The functional link between ZBTB24 deficiency and DNA methylation errors is still elusive. Here, we generated a novel ICF2 disease model by deriving induced pluripotent stem cells (iPSCs) from peripheral CD34+-blood cells of a patient homozygous for the p.Cys408Gly mutation, the most frequent missense mutation in ICF2 patients and which is associated with a broad clinical spectrum. The mutation affects a conserved cysteine of the ZBTB24 zinc-finger domain, perturbing its function as transcriptional activator. ICF2-iPSCs recapitulate the methylation defects associated with ZBTB24 deficiency, including centromeric hypomethylation. We validated that the mutated ZBTB24 protein loses its ability to directly activate expression of CDCA7 and other target genes in the patient-derived iPSCs. Upon hematopoietic differentiation, ICF2-iPSCs showed decreased vitality and a lower percentage of CD34+/CD43+/CD45+ progenitors. Overall, the ICF2-iPSC model is highly relevant to explore the role of ZBTB24 in DNAmethylation homeostasis and provides a tool to investigate the early molecular events linking ZBTB24 deficiency to the ICF2 clinical phenotype. [ABSTRACT FROM AUTHOR]

Published

2024

3. A novel iPSC-based model of ICF syndrome subtype 2 recapitulates the molecular phenotype of ZBTB24 deficiency

Author

Vincenzo Lullo, Francesco Cecere, Saveria Batti, Sara Allegretti, Barbara Morone, Salvatore Fioriniello, Laura Pisapia, Rita Genesio, Floriana Della Ragione, Giuliana Giardino, Claudio Pignata, Andrea Riccio, Maria R. Matarazzo, and Maria Strazzullo

Subjects

inborn errors of immunity, ICF syndrome, epigenetic alteration, DNA methylation, iPSCs, ZBTB24, Immunologic diseases. Allergy, RC581-607

Abstract

Immunodeficiency, Centromeric instability and Facial anomalies (ICF) syndrome is a rare genetic disorder characterized by variable immunodeficiency. More than half of the affected individuals show mild to severe intellectual disability at early onset. This disorder is genetically heterogeneous and ZBTB24 is the causative gene of the subtype 2, accounting for about 30% of the ICF cases. ZBTB24 is a multifaceted transcription factor belonging to the Zinc-finger and BTB domain-containing protein family, which are key regulators of developmental processes. Aberrant DNA methylation is the main molecular hallmark of ICF syndrome. The functional link between ZBTB24 deficiency and DNA methylation errors is still elusive. Here, we generated a novel ICF2 disease model by deriving induced pluripotent stem cells (iPSCs) from peripheral CD34+-blood cells of a patient homozygous for the p.Cys408Gly mutation, the most frequent missense mutation in ICF2 patients and which is associated with a broad clinical spectrum. The mutation affects a conserved cysteine of the ZBTB24 zinc-finger domain, perturbing its function as transcriptional activator. ICF2-iPSCs recapitulate the methylation defects associated with ZBTB24 deficiency, including centromeric hypomethylation. We validated that the mutated ZBTB24 protein loses its ability to directly activate expression of CDCA7 and other target genes in the patient-derived iPSCs. Upon hematopoietic differentiation, ICF2-iPSCs showed decreased vitality and a lower percentage of CD34+/CD43+/CD45+ progenitors. Overall, the ICF2-iPSC model is highly relevant to explore the role of ZBTB24 in DNA methylation homeostasis and provides a tool to investigate the early molecular events linking ZBTB24 deficiency to the ICF2 clinical phenotype.

Published

2024

4. Evolution of Repetitive Elements, Their Roles in Homeostasis and Human Disease, and Potential Therapeutic Applications

Author

Jeffrey Snowbarger, Praveen Koganti, and Charles Spruck

Subjects

repetitive elements, transposable elements, viral mimicry, epigenetic alteration, genomic instability, co-option, Microbiology, QR1-502

Abstract

Repeating sequences of DNA, or repetitive elements (REs), are common features across both prokaryotic and eukaryotic genomes. Unlike many of their protein-coding counterparts, the functions of REs in host cells remained largely unknown and have often been overlooked. While there is still more to learn about their functions, REs are now recognized to play significant roles in both beneficial and pathological processes in their hosts at the cellular and organismal levels. Therefore, in this review, we discuss the various types of REs and review what is known about their evolution. In addition, we aim to classify general mechanisms by which REs promote processes that are variously beneficial and harmful to host cells/organisms. Finally, we address the emerging role of REs in cancer, aging, and neurological disorders and provide insights into how RE modulation could provide new therapeutic benefits for these specific conditions.

Published

2024

5. Cyclin Dependent Kinase Inhibitor 2A Genetic and Epigenetic Alterations Interfere with Several Immune Components and Predict Poor Clinical Outcome.

Author

Soltan, Mohamed A., Alhanshani, Ahmad A., Shati, Ayed A., Alqahtani, Youssef A., Alshaya, Dalal Sulaiman, Alharthi, Jawaher, Altalhi, Sarah Awwadh, Fayad, Eman, Zaki, Mohamed Samir A., and Eid, Refaat A.

Subjects

CYCLIN-dependent kinases, TUMOR suppressor genes, KINASE inhibitors, CXCR4 receptors, MACROPHAGE inflammatory proteins, CYCLINS, CHEMOKINE receptors, GENE expression

Abstract

Cyclin dependent kinase inhibitor 2A (CDKN2A) is a well-known tumor suppressor gene as it functions as a cell cycle regulator. While several reports correlate the malfunction of CDKN2A with the initiation and progression of several types of human tumors, there is a lack of a comprehensive study that analyzes the potential effect of CDKN2A genetic alterations on the human immune components and the consequences of that effect on tumor progression and patient survival in a pan-cancer model. The first stage of the current study was the analysis of CDKN2A differential expression in tumor tissues and the corresponding normal ones and correlating that with tumor stage, grade, metastasis, and clinical outcome. Next, a detailed profile of CDKN2A genetic alteration under tumor conditions was described and assessed for its effect on the status of different human immune components. CDKN2A was found to be upregulated in cancerous tissues versus normal ones and that predicted the progression of tumor stage, grade, and metastasis in addition to poor prognosis under different forms of tumors. Additionally, CDKN2A experienced different forms of genetic alteration under tumor conditions, a characteristic that influenced the infiltration and the status of CD8, the chemokine CCL4, and the chemokine receptor CCR6. Collectively, the current study demonstrates the potential employment of CDKN2A genetic alteration as a prognostic and immunological biomarker under several types of human cancers. [ABSTRACT FROM AUTHOR]

Published

2023

6. Korean Red Ginseng Attenuates Particulate Matter-Induced Senescence of Skin Keratinocytes.

Author

Kang, Kyoung Ah, Piao, Mei Jing, Fernando, Pincha Devage Sameera Madushan, Herath, Herath Mudiyanselage Udari Lakmini, Yi, Joo Mi, and Hyun, Jin Won

Subjects

GINSENG, GENE expression, KERATINOCYTES, CELLULAR aging, DNA methyltransferases, KERATINOCYTE differentiation, P16 gene, METHYLTRANSFERASES

Abstract

Skin is a direct target of fine particulate matter (PM2.5), as it is constantly exposed. Herein, we investigate whether Korean red ginseng (KRG) can inhibit PM2.5-induced senescence in skin keratinocytes. PM2.5-treated human keratinocyte cell lines and normal human epidermal keratinocytes showed characteristics of cellular senescence, including flat and enlarged forms; however, KRG suppressed them in both cell types. Moreover, while cells exposed to PM2.5 showed a higher level of p16INK4A expression (a senescence inducer), KRG inhibited its expression. Epigenetically, KRG decreased the expression of the ten-eleven translocation (TET) enzyme, a DNA demethylase induced by PM2.5, and increased the expression of DNA methyltransferases suppressed by PM2.5, resulting in the decreased methylation of the p16INK4A promoter region. Additionally, KRG decreased the expression of mixed-lineage leukemia 1 (MLL1), a histone methyltransferase, and histone acetyltransferase 1 (HAT1) induced by PM2.5. Contrastingly, KRG increased the expression of the enhancer of zeste homolog 2, a histone methyltransferase, and histone deacetyltransferase 1 reduced by PM2.5. Furthermore, KRG decreased TET1, MLL1, and HAT1 binding to the p16INK4A promoter, corresponding with the decreased mRNA expression of p16INK4A. These results suggest that KRG exerts protection against the PM2.5-induced senescence of skin keratinocytes via the epigenetic regulation of p16INK4A. [ABSTRACT FROM AUTHOR]

