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236 results on '"Diao, Yarui"'

1. TNRC18 engages H3K9me3 to mediate silencing of endogenous retrotransposons.

Author

Zhao, Shuai, Pan, Bo, Fan, Huitao, Byrum, Stephanie, Xu, Chenxi, Kim, Arum, Guo, Yiran, Kanchi, Krishna, Gong, Weida, Sun, Tongyu, Storey, Aaron, Burkholder, Nathaniel, Mackintosh, Samuel, Kuhlers, Peyton, Edmondson, Ricky, Strahl, Brian, Diao, Yarui, Tackett, Alan, Raab, Jesse, Cai, Ling, Wang, Gang, Song, Jikui, and Lu, Jiuwei

Subjects
Animals, Humans, Mice, