Uncovering Molecular Mechanisms of Feed Efficiency in Pigs Through Multi-Omics Analysis of the Jejunum by Saixian Zhang, Yue Xiang, Yaobang Jian, Qiulin Zhao, Jiahui Sun, Yi Huang, Jing Xu, Xiaolong Qi, Jingjin Li, Zhuqing Zheng, Liangliang Fu, Yuwen Liu, Xinyun Li

“…By comparing gene expression and chromatin accessibility profiles in the jejunum, we identified key differentially expressed genes (DEGs) and differentially accessible regions (DARs) associated with lipid metabolism and immune function, both of which are critical pathways for efficient growth. …”
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Metformin exerted tumoricidal effects on colon cancer tumoroids via the regulation of autophagy pathway by Roya Shabkhizan, Çığır Biray Avci, Sanya Haiaty, Marziyeh Sadat Moslehian, Fatemeh Sadeghsoltani, Ahad Bazmani, Mahdi Mahdipour, Leila Sabour Takanlou, Maryam Sabour Takanlou, Arezoo Rezaie Nezhad Zamani, Reza Rahbarghazi

“…Histological examination confirmed the loosening integrity of tumoroids in MTF-treated groups, especially 120 mM MTF, with the increase in cell death via the induction of apoptosis (chromatin marginalization) and necrotic (pyknotic nuclei) changes. …”
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Mina53 catalyzes arginine demethylation of p53 to promote tumor growth by Lixiao Zhou, Liyang Yu, Shushu Song, Yong Wang, Qiang Zhu, Meng Li, Yutong Sha, Liang Xu, Xin Shu, Qingqing Liao, Ting Wu, Bing Yang, Siyuan Chai, Bingyi Lin, Liming Wu, Ruhong Zhou, Xiaotao Duan, Chenggang Zhu, Yuanyuan Ruan, Wen Yi

“…Mina53-mediated demethylation reduces p53 stability and oligomerization and alters chromatin modifications at the gene promoter, thereby suppressing p53-mediated transcriptional activation and cell-cycle arrest. …”
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IL-23 tunes inflammatory functions of human mucosal-associated invariant T cells by Laetitia Camard, Tharshana Stephen, Hanane Yahia-Cherbal, Vincent Guillemot, Sébastien Mella, Victoire Baillet, Hélène Lopez-Maestre, Daniele Capocefalo, Laura Cantini, Claire Leloup, Julie Marsande, Katherine Garro, Juan Sienes Bailo, Ambre Dangien, Natalia Pietrosemoli, Milena Hasan, Huimeng Wang, Sidonia B.G. Eckle, Anne M. Fourie, Carrie Greving, Barbara Joyce-Shaikh, Raphaelle Parker, Daniel J. Cua, Elisabetta Bianchi, Lars Rogge

“…Integrated analysis of transcriptomes and chromatin accessibility, supported by CRISPR-Cas9 mediated deletion, shows that AP-1 transcription factors constitute a key regulatory node of the IL-23 pathway in MAIT cells. …”
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An oligodendrocyte silencer element underlies the pathogenic impact of lamin B1 structural variants by Bruce Nmezi, Guillermo Rodriguez Bey, Talia DeFrancesco Oranburg, Kseniia Dudnyk, Santana M. Lardo, Nathan Herdman, Anastasia Jacko, Sandy Rubio, Emanuel Loeza-Alcocer, Julia Kofler, Dongkyeong Kim, Julia Rankin, Emma Kivuva, Nicholas Gutowski, Katherine Schon, Jelle van den Ameele, Patrick F. Chinnery, Sérgio B. Sousa, Filipe Palavra, Camilo Toro, Filippo Pinto e Vairo, Jonas Saute, Lisa Pan, Murad Alturkustani, Robert Hammond, Francois Gros-Louis, Michael S. Gold, Yungki Park, Geneviève Bernard, Raili Raininko, Jian Zhou, Sarah J. Hainer, Quasar S. Padiath

“…This element consists of CTCF binding sites that mediate three-dimensional chromatin looping involving LMNB1 and the recruitment of the PRC2 transcriptional repressor complex. …”
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An exceptionally rare case of a diffuse midline glioma with concomitant H3.1 K27M and G34R mutations in the HIST1H3C (H3C3) gene by Zita Reisz, Rita Pereira, Smitha Nevis, Alan Mackay, Leena Bhaw, Yura Grabovska, Ross Laxton, Valeria Molinari, Anna Burford, Barnaby Clark, Cristina Bleil, Bassel Zebian, Erika Pace, Annette Weiser, Fernando Carceller, Lynley Marshall, Andrew King, Istvan Bodi, Safa Al-Sarraj, Chris Jones, Matthew Clarke

“…A patient-derived cell culture was established enabling unbiased in vitro drug screening; no selective sensitivities were identified. Chromatin immunoprecipitation assays with sequencing (ChIP-seq; H3K27ac, H3K27me3, H3K36me3, RNApol2 marks) showed features in keeping with DMG H3 K27M-mutant tumours (H3K27ac loci including OLIG2, IRX1/2, PKDCC). …”
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Molecular Characterization of the Tumor Suppressor Candidate 5 Gene: Regulation by PPARγ and Identification of TUSC5 Coding Variants in Lean and Obese Humans by Trina A. Knotts, Hyun Woo Lee, Jae Bum Kim, Pieter J. Oort, Ruth McPherson, Robert Dent, Keisuke Tachibana, Takefumi Doi, Songtao Yu, Janardan K. Reddy, Kenji Uno, Hideki Katagiri, Magdalena Pasarica, Steven R. Smith, Dorothy D. Sears, Michel Grino, Sean H. Adams

“…Induction of Tusc5 mRNA levels in 3T3-L1 adipocytes by troglitazone and GW1929 followed a dose-response consistent with these agents' binding affinities for PPARγ. Chromatin immunoprecipitation (ChIP) experiments confirmed that PPARγ protein binds a ∼−1.1 kb promotor sequence of murine TUSC5 transiently during 3T3-L1 adipogenesis, concurrent with histone H3 acetylation. …”
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Ultrasound May Suppress Tumor Growth, Inhibit Inflammation, and Establish Tolerogenesis by Remodeling Innatome via Pathways of ROS, Immune Checkpoints, Cytokines, and Trained Immun... by Qian Yang, Ruijing Zhang, Peng Tang, Yu Sun, Candice Johnson, Jason Saredy, Susu Wu, Jiwei Wang, Yifan Lu, Fatma Saaoud, Ying Shao, Charles Drummer, Keman Xu, Daohai Yu, Rongshan Li, Shuping Ge, Xiaohua Jiang, Hong Wang, Xiaofeng Yang

“…We made the following findings: (1) LIUS upregulates proinflammatory IGs and downregulates metastasis genes in cancer cells, and LIUS upregulates adaptive immunity pathways but inhibits danger-sensing and inflammation pathways and promote tolerogenic differentiation in bone marrow (BM) cells. (2) LIUS upregulates IGs encoded for proteins localized in the cytoplasm, extracellular space, and others, but downregulates IG proteins localized in nuclear and plasma membranes, and LIUS downregulates phosphatases. (3) LIUS-modulated IGs act partially via several important pathways of reactive oxygen species (ROS), reverse signaling of immune checkpoint receptors B7-H4 and BTNL2, inflammatory cytokines, and static or oscillatory shear stress and heat generation, among which ROS is a dominant mechanism. (4) LIUS upregulates trained immunity enzymes in lymphoma cells and downregulates trained immunity enzymes and presumably establishes trained tolerance in BM cells. (5) LIUS modulates chromatin long-range interactions to differentially regulate IGs expression in cancer cells and noncancer cells. …”
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GDF15 induces immunosuppression via CD48 on regulatory T cells in hepatocellular carcinoma by Meng Li, Yuan Gao, Wei Zhang, Zhijun Tan, Kuo Zhang, Zhaowei Wang, Lei He, Weina Li, Chuanyang Xu, Jieyu Zhang, Desheng Wang, Kefeng Dou, Ran Zhuang, Boquan Jin, Qiang Hao, Wangqian Zhang, Shuning Wang, Jintao Gu, Lei Shang, Haichuan Su, Yingqi Zhang, Cun Zhang

“…We used flow cytometry, coimmunoprecipitation, RNA sequencing, mass spectrum, chromatin immunoprecipitation and Gdf15–/–, OT-I and GFP transgenic mice to demonstrate the effects of GDF15 on Treg cells and related molecular mechanism. …”
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HINT1 suppression protects against age-related cardiac dysfunction by enhancing mitochondrial biogenesis by Michio Sato, Tsuyoshi Kadomatsu, Jun Morinaga, Yuya Kinoshita, Daisuke Torigoe, Haruki Horiguchi, Sumio Ohtsuki, Shuji Yamamura, Ryoko Kusaba, Takanori Yamaguchi, Goro Yoshioka, Kimi Araki, Tomohiko Wakayama, Keishi Miyata, Koichi Node, Yuichi Oike

“…We also showed that activity of the BAF chromatin remodeling complex is repressed by HINT1, whose expression in heart increases with age, leading to decreased transcription of Tfam, which promotes mitochondrial biogenesis. …”
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Single-cell multiomics reveal divergent effects of DNMT3A- and TET2-mutant clonal hematopoiesis in inflammatory response by Wazim Mohammed Ismail, Jenna A. Fernandez, Moritz Binder, Terra L. Lasho, Minsuk Kim, Susan M. Geyer, Amelia Mazzone, Christy M. Finke, Abhishek A. Mangaonkar, Jeong-Heon Lee, Liguo Wang, Kwan Hyun Kim, Vernadette A. Simon, Fariborz Rakhshan Rohakthar, Amik Munankarmy, Seul Kee Byeon, Susan M. Schwager, Jonathan J. Harrington, Melissa R. Snyder, Keith D. Robertson, Akhilesh Pandey, Eric D. Wieben, Nicholas Chia, Alexandre Gaspar-Maia, Mrinal M. Patnaik

“…Finally, we show with single-cell resolution that the loss of function of DNMT3A is directly associated with increased chromatin accessibility in mutant cells. Hence, we demonstrate the negative prognostic impact of DNMT3Amt CH on COVID-19–related ARDS and mortality. …”
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Epithelial NSD2 maintains FMO‐mediated taurine biosynthesis to prevent intestinal barrier disruption by Yue Xu, Xiuying Xiao, Chunxiao Ma, Ziyi Wang, Wenxin Feng, Hanyu Rao, Wei Zhang, Ningyuan Liu, Rebiguli Aji, Xiangjun Meng, Wei‐Qiang Gao, Li Li

“…The IECs were isolated for RNA sequencing and chromatin immunoprecipitation sequencing to identify molecular signalling pathways and key molecules leading to IBD in mice. …”
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Targeting of the G9a, DNMT1 and UHRF1 epigenetic complex as an effective strategy against pancreatic ductal adenocarcinoma by Daniel Oyon, Amaya Lopez-Pascual, Borja Castello-Uribe, Iker Uriarte, Giulia Orsi, Sofia Llorente, Jasmin Elurbide, Elena Adan-Villaescusa, Emiliana Valbuena-Goiricelaya, Ainara Irigaray-Miramon, Maria Ujue Latasa, Luz A. Martinez-Perez, Luca Reggiani Bonetti, Felipe Prosper, Mariano Ponz-Sarvise, Silvestre Vicent, Antonio Pineda-Lucena, David Ruiz-Clavijo, Bruno Sangro, Urko Aguirre Larracoechea, Tian V. Tian, Andrea Casadei-Gardini, Irene Amat, Maria Arechederra, Carmen Berasain, Jesus M. Urman, Matias A. Avila, Maite G. Fernandez-Barrena

“…The critical role of epigenetic alterations such as changes in DNA methylation, histones modifications, and chromatin remodeling, in pancreatic tumors progression is becoming increasingly recognized. …”
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N6-methyladenosine RNA modification regulates the transcription of SLC7A11 through KDM6B and GATA3 to modulate ferroptosis by Haisheng Zhang, Cheng Yi, Jianing Li, Yunqing Lu, Haoran Wang, Lijun Tao, Jiawang Zhou, Yonghuang Tan, Jiexin Li, Zhuojia Chen, Gholamreza Asadikaram, Jie Cao, Jianxin Peng, Wanglin Li, Junming He, Hongsheng Wang

“…RNA sequencing (RNA-seq) was employed to analyze the factors regulating ferroptosis. Chromatin immunoprecipitation (ChIP) was used to assess the binding of regulatory factors to the SLC7A11 promoter, and a Dual-Luciferase reporter assay measured promoter activity of SLC7A11. …”
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Diagnostics of lung cancer by fragmentated blood circulating cell-free DNA based on machine learning methods by Ivan O. Meshkov, Alexander P. Koturgin, Pavel V. Ershov, Liubov A. Safonova, Julia A. Remizova, Valentina V. Maksyutina, Ekaterina D. Maralova, Vasilisa A. Astafieva, Alexey A. Ivashechkin, Boris D. Ignatiev, Antonida V. Makhotenko, Ekaterina A. Snigir, Valentin V. Makarov, Vladimir S. Yudin, Anton A. Keskinov, Sergey M. Yudin, Anna S. Makarova, Veronika I. Skvortsova

“…The blood plasma circulating cell-free DNA (cfDNA) fragments reflect the genome and chromatin status and are considered as integral cancer biomarkers and the biological entities for ‘cancer-of-origin’ prediction. …”
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Bioinspired hierarchical porous tough adhesive to promote sealing of high-pressure bleeding by Yinghao Li, Dongling Xiao, Weixi Yan, Meilin Jiang, Ju Tan, Zhongliang Qin, Jingting Zhou, Yue Sun, Mingcan Yang, Guanyuan Yang, Yawei Gu, Yong Liu, Chuhong Zhu

“…Here, inspired by the principle of chromatin assembly, we present a tissue-conformable tough matrix for robust sealing of severe bleeding. …”
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Tacedinaline (CI-994), a class I HDAC inhibitor, targets intrinsic tumor growth and leptomeningeal dissemination in MYC-driven medulloblastoma while making them susceptible to anti... by Arndt Borkhardt, Nan Qin, Stephen T Keir, Darell D Bigner, Allison Cole, Matthias Wölfl, Viktoria Marquardt, Johanna Theruvath, David Pauck, Daniel Picard, Lena Blümel, Mara Maue, Jasmin Bartl, Ulvi Ahmadov, Maike Langini, Frauke-Dorothee Meyer, Joselyn Cruz-Cruz, Claus M Graef, Till Milde, Olaf Witt, Anat Erdreich-Epstein, Gabriel Leprivier, Ulf Kahlert, Anja Stefanski, Kai Stühler, Julia Hauer, Thomas Beez, Christiane B Knobbe-Thomsen, Ute Fischer, Jörg Felsberg, Finn K Hansen, Rajeev Vibhakar, Sujatha Venkatraman, Samuel H Cheshier, Guido Reifenberger, Thomas Kurz, Marc Remke, Siddhartha Mitra

“…Large-scale studies have revealed abnormal cancer epigenomes caused by mutations and structural alterations of chromatin modifiers, aberrant DNA methylation, and histone modification signatures. …”
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