Published

2023

7. Blood-Derived DNA Methylation Signatures of Crohn's Disease and Severity of Intestinal Inflammation

Author

Somineni, Hari K, Venkateswaran, Suresh, Kilaru, Varun, Marigorta, Urko M, Mo, Angela, Okou, David T, Kellermayer, Richard, Mondal, Kajari, Cobb, Dawayland, Walters, Thomas D, Griffiths, Anne, Noe, Joshua D, Crandall, Wallace V, Rosh, Joel R, Mack, David R, Heyman, Melvin B, Baker, Susan S, Stephens, Michael C, Baldassano, Robert N, Markowitz, James F, Dubinsky, Marla C, Cho, Judy, Hyams, Jeffrey S, Denson, Lee A, Gibson, Greg, Cutler, David J, Conneely, Karen N, Smith, Alicia K, and Kugathasan, Subra

Subjects

Autoimmune Disease, Digestive Diseases, Genetics, Human Genome, Clinical Research, Pediatric, Crohn's Disease, Inflammatory Bowel Disease, Aetiology, 2.1 Biological and endogenous factors, Oral and gastrointestinal, Adolescent, Age Factors, Case-Control Studies, Child, Child, Preschool, Crohn Disease, DNA Methylation, Disease Progression, Female, Follow-Up Studies, Gene Expression Regulation, Genome-Wide Association Study, Genotype, Humans, Infant, Inflammation, Male, Mendelian Randomization Analysis, North America, Risk Assessment, Severity of Illness Index, Sex Factors, Children, Epigenetic Alteration, Risk Stratification and Identification of Immunogenetic and Microbial Markers of Rapid Disease Progression in Children with Crohn's Disease (RISK) Study, Clinical Sciences, Neurosciences, Paediatrics and Reproductive Medicine, Gastroenterology & Hepatology

Abstract

Background & aimsCrohn's disease is a relapsing and remitting inflammatory disorder with a variable clinical course. Although most patients present with an inflammatory phenotype (B1), approximately 20% of patients rapidly progress to complicated disease, which includes stricturing (B2), within 5 years. We analyzed DNA methylation patterns in blood samples of pediatric patients with Crohn's disease at diagnosis and later time points to identify changes that associate with and might contribute to disease development and progression.MethodsWe obtained blood samples from 164 pediatric patients (1-17 years old) with Crohn's disease (B1 or B2) who participated in a North American study and were followed for 5 years. Participants without intestinal inflammation or symptoms served as controls (n = 74). DNA methylation patterns were analyzed in samples collected at time of diagnosis and 1-3 years later at approximately 850,000 sites. We used genetic association and the concept of Mendelian randomization to identify changes in DNA methylation patterns that might contribute to the development of or result from Crohn's disease.ResultsWe identified 1189 5'-cytosine-phosphate-guanosine-3' (CpG) sites that were differentially methylated between patients with Crohn's disease (at diagnosis) and controls. Methylation changes at these sites correlated with plasma levels of C-reactive protein. A comparison of methylation profiles of DNA collected at diagnosis of Crohn's disease vs during the follow-up period showed that, during treatment, alterations identified in methylation profiles at the time of diagnosis of Crohn's disease more closely resembled patterns observed in controls, irrespective of disease progression to B2. We identified methylation changes at 3 CpG sites that might contribute to the development of Crohn's disease. Most CpG methylation changes associated with Crohn's disease disappeared with treatment of inflammation and might be a result of Crohn's disease.ConclusionsMethylation patterns observed in blood samples from patients with Crohn's disease accompany acute inflammation; with treatment, these change to resemble methylation patterns observed in patients without intestinal inflammation. These findings indicate that Crohn's disease-associated patterns of DNA methylation observed in blood samples are a result of the inflammatory features of the disease and are less likely to contribute to disease development or progression.

Published

2019

8. Chronic Voluntary Alcohol Consumption Alters Promoter Methylation and Expression of Fgf-2 and Fgfr1.

Author

Herburg, Leonie, Rhein, Mathias, Kubinski, Sabrina, Kefalakes, Ekaterini, Levin Greenwald, Matar, Gielman, Simona, Barak, Segev, Frieling, Helge, and Grothe, Claudia

Subjects

*ALCOHOL drinking, *GENE expression, *ALCOHOL, *FIBROBLAST growth factor 2, *FIBROBLAST growth factor receptors, *METHYLATION

Abstract

Alcohol abuse accounts for 3.3 million deaths annually, rendering it a global health issue. Recently, fibroblast growth factor 2 (FGF-2) and its target, fibroblast growth factor receptor 1 (FGFR1), were discovered to positively regulate alcohol-drinking behaviors in mice. We tested whether alcohol intake and withdrawal alter DNA methylation of Fgf-2 and Fgfr1 and if there is a correlation regarding mRNA expression of these genes. Blood and brain tissues of mice receiving alcohol intermittently over a six-week period were analyzed using direct bisulfite sequencing and qRT-PCR analysis. Assessment of Fgf-2 and Fgfr1 promoter methylation revealed changes in the methylation of cytosines in the alcohol group compared with the control group. Moreover, we showed that the altered cytosines coincided with binding motives of several transcription factors. We also found that Fgf-2 and Fgfr1 gene expression was significantly decreased in alcohol-receiving mice compared with control littermates, and that this effect was specifically detected in the dorsomedial striatum, a brain region involved in the circuitry of the reward system. Overall, our data showed alcohol-induced alterations in both mRNA expression and methylation pattern of Fgf-2 and Fgfr1. Furthermore, these alterations showed a reward system regional specificity, therefore, resembling potential targets for future pharmacological interventions. [ABSTRACT FROM AUTHOR]

Published

2023

9. A PD1 targeted nano-delivery system based on epigenetic alterations of T cell responses in the treatment of gastric cancer

Author

Nan Hu, Wei Li, Yidong Hong, Zengtao Zeng, Jingzhou Zhang, Xueyu Wu, Kangjie Zhou, and Fenglei Wu

Subjects

PD1, nano-delivery system, epigenetic alteration, T cell immune response, gastric cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The anticancer effects of immune checkpoint inhibitors (ICIs) have been widely examined recently. Although ICIs have been progressively improved for successful gastric cancer treatment, different trials of ICIs such as pembrolizumab and nivolumab have yielded widely variable response rates. Strategies to further improve the efficacy of ICIs are still needed. Previous studies have shown that de novo DNA methylation is acquired by PD1+CD8+ tumor-infiltrating T cells (TILs), which cause a hierarchical downregulation of cytokines such as interferon-γ (IFN-γ). The epigenetic agent 5-Aza-2′-deoxycytidine (DAC) blocks de novo DNA methylation in activated PD1+CD8+ TILs. Such a feature might help enhance the anti-tumor effect of immune checkpoint blockade (ICB) treatment. In this study, polyethylene glycol-poly(ε-caprolactone) (PEG-PCL) nanoparticles (NPs) were linked to the anti-programmed death-1 monoclonal antibody nivolumab to yield αPD1-NPs for targeting TILs with PD1 overexpression using DAC. In addition, the NPs increased DAC stability and improved IFN-γ secretion and the anti-tumor effect of ICB in vitro. Therefore, targeted delivery of DAC reverses the exhaustion of PD1+CD8+ TILs and improves T cell responses and the treatment effect of ICB. These findings suggest that nivolumab-NPs are a potential tool for the delivery of epigenetic drugs, which could enhance the anti-tumor effect of ICB in gastric cancer.

Published

2022

10. Cyclin Dependent Kinase Inhibitor 2A Genetic and Epigenetic Alterations Interfere with Several Immune Components and Predict Poor Clinical Outcome

Author

Mohamed A. Soltan, Ahmad A. Alhanshani, Ayed A. Shati, Youssef A. Alqahtani, Dalal Sulaiman Alshaya, Jawaher Alharthi, Sarah Awwadh Altalhi, Eman Fayad, Mohamed Samir A. Zaki, and Refaat A. Eid

Subjects

CDKN2A, differential expression, genetic alteration, epigenetic alteration, patient survival, immunotherapy, Biology (General), QH301-705.5

Abstract

Cyclin dependent kinase inhibitor 2A (CDKN2A) is a well-known tumor suppressor gene as it functions as a cell cycle regulator. While several reports correlate the malfunction of CDKN2A with the initiation and progression of several types of human tumors, there is a lack of a comprehensive study that analyzes the potential effect of CDKN2A genetic alterations on the human immune components and the consequences of that effect on tumor progression and patient survival in a pan-cancer model. The first stage of the current study was the analysis of CDKN2A differential expression in tumor tissues and the corresponding normal ones and correlating that with tumor stage, grade, metastasis, and clinical outcome. Next, a detailed profile of CDKN2A genetic alteration under tumor conditions was described and assessed for its effect on the status of different human immune components. CDKN2A was found to be upregulated in cancerous tissues versus normal ones and that predicted the progression of tumor stage, grade, and metastasis in addition to poor prognosis under different forms of tumors. Additionally, CDKN2A experienced different forms of genetic alteration under tumor conditions, a characteristic that influenced the infiltration and the status of CD8, the chemokine CCL4, and the chemokine receptor CCR6. Collectively, the current study demonstrates the potential employment of CDKN2A genetic alteration as a prognostic and immunological biomarker under several types of human cancers.

Published

2023

11. Korean Red Ginseng Attenuates Particulate Matter-Induced Senescence of Skin Keratinocytes

Author

Kyoung Ah Kang, Mei Jing Piao, Pincha Devage Sameera Madushan Fernando, Herath Mudiyanselage Udari Lakmini Herath, Joo Mi Yi, and Jin Won Hyun

Subjects

fine particulate matter, skin cellular senescence, Korean red ginseng, epigenetic alteration, Therapeutics. Pharmacology, RM1-950

Abstract

Skin is a direct target of fine particulate matter (PM2.5), as it is constantly exposed. Herein, we investigate whether Korean red ginseng (KRG) can inhibit PM2.5-induced senescence in skin keratinocytes. PM2.5-treated human keratinocyte cell lines and normal human epidermal keratinocytes showed characteristics of cellular senescence, including flat and enlarged forms; however, KRG suppressed them in both cell types. Moreover, while cells exposed to PM2.5 showed a higher level of p16INK4A expression (a senescence inducer), KRG inhibited its expression. Epigenetically, KRG decreased the expression of the ten-eleven translocation (TET) enzyme, a DNA demethylase induced by PM2.5, and increased the expression of DNA methyltransferases suppressed by PM2.5, resulting in the decreased methylation of the p16INK4A promoter region. Additionally, KRG decreased the expression of mixed-lineage leukemia 1 (MLL1), a histone methyltransferase, and histone acetyltransferase 1 (HAT1) induced by PM2.5. Contrastingly, KRG increased the expression of the enhancer of zeste homolog 2, a histone methyltransferase, and histone deacetyltransferase 1 reduced by PM2.5. Furthermore, KRG decreased TET1, MLL1, and HAT1 binding to the p16INK4A promoter, corresponding with the decreased mRNA expression of p16INK4A. These results suggest that KRG exerts protection against the PM2.5-induced senescence of skin keratinocytes via the epigenetic regulation of p16INK4A.

Published

2023

12. Current paradigms in epigenetic anticancer therapeutics and future challenges.

Author

Singh, Manoj, Kumar, Vikas, Sehrawat, Nirmala, Yadav, Mukesh, Chaudhary, Mayank, Upadhyay, Sushil K., Kumar, Sunil, Sharma, Varruchi, Kumar, Sandeep, Dilbaghi, Neeraj, and Sharma, Anil K.

Subjects

*EPIGENOMICS, *EPIGENETICS, *DEOXYRIBOZYMES, *HYDROXAMIC acids, *HISTONE methylation, *DNA methylation

Abstract

Any alteration at the genetic or epigenetic level, may result in multiplex of diseases including tumorigenesis which ultimately results in the cancer development. Restoration of the normal epigenome by reversing the epigenetic alterations have been reported in tumors paving the way for development of an effective epigenetic treatment in cancer. However, delineating various epigenetic events has been a challenging task so far despite substantial progress in understanding DNA methylation and histone modifications during transcription of genes. Many inhibitors in the form of epigenetic drugs mostly targeting chromatin and histone modifying enzymes including DNA methyltransferase (DNMT) enzyme inhibitors and a histone deacetylases (HDACs) inhibitor, have been in use subsequent to the approval by FDA for cancer treatment. Similarly, other inhibitory drugs, such as FK228, suberoylanilide hydroxamic acid (SAHA) and MS-275, have been successfully tested in clinical studies. Despite all these advancements, still we see a hazy view as far as a promising epigenetic anticancer therapy is concerned. The challenges are to have more specific and effective inhibitors with negligible side effects. Moreover, the alterations seen in tumors are not well understood for which one has to gain deeper insight into the tumor pathology as well. Current review focusses on such epigenetic alterations occurring in cancer and the effective strategies to utilize such alterations for potential therapeutic use and treatment in cancer. [ABSTRACT FROM AUTHOR]

Published

2022

13. Editorial: Hepatocellular Carcinoma: From Basic Research to Clinical Trials

Author

Xing-Xing He and Da-Wei Ye

Subjects

hepatocellular carcinoma, epigenetic alteration, targeted therapy, diagnosis, prognosis, bioinformatic analysis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2022

14. Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast

Author

Martin Radner, Jana Lisa vanLuttikhuizen, Stephan Bartels, Janin Bublitz, Isabel Grote, Luisa Rieger, Henriette Christgen, Helge Stark, Christopher Werlein, Marcel Lafos, Doris Steinemann, Ulrich Lehmann, Matthias Christgen, and Hans Kreipe

Subjects

breast cancer precursor, triple‐negative breast cancer, luminal differentiation, stem cell, DNA methylation, epigenetic alteration, Pathology, RB1-214

Abstract

Abstract Microglandular adenosis (MGA) represents a rare neoplasm of the mammary gland, which in a subset of cases may be associated with triple‐negative breast cancer (BC). The biology of MGA is poorly understood. In this study, eight MGA cases (n = 4 with and n = 4 without associated BC) were subjected to a comprehensive characterization using immunohistochemistry, genome‐wide DNA copy number (CN) profiling, fluorescence in situ hybridization (FISH), next‐generation sequencing (NGS), and DNA methylation profiling using 850 K arrays and bisulfite pyrosequencing. Median patient age was 61 years (range 57–76 years). MGA lesions were estrogen receptor (ER)‐negative, progesterone receptor‐negative, HER2‐negative, and S100‐positive. DNA CN alterations (CNAs) were complex or limited to few gains and losses. CN gain on chromosome 2q was the most common CNA and was validated by FISH in five of eight cases. NGS demonstrated an average of two mutations per case (range 0–5) affecting 10 different genes (ARID1A, ATM, CTNNB1, FBXW7, FGFR2, MET, PIK3CA, PMS2, PTEN, and TP53). CNAs and mutations were similar in MGA and adjacent BC, indicating clonal relatedness. DNA methylation profiling identified aberrant hypermethylation of CpG sites within GATA3, a key transcription factor required for luminal differentiation. Immunohistochemistry showed regular GATA3 protein expression in the normal mammary epithelium and in ER‐positive BC. Conversely, GATA3 was reduced or lost in all MGA cases tested (8/8). In conclusion, MGA is characterized by common CN gain on chromosome 2q and loss of GATA3. Epigenetic inactivation of GATA3 may provide a new clue to the peculiar biology of this rare neoplasia.

Published

2021

15. Editorial: B Cell Non-Hodgkin’s Lymphoma & Tumor Microenvironment Crosstalk: An Epigenetic Matter?

Author

Y Denizot, MS Braza, and R Amin

Subjects

B lymphoma, tumor microenvironment, NHL—Non-Hodgkin lymphomas, immune cells, Epigenetic alteration, Genetics, QH426-470

Published

2022

16. Targeting DNMT1 by demethylating agent OR-2100 increases tyrosine kinase inhibitors-sensitivity and depletes leukemic stem cells in chronic myeloid leukemia.

Author

Kamachi, Kazuharu, Ureshino, Hiroshi, Watanabe, Tatsuro, Yoshida, Nao, Yamamoto, Yuta, Kurahashi, Yuki, Fukuda-Kurahashi, Yuki, Hayashi, Yoshihiro, Hirai, Hideyo, Yamashita, Satoshi, Ushijima, Toshikazu, Okada, Seiji, and Kimura, Shinya

Subjects

*CHRONIC myeloid leukemia, *DECITABINE, *PROTEIN-tyrosine kinases, *STEM cells, *MYELOID cells, *TUMOR suppressor genes, *PRELEUKEMIA, *GASTROINTESTINAL stromal tumors

Abstract

ABL1 tyrosine kinase inhibitors (TKIs) dramatically improve the prognosis of chronic myeloid leukemia (CML), but 10-20% of patients achieve suboptimal responses with low TKIs sensitivity. Furthermore, residual leukemic stem cells (LSCs) are involved in the molecular relapse after TKIs discontinuation. Aberrant DNA hypermethylation contributes to low TKIs sensitivity and the persistence of LSCs in CML. DNMT1 is a key regulator of hematopoietic stem cells, suggesting that aberrant DNA hypermethylation targeting DNMT1 represents a potential therapeutic target for CML. We investigated the efficacy of OR-2100 (OR21), the first orally available single-compound prodrug of decitabine. OR21 exhibited anti-tumor effects as a monotherapy, and in combination therapy it increased TKI-induced apoptosis and induction of tumor suppressor genes including PTPN6 encoding SHP-1 in CML cells. OR21 in combination with imatinib significantly suppressed tumor growth in a xenotransplant model. OR21 and combination therapy decreased the abundance of LSCs and inhibited engraftment in a BCR-ABL1-transduced mouse model. These results demonstrate that targeting DNMT1 using OR21 exerts anti-tumor effects and impairs LSCs in CML. Therefore, combination treatment of TKIs and OR21 represents a promising treatment strategy in CML. [ABSTRACT FROM AUTHOR]

