Investigation of <i>ITGB3</i> Heterogeneity to Overcome Trastuzumab Resistance in HER2-Positive Breast Cancer by Asiye Busra Boz Er

“…Tumour heterogeneity, describing genetic, epigenetic, and phenotypic differences within and between tumours, complicates tumour treatment and contributes to drug resistance. …”
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RNA m6A-mediated post-transcriptional repression of glucocorticoid receptor in LPS-activated Kupffer cells on broilers by Yulan Zhao, Yidan Jiang, Yue Feng, Ruqian Zhao

“…Our study indicates successive roles of RNA m6A modification in the down regulation of GR expression, which provides new drug targets for epigenetic therapy of liver inflammation.…”
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Hepatocellular carcinoma: signaling pathways and therapeutic advances by Jiaojiao Zheng, Siying Wang, Lei Xia, Zhen Sun, Kui Ming Chan, René Bernards, Wenxin Qin, Jinhong Chen, Qiang Xia, Haojie Jin

“…Beyond the frequently altered and therapeutically targeted receptor tyrosine kinase (RTK) pathways in HCC, pathways involved in cell differentiation, telomere regulation, epigenetic modification and stress response also provide therapeutic potential. …”
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The synergistic role of gut microbiota and RNA in metabolic diseases: mechanisms and therapeutic insights by Zhuo Huang, Zhuo Huang, Qinyan Yao, Qinyan Yao, Shuang Ma, Shuang Ma, Jinjie Zhou, Jinjie Zhou, Xiaoxuan Wang, Xiaoxuan Wang, Qingguo Meng, Qingguo Meng, Yaxin Liu, Yaxin Liu, Zihan Yu, Zihan Yu, Xin Chen, Xin Chen

“…Furthermore, it examines how dysbiosis leads to epigenetic changes such as m6A RNA methylation, contributing to disease pathogenesis. …”
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Inhibition of histone deacetylase in Arabidopsis root calli promotes de novo shoot organogenesis by Qinwei Pan, Ruirui Huang, Qiong Xiao, Xuting Wu, Baoxia Jian, Yanan Xiang, Lijun Gan, Zongrang Liu, Yi Li, Tingting Gu, Huawei Liu, Huawei Liu

“…De novo organogenesis from somatic cells to the entire plant represents a remarkable biological phenomenon, but the underlying regulatory mechanism, particularly at the epigenetic level, remains obscure. In this work, we demonstrate the important role of histone deacetylases (HDACs) in shoot organogenesis. …”
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Intrauterine growth‐restricted pregnant rats, from placental ischemic dams, display preeclamptic‐like symptoms: A new rat model of preeclampsia by Jonna Smith, Madison Powell, Whitney Cromartie, Savanna Smith, Kylie Jones, Angie Castillo, Jordan Shaw, Joseph Editone III, Ahfiya Howard, Robert Tatum, Alex Smith, Brandon Fisher, George W. Booz, Mark Cunningham

“…Furthermore, this study shows that pregnant IUGR rats exhibit a preeclamptic‐like phenotype, suggesting a new epigenetic model of PE.…”
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Deciphering the pseudouridine nucleobase modification in human diseases: From molecular mechanisms to clinical perspectives by Shiheng Jia, Xue Yu, Na Deng, Chen Zheng, Mingguang Ju, Fanglin Wang, Yixiao Zhang, Ziming Gao, Yanshu Li, Heng Zhou, Kai Li

“…Cellular stresses trigger RNA pseudouridylation in organisms, suggesting that pseudouridylation‐mediated epigenetic reprogramming is essential for maintaining cellular viability and responding to stress. …”
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Effect of Acetyl tributyl citrate on bone metabolism based on network toxicology and molecular docking technology by Xuan Lin, Kun Lin, Yue Lai, Qingping Peng, Miao Xu, Yiting Xu, Jialin Yang, Huan Liu, Jianlin Shen

“…Concurrently, we observed a downregulation in the transcriptional expression of key epigenetic regulators (KDM1A, EP300, HDAC2), suggesting that ATBC can disrupt bone metabolism at the cellular level. …”
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Time-Qualified Patterns of Variation of PPARγ, DNMT1, and DNMT3B Expression in Pancreatic Cancer Cell Lines by Valerio Pazienza, Francesca Tavano, Massimo Francavilla, Andrea Fontana, Fabio Pellegrini, Giorgia Benegiamo, Vincenzo Corbo, Fabio Francesco di Mola, Pierluigi Di Sebastiano, Angelo Andriulli, Gianluigi Mazzoccoli

“…Carcinogenesis is related to the loss of homeostatic control of cellular processes regulated by transcriptional circuits and epigenetic mechanisms. Among these, the activities of peroxisome proliferator-activated receptors (PPARs) and DNA methyltransferases (DNMTs) are crucial and intertwined. …”
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Dual inhibition of BET and EP300 has antitumor activity in undifferentiated pleomorphic sarcomas and synergizes with ferroptosis induction by Stéphanie Verbeke, Aurélien Bourdon, Mathilde Lafon, Vanessa Chaire, Bertolo Frederic, Amina Naït Eldjoudi, Marie-Alix Derieppe, Francis Giles, Antoine Italiano

“…The identification of new therapeutic strategies is therefore an important medical need. Epigenetic modifiers has been extensively investigated in recent years leading to the development of novel therapeutic agents. …”
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Expression of Sclerostin in Osteoporotic Fracture Patients Is Associated with DNA Methylation in the CpG Island of the SOST Gene by Yanming Cao, Bin Wang, Ding Wang, Dongxiang Zhan, Caiyuan Mai, Peng Wang, Qiushi Wei, Yamei Liu, Haibin Wang, Wei He, Liangliang Xu

“…Although there are reports showing diverse transcription factors, epigenetic modification could be responsible for regulating SOST gene expression. …”
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Embryonic heat conditioning induces paternal heredity of immunological cross- tolerance: coordinative role of CpG DNA methylation and miR-200a regulation by Padma Malini Ravi, Tatiana Kisliouk, Shelly Druyan, Amit Haron, Mark A. Cline, Elizabeth R. Gilbert, Noam Meiri

“…While the initial stress-response set-points in the hypothalamus may be genetically determined, they are further influenced by epigenetic factors during embryonic development. A debate persists regarding the heritability of such behavioral traits. …”
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Identifying a Serum Exosomal-Associated lncRNA/circRNA-miRNA-mRNA Network in Coronary Heart Disease by Jia Mao, Yufei Zhou, Licheng Lu, Ping Zhang, Runhua Ren, Yaqiong Wang, Jing Wang

“…Functional enrichment analysis showed that DEMs were significantly enriched in “chromatin silencing at rDNA,” “telomere organization,” and “negative regulation of gene expression, epigenetic.” PPI network analysis showed that 25 hub DEMs were closely related to CHD, of which ubiquitin C (UBC) was the most important. …”
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Driving effect of P16 methylation on telomerase reverse transcriptase-mediated immortalization and transformation of normal human fibroblasts by Xuehong Zhang, Paiyun Li, Ying Gan, Shengyan Xiang, Liankun Gu, Jing Zhou, Xiaorui Zhou, Peihuang Wu, Baozhen Zhang, Dajun Deng, Jing Ni

“…However, direct evidence remains to be obtained to support the causal effect of epigenetic changes, such as P16 methylation, on cancer development. …”
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The adaptation of rainbow trout to warmer water: Oxidative damage in the germinal line by Vianel Sevastei, Sonia A. Crichigno, M. Victoria Santos, Andrea Trochine, Julio C. Painefilú, Noemí Zaritzky, Víctor E. Cussac

“…This implies a high mutation rate and/or a modified epigenetic inheritance. Comparisons were made among a) a rainbow trout strain adapted in terms of upper thermal tolerance and higher preferred temperature (Valcheta stream), b) a wild temperate stream population (Guillelmo stream), and c) two temperate farmed strains. …”
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METTL16 is Required for Meiotic Sex Chromosome Inactivation and DSB Formation and Recombination during Male Meiosis by Lisha Yin, Nan Jiang, Wenjing Xiong, Shiyu Yang, Jin Zhang, Mengneng Xiong, Kuan Liu, Yuting Zhang, Xinxin Xiong, Yiqian Gui, Huihui Gao, Tao Li, Yi Li, Xiaoli Wang, Youzhi Zhang, Fengli Wang, Shuiqiao Yuan

“…Mechanistically, in pachytene spermatocytes, METTL16 interacts with MDC1/SCML2 to coordinate DNA damage response (DDR) and XY body epigenetic modifications that establish and maintain MSCI, and in early meiotic prophase I, METTL16 regulates DSB formation and recombination by regulating protein levels of meiosis‐related genes. …”
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Semaphorin-4D signaling in recruiting dental stem cells for vascular stabilization by Lili Zhang, Dineshi Sewvandi Thalakiriyawa, Jiawei Liu, Shengyan Yang, Yan Wang, Waruna Lakmal Dissanayaka

“…This modification was determined to be critical for enhancing PDGF-BB secretion, suggesting that Sema4D activates an epigenetic regulatory mechanism. Additionally, we investigated the secretion of Sema4D by various macrophage phenotypes, identifying that M2c macrophages secrete significant levels of Sema4D. …”
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Protein arginine methyltransferase 7 linked to schizophrenia through regulation of neural progenitor cell proliferation and differentiation by Ting Shen, Jing Yu, Bin Xie, Cuiping Huang, Jingjie Cui, Kefu Liu, Chunyu Liu, Chao Chen

“…Together, the results of this study reveal that PRMT7 is a functional gene at 16q22.1, contributing to the etiology of SCZ by modulating NPC proliferation and differentiation as an epigenetic regulator.…”
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Gene Ontology and Expression Studies of Strigolactone Analogues on a Hepatocellular Carcinoma Cell Line by Mohammed Nihal Hasan, Syed Shoeb Razvi, Hani Choudhry, Mohammed A. Hassan, Said Salama Moselhy, Taha Abduallah Kumosani, Mazin A. Zamzami, Khalid Omer Abualnaja, Majed A. Halwani, Abdulrahman Labeed Al-Malki, Jiannis Ragoussis, Wei Wu, Christian Bronner, Tadao Asami, Mahmoud Alhosin

“…RNA-Seq data showed that the genes responsible for microtubule organization such as TUBB, BUB1B, TUBG2, TUBGCP6, TPX2, and MAP7 were significantly downregulated. Several epigenetic modulators such as UHRF1, HDAC7, and DNMT1 were also considerably downregulated, and this effect was associated with significant upregulation of various proapoptotic genes including CASP3, TNF-α, CASP7, and CDKN1A (p21). …”
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Proteostasis Decline and Redox Imbalance in Age-Related Diseases: The Therapeutic Potential of NRF2 by Brigitta Buttari, Antonella Tramutola, Ana I. Rojo, Niki Chondrogianni, Sarmistha Saha, Alessandra Berry, Letizia Giona, Joana P. Miranda, Elisabetta Profumo, Sergio Davinelli, Andreas Daiber, Antonio Cuadrado, Fabio Di Domenico

“…As we age, the efficiency of the NRF2 pathway declines due to several factors including increased activity of its repressors, impaired NRF2-mediated antioxidant and cytoprotective gene expression, and potential epigenetic changes, though the precise mechanisms remain unclear. …”
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