Published

2022

17. Helicobacter pylori Eradication Can Reverse the Methylation-Associated Regulation of miR-200a/b in Gastric Carcinogenesis

Author

Ji Min Choi, Sang Gyun Kim, Hyo-Joon Yang, Joo Hyun Lim, Nam-Yun Cho, Woo Ho Kim, Joo Sung Kim, and Hyun Chae Jung

Subjects

helicobacter pylori, micrornas, methylation, epigenetic alteration, stomach neoplasm, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background/Aims: Epigenetic change is one of the mechanisms that regulates the expression of microRNAs (miRNAs) and is known to play a role in Helicobacter pylori-associated gastric carcinogenesis. We aimed to evaluate the epigenetic changes of miR-200a/b in H. pylori-associated gastric carcinogenesis and restoration after eradication. Methods: The expression and methylation levels of miR-200a/b were evaluated in gastric cancer (GC) cell lines, human gastric mucosa of H. pylori-negative and -positive controls, and H. pyloripositive GC patients. Next, the changes in the expression and methylation levels of miR-200a/b were compared between H. pylori -eradication and H. pylori -persistence groups at 6 months. Real-time reverse transcription-polymerase chain reaction was conducted to investigate the miRNA expression levels, and MethyLight was performed to assess the methylation levels. Results: In the GC cell lines, the level of miR- 200a/b methylation decreased and the level of expression increased after demethylation. In the human gastric mucosa, the miR-200a/b methylation levels increased in the following group order: H. pylori-negative control group, H. pylori-positive control group, and H. pylori-positive GC group. Conversely, the miR-200a/b expression levels decreased in the same order. In the H. pylori -persistence group, no significant changes were observed in the methylation and expression levels of miR-200a/b after 6 months, whereas the level of methylation decreased and the level of expression of miR-200a/b increased significantly 6 months in the H. pylori-eradication group. Conclusions: Epigenetic alterations of miR-200a/b may be implicated in H. pylori -induced gastric carcinogenesis. This field defect for cancerization is suggested to be improved by H. pylori eradication.

Published

2020

18. Chronic Voluntary Alcohol Consumption Alters Promoter Methylation and Expression of Fgf-2 and Fgfr1

Author

Leonie Herburg, Mathias Rhein, Sabrina Kubinski, Ekaterini Kefalakes, Matar Levin Greenwald, Simona Gielman, Segev Barak, Helge Frieling, and Claudia Grothe

Subjects

FGF-2, FGFR1, alcohol, addiction, epigenetic alteration, mesolimbic system, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Alcohol abuse accounts for 3.3 million deaths annually, rendering it a global health issue. Recently, fibroblast growth factor 2 (FGF-2) and its target, fibroblast growth factor receptor 1 (FGFR1), were discovered to positively regulate alcohol-drinking behaviors in mice. We tested whether alcohol intake and withdrawal alter DNA methylation of Fgf-2 and Fgfr1 and if there is a correlation regarding mRNA expression of these genes. Blood and brain tissues of mice receiving alcohol intermittently over a six-week period were analyzed using direct bisulfite sequencing and qRT-PCR analysis. Assessment of Fgf-2 and Fgfr1 promoter methylation revealed changes in the methylation of cytosines in the alcohol group compared with the control group. Moreover, we showed that the altered cytosines coincided with binding motives of several transcription factors. We also found that Fgf-2 and Fgfr1 gene expression was significantly decreased in alcohol-receiving mice compared with control littermates, and that this effect was specifically detected in the dorsomedial striatum, a brain region involved in the circuitry of the reward system. Overall, our data showed alcohol-induced alterations in both mRNA expression and methylation pattern of Fgf-2 and Fgfr1. Furthermore, these alterations showed a reward system regional specificity, therefore, resembling potential targets for future pharmacological interventions.

Published

2023

19. The Perspectives of Early Diagnosis of Schizophrenia Through the Detection of Epigenomics-Based Biomarkers in iPSC-Derived Neurons.

Author

Lee, Davin, Seo, Jinsoo, Jeong, Hae chan, Lee, Hyosang, and Lee, Sung Bae

Subjects

INDUCED pluripotent stem cells, EARLY diagnosis, SCHIZOPHRENIA, ENDOTHELIN receptors, NEURONS, BIOMARKERS

Abstract

The lack of early diagnostic biomarkers for schizophrenia greatly limits treatment options that deliver therapeutic agents to affected cells at a timely manner. While previous schizophrenia biomarker research has identified various biological signals that are correlated with certain diseases, their reliability and practicality as an early diagnostic tool remains unclear. In this article, we discuss the use of atypical epigenetic and/or consequent transcriptional alterations (ETAs) as biomarkers of early-stage schizophrenia. Furthermore, we review the viability of discovering and applying these biomarkers through the use of cutting-edge technologies such as human induced pluripotent stem cell (iPSC)-derived neurons, brain models, and single-cell level analyses. [ABSTRACT FROM AUTHOR]

Published

2021

20. The Perspectives of Early Diagnosis of Schizophrenia Through the Detection of Epigenomics-Based Biomarkers in iPSC-Derived Neurons

Author

Davin Lee, Jinsoo Seo, Hae chan Jeong, Hyosang Lee, and Sung Bae Lee

Subjects

schizophrenia, iPSC, organoid, epigenetic alteration, transcriptional alteration, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The lack of early diagnostic biomarkers for schizophrenia greatly limits treatment options that deliver therapeutic agents to affected cells at a timely manner. While previous schizophrenia biomarker research has identified various biological signals that are correlated with certain diseases, their reliability and practicality as an early diagnostic tool remains unclear. In this article, we discuss the use of atypical epigenetic and/or consequent transcriptional alterations (ETAs) as biomarkers of early-stage schizophrenia. Furthermore, we review the viability of discovering and applying these biomarkers through the use of cutting-edge technologies such as human induced pluripotent stem cell (iPSC)-derived neurons, brain models, and single-cell level analyses.

Published

2021

21. Epigenetically inactivated RASSF1A as a tumor biomarker

Author

Dora Raos, Monika Ulamec, Ana Katusic Bojanac, Floriana Bulic-Jakus, Davor Jezek, and Nino Sincic

Subjects

RASSF1A, epigenetic alteration, DNA methylation, biomarkers, Biology (General), QH301-705.5

Abstract

RASSF1A, one of the eight isoforms of the RASSF1 gene, is a tumor suppressor gene that influences tumor initiation and development. In cancer, RASSF1A is frequently inactivated by mutations, loss of heterozygosity, and, most commonly, by promoter hypermethylation. Epigenetic inactivation of RASSF1A was detected in various cancer types and led to significant interest; current research on RASSF1A promoter methylation focuses on its roles as an epigenetic tumor biomarker. Typically, researchers analyzed genomic DNA (gDNA) to measure the amount of RASSF1A promoter methylation. Cell-free DNA (cfDNA) from liquid biopsies is a recent development showing promise as an early cancer diagnostic tool using biomarkers, such as RASSF1A. This review discusses the evidence on aberrantly methylated RASSF1A in gDNA and cfDNA from different cancer types and its utility for early cancer diagnosis, prognosis, and surveillance. We compared methylation frequencies of RASSF1A in gDNA and cfDNA in various cancer types. The weaknesses and strengths of these analyses are discussed. In conclusion, although the importance of RASSSF1A methylation to cancer has been established is included in several diagnostic panels, its diagnostic utility is still experimental.

Published

2021

22. Impact Of TP53 Gene Promoter Methylation On Chronic Lymphocytic Leukemia Pathogenesis And Progression

Author

Saeed WH, Eissa AA, and Al-Doski AA

Subjects

chronic lymphocytic leukemia, epigenetic alteration, tp53 gene promoter, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Waleed Haji Saeed,1 Adil Abozaid Eissa,2 Adnan Anwar Al-Doski2 1Department of Nursing, Akre Technical Institute, Duhok Polytechnic University, Duhok, Iraq; 2Department of Pathology, College of Medicine, University of Duhok, Duhok, IraqCorrespondence: Adil Abozaid EissaDepartment of Pathology, College of Medicine, University of Duhok, 9 Azadi Hospital Road, Duhok, IraqTel +9647504576051Email adilkhr77@uod.acBackground: Chronic lymphocytic leukemia (CLL) is a malignant lymphoid disorder that results from the overgrowth of mature-looking lymphoid cells in the blood and lymphatic tissue. Various clinical presentations have been attributed to the disease as a result of the different underlying genetic and epigenetic alterations. The current study has been initiated to study the role of an epigenetic alteration affecting the promoter of the TP53gene on CLL pathogenesis and progression.Methods: The current study involved 54 newly diagnosed patients presenting with CLL as well as 30 normal individuals as controls. After obtaining verbal consent, data collection was done and the blood collected from all enrolled individuals for hematological investigations as well as for molecular categorization of TP53 methylation status. Methylation-specific polymerase chain reaction (MS-PCR) technique was used to define the methylation status of the TP53 gene promoter that encompasses DNA extraction, bisulfite conversion, conventional PCR amplification, running on agarose gel and documentation. Finally, statistical analysis was done to assess any correlation of the TP53 epigenetic alteration to the disease etiology and the progression.Results: In the current study, all controls and 42 of 54 patients show unmethylated TP53 gene promoter; on the other hand, the methylated promoter was detected among 12 patients with a p-value of 0.001. TP53 gene promoter methylation significantly linked to reduced platelet count (p-value of 0.047) and advanced stage at presentation (p-value of 0.076). No significant differences were seen among both methylated and unmethylated TP53 promoters in relation to the age of the affected individuals, total white blood cell counts and hemoglobin level of the affected individuals.Conclusion: The current study revealed a significant correlation of TP53 gene promoter methylation to chronic lymphocytic leukemia pathogenesis and lower platelet counts.Keywords: chronic lymphocytic leukemia, epigenetic alteration, TP53 gene promoter

Published

2019

23. The gene mutations and subtelomeric DNA methylation in immunodeficiency, centromeric instability and facial anomalies syndrome

Author

Haochang Hu, Chujia Chen, Shanping Shi, Bin Li, and Shiwei Duan

Subjects

gene, mutation, subtelomere, epigenetic alteration, telomere length, immunodeficiency, centromeric instability and facial anomalies syndrome, Internal medicine, RC31-1245

Abstract

Immunodeficiency, centromeric instability and facial anomalies syndrome (ICF) is a rare autosomal recessive disorder, which is characteristic of a severe impairment of immunity. In the genetic aspect, ICF is featured with mutations primarily located in the specific genes (DNMT3B for ICF1, ZBTB24 for ICF2, CDCA7 for ICF3, and HELLS for ICF4). The subtelomeric region is defined as 500 kb at the terminal of each autosomal arm. And subtelomeric DNA fragments can partially regulate key biological activities, including chromosome movement and localization in the nucleus. In this review, we updated and summarized gene mutations in ICF based on the previous review. In addition, we focused on the correlation between subtelomeric DNA methylation and ICF. The relationship between subtelomeric methylation and telomere length in ICF was also summarized.

Published

2019

24. Chromosome 2q gain and epigenetic silencing of GATA3 in microglandular adenosis of the breast.

Author

Radner, Martin, Luttikhuizen, Jana Lisa, Bartels, Stephan, Bublitz, Janin, Grote, Isabel, Rieger, Luisa, Christgen, Henriette, Stark, Helge, Werlein, Christopher, Lafos, Marcel, Steinemann, Doris, Lehmann, Ulrich, Christgen, Matthias, and Kreipe, Hans

Subjects

CHROMOSOMES, TRIPLE-negative breast cancer, EPIGENETICS, FLUORESCENCE in situ hybridization, DNA fingerprinting, BREAST

Abstract

Microglandular adenosis (MGA) represents a rare neoplasm of the mammary gland, which in a subset of cases may be associated with triple‐negative breast cancer (BC). The biology of MGA is poorly understood. In this study, eight MGA cases (n = 4 with and n = 4 without associated BC) were subjected to a comprehensive characterization using immunohistochemistry, genome‐wide DNA copy number (CN) profiling, fluorescence in situ hybridization (FISH), next‐generation sequencing (NGS), and DNA methylation profiling using 850 K arrays and bisulfite pyrosequencing. Median patient age was 61 years (range 57–76 years). MGA lesions were estrogen receptor (ER)‐negative, progesterone receptor‐negative, HER2‐negative, and S100‐positive. DNA CN alterations (CNAs) were complex or limited to few gains and losses. CN gain on chromosome 2q was the most common CNA and was validated by FISH in five of eight cases. NGS demonstrated an average of two mutations per case (range 0–5) affecting 10 different genes (ARID1A, ATM, CTNNB1, FBXW7, FGFR2, MET, PIK3CA, PMS2, PTEN, and TP53). CNAs and mutations were similar in MGA and adjacent BC, indicating clonal relatedness. DNA methylation profiling identified aberrant hypermethylation of CpG sites within GATA3, a key transcription factor required for luminal differentiation. Immunohistochemistry showed regular GATA3 protein expression in the normal mammary epithelium and in ER‐positive BC. Conversely, GATA3 was reduced or lost in all MGA cases tested (8/8). In conclusion, MGA is characterized by common CN gain on chromosome 2q and loss of GATA3. Epigenetic inactivation of GATA3 may provide a new clue to the peculiar biology of this rare neoplasia. [ABSTRACT FROM AUTHOR]

Published

2021

25. Epigenetic Alteration Shaped by the Environmental Chemical Bisphenol A

Author

Tengfei Qin, Xiaoping Zhang, Ting Guo, Ting Yang, Yahui Gao, Wei Hao, and XiangFen Xiao

Subjects

bisphenol A, epigenetic alteration, DNA methylation, histone modifications, toxico-epigenomics, Genetics, QH426-470

Abstract

Bisphenol A (BPA) is extensively used in plastic products and epoxy resins. The epigenetic response to the environmental chemical BPA was involved in multiple dysfunctional categories, such as cancer, the reproductive system, metabolism, pubertal development, peripheral arterial disease, infant and childhood growth, and neurodevelopment outcomes. In this mini-review, we described the recent progress of the epigenetic effects of the environmental chemical BPA, including DNA methylation, histone methylation, and toxic epigenomics. Notably, the histone modification changes under BPA exposure are summarized in this review. DNA methylation accompanied by transcriptional changes in key genes affected by BPA exposure is related to various processes, including neural development, cancer pathways, and generational transmission. In addition, BPA could also affect histone modifications in many species, such as humans, rats, and zebrafish. Finally, we reviewed recent studies of the toxico-epigenomics approach to reveal the epigenetic effect of BPA exposure genome-wide.

Published

2021

26. Editorial: B Cell Non-Hodgkin's Lymphoma & Tumor Microenvironment Crosstalk: An Epigenetic Matter?

Author

Denizot, Y, Braza, MS, and Amin, R

Subjects

NON-Hodgkin's lymphoma, TUMOR microenvironment, DIFFUSE large B-cell lymphomas, EPIGENETICS, B cells, B cell lymphoma, RITUXIMAB

Abstract

Turk J. Biol. 44, (1), 1-14. 10.3906/biy-1908-23 3 Fuertes, T., Ramiro, A. R., de Yebenes, V. G., (2020). miRNA-Based Therapies in B Cell Non-hodgkin Lymphoma. Keywords: B lymphoma; tumor microenvironment; NHL - Non-Hodgkin lymphomas; immune cells; Epigenetic alteration EN B lymphoma tumor microenvironment NHL - Non-Hodgkin lymphomas immune cells Epigenetic alteration 1 3 3 05/23/22 20220519 NES 220519 Non-Hodgkin B Lymphoma (B-NHL) is the seventh most common cancer of the lymphatic system. B lymphoma, tumor microenvironment, NHL - Non-Hodgkin lymphomas, immune cells, Epigenetic alteration Genetic Alterations in B Cell Lymphoma Subtypes as Potential Biomarkers for Noninvasive Diagnosis, Prognosis, Therapy, and Disease Monitoring. [Extracted from the article]

Published

2022

27. Epigenetic Alteration Shaped by the Environmental Chemical Bisphenol A.

Author

Qin, Tengfei, Zhang, Xiaoping, Guo, Ting, Yang, Ting, Gao, Yahui, Hao, Wei, and Xiao, XiangFen

Subjects

EPIGENOMICS, EPIGENETICS, PERIPHERAL vascular diseases, DNA methylation, PLASTICS, HISTONE methylation, WEIGHT in infancy

Abstract

Bisphenol A (BPA) is extensively used in plastic products and epoxy resins. The epigenetic response to the environmental chemical BPA was involved in multiple dysfunctional categories, such as cancer, the reproductive system, metabolism, pubertal development, peripheral arterial disease, infant and childhood growth, and neurodevelopment outcomes. In this mini-review, we described the recent progress of the epigenetic effects of the environmental chemical BPA, including DNA methylation, histone methylation, and toxic epigenomics. Notably, the histone modification changes under BPA exposure are summarized in this review. DNA methylation accompanied by transcriptional changes in key genes affected by BPA exposure is related to various processes, including neural development, cancer pathways, and generational transmission. In addition, BPA could also affect histone modifications in many species, such as humans, rats, and zebrafish. Finally, we reviewed recent studies of the toxico-epigenomics approach to reveal the epigenetic effect of BPA exposure genome-wide. [ABSTRACT FROM AUTHOR]

Published

2021

28. Mineralogy, Fluid Inclusion and H‐O‐C‐S Stable Isotopes of Mengqiguer Uranium Deposit in the Southern Yili Basin, Xinjiang: Implication for Ore Formation.

Author

DING, Bo, LIU, Hongxu, ZHANG, Chuang, LIU, Hongjun, LI, Ping, and ZHANG, Bin

Subjects

*GOLD ores, *URANIUM mining, *FLUID inclusions, *URANIUM isotopes, *STABLE isotopes, *MINERALOGY, *URANIUM, *ORE genesis (Mineralogy)

Abstract

The Mengqiguer deposit in the southern Yili basin Ili Basin is a large interlayer‐oxidation‐zone type uranium deposit. In this paper, we applied multiple methods including microscopic observation, scanning electron microscope and electronic probe, to analyze the systematical alteration characteristics of the ore‐bearing sandstone layer. Fluid inclusion and stable isotope studies on the ore‐bearing sandstone have also been carried out to discuss the internal relations between fluid activities, epigenetic alteration and the uranium mineralization. Major epigenetic alteration include clay alteration, carbonatization and pyritization, of which biogenetic pyritization is most closely related to the uranium mineralization. This suggests the existence of microorganism during the uranium mineralization process. The mineralization fluids of low temperature, medium density but varied salinities are suggested to be derived from multi‐source, including the meteoric water and organic acidic vapor components from coal‐bearing strata. Uranium mineralization, grain‐dispersed kaolinite, limonite, colloidal pyrite, and the carbonate cements associated with sulfate‐reducing bacteria were formed by meteoric water and vermicular‐shaped kaolinite, autologous pyrite, and the carbonate cementation associated with the dehydroxylation of organic matter was formed by organic acidic. Based on these results, we consider that the uranium mineralization and epigenetic alteration both resulted from the reciprocity of organic–inorganic fluid and fluid–rock during the formation of the interlayer oxidation zone. [ABSTRACT FROM AUTHOR]

Published

2020

29. Impaired lipid metabolism by age-dependent DNA methylation alterations accelerates aging.

Author

Xin Li, Jiaqiang Wang, Leyun Wang, Guihai Feng, Gen Li, Meixin Yu, Yufei Li, Chao Liu, Xuewei Yuan, Guangxi Zang, Zhihuan Li, Ling Zhao, Hong Ouyang, Qingli Quan, Guangyu Wang, Zhang, Charlotte, Oulan Li, Junkai Xiang, Jian-Kang Zhu, and Wei Li

Subjects

*LIPID metabolism, *DNA methylation, *LIPID synthesis, *ENDOPLASMIC reticulum, *RETINAL degeneration

Abstract

Epigenetic alterations and metabolic dysfunction are two hallmarks of aging. However, the mechanism of how their interaction regulates aging, particularly in mammals, remains largely unknown. Here we show ELOVL fatty acid elongase 2 (Elovl2), a gene whose epigenetic alterations are most highly correlated with age prediction, contributes to aging by regulating lipid metabolism. Impaired Elovl2 function disturbs lipid synthesis with increased endoplasmic reticulum stress and mitochondrial dysfunction, leading to key accelerated aging phenotypes. Restoration of mitochondrial activity can rescue age-related macular degeneration (AMD) phenotypes induced by Elovl2 deficiency in human retinal pigmental epithelial (RPE) cells. We revealed an epigenetic-metabolism axis contributing to aging and potentially to antiaging therapy. [ABSTRACT FROM AUTHOR]

Published

2020

30. Hypermethylation of Corticotropin Releasing Hormone Receptor-2 Gene in Ulcerative Colitis Associated Colorectal Cancer.

Author

MASAYOSHI KOBAYASHI, NAGAHIDE MATSUBARA, YUTAKA NAKACHI, YASUSHI OKAZAKI, MOTOI UCHINO, HIROKI IKEUCHI, JIHYNG SONG, KEI KIMURA, MICHIKO YASUHARA, AKIHITO BABAYA, TOMOKI YAMANO, MASATAKA IKEDA, HIROKI NISHIKAWA, IKUO MATSUDA, SEIICHI HIROTA, and NAOHIRO TOMITA

Subjects

CORTICOTROPIN releasing hormone receptors, ULCERATIVE colitis, COLON cancer, DNA methylation, MICROARRAY technology

Abstract

Background/Aim: The difficulty of early diagnosis of colitis associated colorectal cancer (CACRC) due to colonic mucosal changes in long-standing ulcerative colitis (UC) patients is often experienced in daily clinical practice. Noninvasive objective monitoring for cancer development is advantageous for optimizing treatment strategies in UC patients. We aimed to examine the epigenetic alterations occurring in CACRC, focusing on DNA hypermethylation of CpG islands. Materials and Methods: The level of DNA methylation in CpG cites was compared between CACRC and the counterpart nontumorous mucosa using Infinium HumanMethylation 450K BeadChip. Results: Our subjects included 3 males and 3 females (median age, 49.5 years). The 450K CpG site DNA methylation microarray revealed that the difference in β value (level of hypermethylation) was the highest for corcicotropin releasing hormone receptor 2 (CRHR2) between CACRC and counterpart non-tumorous mucosa. [ABSTRACT FROM AUTHOR]

Published

2020

31. The Evolution of Explanatory Models of Cancer

Author

Bertolaso, Marta, Wolfe, Charles T., Editor-in-chief, Huneman, Philippe, Editor-in-chief, Reydon, Thomas A.C., Editor-in-chief, and Bertolaso, Marta

Published

2016

32. Targeting the 'DNA methylation mark': Analysis of early epigenetic-alterations in children chronically exposed to arsenic.

Author

Sanyal, Tamalika, Das, Ankita, Bhattacharjee, Sandip, Gump, Brooks B., Bendinskas, Kestutis, and Bhattacharjee, Pritha

Published

2024

33. Dysregulation of DNA epigenetic modulators during prostate carcinogenesis in an eastern Indian patient population: Prognostic implications.

Author

Banerjee, Anwesha, Bardhan, Abhishek, Sarkar, Purandar, Datta, Chhanda, Pal, Dilip Kumar, Saha, Abhik, and Ghosh, Amlan

Subjects

*PROGNOSIS, *PROTEIN overexpression, *PROSTATE, *EPIGENETICS, *BENIGN prostatic hyperplasia, *DOCETAXEL, *METHYLGUANINE

Abstract

The role of epigenetic alteration in prostate cancer pathogenesis was reported. We aimed to analyze dysregulation of DNA methylase (DNA methyl transferase/DNMT) and demethylase (ten eleven translocase/TET) and the associated interplay between them during prostate tumorigenesis. Promoter methylation and RNA/protein expression of selected DNMT and TETs were analysed in normal prostate, benign prostatic hyperplasia (BPH), and prostate cancer (PCa). Genomic 5-hydroxymethylcytosine (5hmC) level was detected and correlated with DNMT and TET proteins. Clinicopathological association of molecular data was done. Our data revealed a very low frequency of promoter methylation for DNMT1 (5-3% and high frequency for TET1 (22–38%), TET2 (68–90 %), and TET3 (43-32 %) in BPH and PCa. The promoter methylation of DNMT1 (p = 0.019) showed a significantly decreasing trend, while that of TET1 (p = 0.0005) and TET2 (p < 0.0001) showed an increasing trend from normal prostate to BPH to PCa, indicating their epigenetic dysregulation during prostate tumorigenesis. RNA/protein overexpression of DNMT1 and reduced expression of TET1 and TET2 in PCa compared to BPH were associated with the promoter methylation status of genes. The 5hmC level was significantly lower in PCa than in BPH and correlated negatively with DNMT1 but positively with TET1 and TET2 proteins, suggesting dysregulation of DNA methylase and de-methylase activities during prostate tumorigenesis. Lastly, tumors having methylated TET1 and TET2 promoters showed advanced clinicopathological features (a higher PSA level/Gleason score) and increased risk of bone metastasis. In conclusion, DNMT1 upregulation and epigenetic silencing of TET1 and TET2 was seen during PCa development. TET1 and TET2 promoter methylation has prognostic importance. • DNMT1 over-expression and epigenetic silencing of TET1 and TET2 was seen in prostate tumorigenesis. • An association of DNMT1 protein was seen with promoter methylation of TET1 and TET2. • DNMT1, TET1 and TET2 were functionally correlated with depleted 5hmC level in prostate tumor. • TET1 and TET2 promoter methylation in tumor can jointly predict the incidence of bone metastasis. [ABSTRACT FROM AUTHOR]

Published

2024

34. Essence of Cancer Epigenetic: A Harmonic Art for the Future

Author

Mehdipour, Parvin and Mehdipour, Parvin, editor

Published

2015

35. Epigenetic of Retinoic Acid Receptor β2 Gene in Breast Cancer

Author

Mehdipour, Parvin and Mehdipour, Parvin, editor

Published

2015

36. Involvement of noncoding RNAs in epigenetic modifications of esophageal cancer

Author

Yuhang Xiao, Min Su, Wei Ou, Hui Wang, Bo Tian, Junliang Ma, Jinming Tang, Jie Wu, Zhining Wu, Wenxiang Wang, and Yong Zhou

Subjects

Esophageal cancer, Epigenetic alteration, DNA methylation, Histone modification, Noncoding RNA, lncRNA, Therapeutics. Pharmacology, RM1-950

Abstract

Esophageal cancer (EC) is a serious digestive malignancy and is a leading cause of cancer-related mortality. Apart from genetic mutations, many epigenetic alterations including DNA methylation and histone modifications associated with chromatin remodeling have been identified in the regulation of gene expression in EC. Recently, noncoding RNAs, and mainly lncRNAs and miRNAs, have been revealed to be involved in the epigenetic regulation of EC. In this review, we focus on describing new insights on epigenetic processes associated with noncoding RNAs, which have been characterized to be responsible for the development and progression of EC.

Published

2019

37. An In Vitro Model of Glioma Development

Author

Gabriella Schiera, Patrizia Cancemi, Carlo Maria Di Liegro, Flores Naselli, Sara Volpes, Ilenia Cruciata, Paola Sofia Cardinale, Fabiola Vaglica, Matteo Calligaris, Anna Paola Carreca, Roberto Chiarelli, Simone Dario Scilabra, Olga Leone, Fabio Caradonna, Italia Di Liegro, Schiera, Gabriella, Cancemi, Patrizia, Di Liegro, Carlo Maria, Naselli, Flore, Volpes, Sara, Cruciata, Ilenia, Cardinale, Paola Sofia, Vaglica, Fabiola, Calligaris, Matteo, Carreca, Anna Paola, Chiarelli, Roberto, Scilabra, Simone Dario, Leone, Olga, Caradonna, Fabio, and Di Liegro, Italia

Subjects

Settore BIO/18 - Genetica, epigenetic alteration, Settore BIO/10 - Biochimica, astrocytomas, astrocyte cell lines, epigenetic alterations, chromosome alterations, proteomics, metalloproteinases, extracellular vesicles (EVs), Genetics, chromosome alteration, metalloproteinase, Settore BIO/06 - Anatomia Comparata E Citologia, astrocytoma, astrocyte cell line, Genetics (clinical), proteomic

Abstract

Gliomas are the prevalent forms of brain cancer and derive from glial cells. Among them, astrocytomas are the most frequent. Astrocytes are fundamental for most brain functions, as they contribute to neuronal metabolism and neurotransmission. When they acquire cancer properties, their functions are altered, and, in addition, they start invading the brain parenchyma. Thus, a better knowledge of transformed astrocyte molecular properties is essential. With this aim, we previously developed rat astrocyte clones with increasing cancer properties. In this study, we used proteomic analysis to compare the most transformed clone (A-FC6) with normal primary astrocytes. We found that 154 proteins are downregulated and 101 upregulated in the clone. Moreover, 46 proteins are only expressed in the clone and 82 only in the normal cells. Notably, only 11 upregulated/unique proteins are encoded in the duplicated q arm of isochromosome 8 (i(8q)), which cytogenetically characterizes the clone. Since both normal and transformed brain cells release extracellular vesicles (EVs), which might induce epigenetic modifications in the neighboring cells, we also compared EVs released from transformed and normal astrocytes. Interestingly, we found that the clone releases EVs containing proteins, such as matrix metalloproteinase 3 (MMP3), that can modify the extracellular matrix, thus allowing invasion.

Published

2023

38. Cigarette smoking promotes cancer-related transformation of oral epithelial cells through activation of Wnt and MAPK pathway.

Author

Sarkar, Ripon, Das, Ankita, Paul, Ranjan R, and Barui, Ananya

Abstract

Aim: Study aims to investigate the effect of cigarette smoking on cancer-related transformation in oral epithelial cells of smokers through evaluating the alteration in Wnt/β-catenin and MAPK pathways. Materials & methods: Exfoliated oral epithelial cells were collected from 138 subjects and categorized into nonsmokers, smokers and clinically diagnosed precancer and cancer patients. Real-time quantitative PCR was performed to detect the fold changes of related genes. Expressions of biomarkers were assessed using immunofluorescence and western blot. Results: Study shows significant (p < 0.001) alteration in mRNA level of TNF-α, NF-κβ, FZD1, β-catenin, PARD3, MAPK1 and vimentin genes under cigarette smoking. Conclusion: Results suggested the progression of oral cancer under cigarette smoking occurs through multiple events and activation of canonical Wnt/MAPK pathways. [ABSTRACT FROM AUTHOR]

Published

2019

39. The gene mutations and subtelomeric DNA methylation in immunodeficiency, centromeric instability and facial anomalies syndrome.

Author

Hu, Haochang, Chen, Chujia, Shi, Shanping, Li, Bin, and Duan, Shiwei

Subjects

*DNA methylation, *INERTIAL confinement fusion, *GENES, *SYNDROMES, *CHROMOSOMES

Abstract

Immunodeficiency, centromeric instability and facial anomalies syndrome (ICF) is a rare autosomal recessive disorder, which is characteristic of a severe impairment of immunity. In the genetic aspect, ICF is featured with mutations primarily located in the specific genes (DNMT3B for ICF1, ZBTB24 for ICF2, CDCA7 for ICF3, and HELLS for ICF4). The subtelomeric region is defined as 500 kb at the terminal of each autosomal arm. And subtelomeric DNA fragments can partially regulate key biological activities, including chromosome movement and localization in the nucleus. In this review, we updated and summarized gene mutations in ICF based on the previous review. In addition, we focused on the correlation between subtelomeric DNA methylation and ICF. The relationship between subtelomeric methylation and telomere length in ICF was also summarized. [ABSTRACT FROM AUTHOR]

Published

2019

40. Epigenetic Alterations of Felsic Volcanites from the Top of the pre-Jurassic Complex in the Southeastern Part of the West Siberian Plate.

Author

Krasnova, A. V., Rostovtseva, Yu. V., and Gavrilov, A. E.

Abstract

A study of secondary alterations of felsic effusives with reservoir properties from the top of the West Siberian pre-Jurassic complex (Tomsk Region) was performed. The lithological, petrographic, and mineralogical features of these rocks indicate their alterations by low-temperature hydrothermal solutions, while the weathering products that are widespread at the top of the basement have not been clearly identified. The reservoir properties of the studied rocks are probably due to fracturing and leaching. [ABSTRACT FROM AUTHOR]

Published

2019

41. LncRNAs with miRNAs in regulation of gastric, liver, and colorectal cancers: updates in recent years.

Author

Tam, Chit, Wong, Jack Ho, Tsui, Stephen Kwok Wing, Zuo, Tao, Chan, Ting Fung, and Ng, Tzi Bun

Subjects

*COLON cancer, *NON-coding RNA, *MICRORNA, *HEMATOPOIESIS, *SOMATIC cells

Abstract

Long noncoding RNA (lncRNA) is a kind of RNAi molecule composed of hundreds to thousands of nucleotides. There are several major types of functional lncRNAs which participate in some important cellular pathways. LncRNA-RNA interaction controls mRNA translation and degradation or serves as a microRNA (miRNA) sponge for silencing. LncRNA-protein interaction regulates protein activity in transcriptional activation and silencing. LncRNA guide, decoy, and scaffold regulate transcription regulators of enhancer or repressor region of the coding genes for alteration of expression. LncRNA plays a role in cellular responses including the following activities: regulation of chromatin structural modification and gene expression for epigenetic and cell function control, promotion of hematopoiesis and maturation of immunity, cell programming in stem cell and somatic cell development, modulation of pathogen infection, switching glycolysis and lipid metabolism, and initiation of autoimmune diseases. LncRNA, together with miRNA, are considered the critical elements in cancer development. It has been demonstrated that tumorigenesis could be driven by homeostatic imbalance of lncRNA/miRNA/cancer regulatory factors resulting in biochemical and physiological alterations inside the cells. Cancer-driven lncRNAs with other cellular RNAs, epigenetic modulators, or protein effectors may change gene expression level and affect the viability, immortality, and motility of the cells that facilitate cancer cell cycle rearrangement, angiogenesis, proliferation, and metastasis. Molecular medicine will be the future trend for development. LncRNA/miRNA could be one of the potential candidates in this category. Continuous studies in lncRNA functional discrepancy between cancer cells and normal cells and regional and rational genetic differences of lncRNA profiles are critical for clinical research which is beneficial for clinical practice. [ABSTRACT FROM AUTHOR]

Published

2019

42. CsMYB60 is a key regulator of flavonols and proanthocyanidans that determine the colour of fruit spines in cucumber.

Author

Liu, Mengyu, Zhang, Cunjia, Duan, Lixin, Luan, Qianqian, Li, Jialin, Yang, Aigang, Qi, Xiaoquan, and Ren, Zhonghai

Subjects

*FLAVONOLS, *GENE expression, *PROANTHOCYANIDINS, *CUCUMBERS, *METABOLITES, *SPINES (Botany)

Abstract

Spine colour is an important fruit quality trait that influences the commercial value of cucumber (Cucumis sativus). However, little is known about the metabolites and the regulatory mechanisms of their biosynthesis in black spine varieties. In this study, we determined that the pigments of black spines are flavonoids, including flavonols and proanthocyanidins (PAs). We identified CsMYB60 as the best candidate for the previously identified B (Black spine) locus. Expression levels of CsMYB60 and the key genes involved in flavonoid biosynthesis were higher in black-spine inbred lines than that in white-spine lines at different developmental stages. The insertion of a Mutator -like element (CsMULE) in the second intron of CsMYB60 decreased its expression in a white-spine line. Transient overexpression assays indicated that CsMYB60 is a key regulatory gene and Cs4CL is a key structural gene in the pigmentation of black spines. In addition, the DNA methylation level in the CsMYB60 promoter was much lower in the black-spine line compared with white-spine line. The CsMULE insert may decrease the expression level of CsMYB60, causing hindered synthesis of flavonols and PAs in cucumber fruit spines. [ABSTRACT FROM AUTHOR]

Published

2019

43. Purified sulforaphane from broccoli (Brassica oleracea var. italica) leads to alterations of CDX1 and CDX2 expression and changes in miR-9 and miR-326 levels in human gastric cancer cells.

Author

Kiani, Sholeh, Akhavan-Niaki, Haleh, Fattahi, Sadegh, Kavoosian, Saeid, Babaian Jelodar, Nadali, Bagheri, Nadali, and Najafi Zarrini, Hamid

Subjects

*SULFORAPHANE, *BROCCOLI, *ANTINEOPLASTIC agents, *GENE expression, *CANCER cells

Abstract

Abstract Background Genetic alterations and epigenetic modifications are two main factors involved in gastric carcinogenesis, progression, and metastasis. Several miRNAs such as miRNA-9 and miRNA-326 may play important role in gastric cancer by targeting the 3′UTR of the caudal type homeobox (CDX) 1 and 2 mRNA respectively. The use of herbal medicines has been widely considered in the treatment of cancers such as gastric cancer. Sulforaphane extracted from broccoli may indirectly prevent cancer through affecting different signaling pathways. The aim of this study was to evaluate the effect of different concentrations of sulforaphane extracted from broccoli sprout (SEBS) on viability, death pattern, and expression alterations of CDX1 / 2 as well as miRNA-9 and miRNA-326 in normal (HF2FF) and gastric cancer cell lines. Methods Two gastric cancer cell lines (AGS and MKN45) and HF2FF normal cell line were cultured and treated with different concentrations (31.25, 62.5, 125, and 250 μg/ml) of the purified sulforaphane. Expression levels of CDX1 and CDX2 as well as miRNA-9 and miRNA-326, and mechanisms leading to cell death were assessed by Taqman real time PCR assay and flow cytometry, respectively. Results Significant dose-dependent and anti-proliferative effects of the SEBS were observed on AGS and MKN45 cells after 48 h with an IC50 value of about 112 and 125 μg/ml, respectively (P < 0.001). Apoptotic cells were observed in AGS and MKN45 cells but not HF2FF after 48 h of treatment with SEBS. Furthermore, significant changes in expression of CDX1 , CDX2 , miR-9 and miR-326 in the gastric cancer lines (AGS and MKN45), were observed under different concentrations of SEBS. Conclusion Our present study suggests that the SEBS may influence gastric cancer cell lines at specific doses and change their proliferation rate by altering the expression of CDX1 , CDX2 , miR-9, and miR-326. [ABSTRACT FROM AUTHOR]

Published

2018

44. Oxidation of Sperm DNA and Male Infertility

Author

Leila Rashki Ghaleno, AliReza Alizadeh, Joël R. Drevet, Abdolhossein Shahverdi, and Mojtaba Rezazadeh Valojerdi

Subjects

spermatozoa, oxidative DNA/nuclear damage, DNA fragmentation, epigenetic alteration, Therapeutics. Pharmacology, RM1-950

Abstract

One important reason for male infertility is oxidative stress and its destructive effects on sperm structures and functions. The particular composition of the sperm membrane, rich in polyunsaturated fatty acids, and the easy access of sperm DNA to oxidative damage due to sperm cell specific cytologic and metabolic features (no cytoplasm left and cells unable to mount stress responses) make it the cell type in metazoans most susceptible to oxidative damage. In particular, oxidative damage to the spermatozoa genome is an important issue and a cause of male infertility, usually associated with single- or double-strand paternal DNA breaks. Various methods of detecting sperm DNA fragmentation have become important diagnostic tools in the prognosis of male infertility and such assays are available in research laboratories and andrology clinics. However, to date, there is not a clear consensus in the community as to their respective prognostic value. Nevertheless, it is important to understand that the effects of oxidative stress on the sperm genome go well beyond DNA fragmentation alone. Oxidation of paternal DNA bases, particularly guanine and adenosine residues, the most sensitive residues to oxidative alteration, is the starting point for DNA damage in spermatozoa but is also a danger for the integrity of the embryo genetic material independently of sperm DNA fragmentation. Due to the lack of a spermatozoa DNA repair system and, if the egg is unable to correct the sperm oxidized bases, the risk of de novo mutation transmission to the embryo exists. These will be carried on to every cell of the future individual and its progeny. Thus, in addition to affecting the viability of the pregnancy itself, oxidation of the DNA bases in sperm could be associated with the development of conditions in young and future adults. Despite these important issues, sperm DNA base oxidation has not attracted much interest among clinicians due to the lack of simple, reliable, rapid and consensual methods of assessing this type of damage to the paternal genome. In addition to these technical issues, another reason explaining why the measurement of sperm DNA oxidation is not included in male fertility is likely to be due to the lack of strong evidence for its role in pregnancy outcome. It is, however, becoming clear that the assessment of DNA base oxidation could improve the efficiency of assisted reproductive technologies and provide important information on embryonic developmental failures and pathologies encountered in the offspring. The objective of this work is to review relevant research that has been carried out in the field of sperm DNA base oxidation and its associated genetic and epigenetic consequences.

Published

2021

45. Site-specific detection of circulating tumor DNA methylation in biological samples utilizing phosphorothioated primer-based loop-mediated isothermal amplification.

Author

Shen, Xudan, Xu, Mingcheng, Wang, Hechen, Wang, Hua, Shen, Minzhe, Talap, Jadera, Hu, Haihong, Zeng, Su, Gao, Shunxiang, and Cai, Sheng

Subjects

*DNA methylation, *CIRCULATING tumor DNA, *DNA primers, *RENAL cell carcinoma, *GOLD nanoparticles, *MULTIDRUG resistance, *METHYLATION

Abstract

DNA methylation, a kind of epigenetic alteration, plays a vital role in tumorigenesis and offers a new class of targets for cancer treatment. DNA hypermethylation at the E-Box site (CACGTG, −288 bp) in the SLC22A2 promoter was related to multidrug resistance of renal cell carcinoma (RCC), which can provide the target for both treatment and monitoring. Herein, we developed a novel phosphorothioated primer based loop-mediated isothermal amplification (PS-LAMP) assay to detect circulating tumor DNA (ctDNA) methylation levels in E-Box sites in tumor tissue, urine, and plasma samples from patients with RCC. Bisulfite treatment converted methylated/unmethylated discrepancy to a single base discrepancy (C/U). PS-LAMP amplified the templates to a tremendous amount. One-step strand displacement (OSD) probe provided single base resolution in amplified products and finally realized the specific site methylation detection. Our proposed method provided a linear range from 0% to 100% for methylation levels and was available in samples at low concentrations (102 copies/μL). Visually observable colorimetric detection can be achieved by incorporating the OSD probe with gold nanoparticles (AuNP). Our assay performed better than traditional methods in biological samples with low ctDNA concentration. Further, we found a potential consistency of methylation levels between tumor tissue and plasma sample from the same patient (Spearman's ρ = 0.886, P = 0.019, n = 6). In general, this work provides a PS-LAMP assay combining OSD probes for site-specific methylation detection in various biological samples, offering a method for noninvasive detection. [ABSTRACT FROM AUTHOR]

Published

2023

46. Acquired Genetic and Epigenetic Alterations in Nasopharyngeal Carcinoma

Author

Lo, Kwok-Wai, Chung, Grace Tin-Yun, To, Ka-Fai, and Busson, Pierre, editor

Published

2013

47. Environmental Toxicants, Epigenetics, and Cancer

Author

Pogribny, Igor P., Rusyn, Ivan, and Karpf, Adam R., editor

Published

2013

48. Pediatric Ependymomas: Role of Methylation

Author

Michalowski, Mariana Bohns, Plantaz, Dominique, and Hayat, M.A., editor

Published

2013

49. Cancer Biology: Some Causes for a Variety of Different Diseases

Author

Okal, Abood, Reaz, Shams, Lim, Carol S., Bae, You Han, editor, Mrsny, Randall J., editor, and Park, Kinam, editor

Published

2013

50. Epigenetic Biomarkers

Author

Chan, Timothy A., Baylin, Stephen B., Mellinghoff, Ingo K., editor, and Sawyers, Charles L., editor

Published

2012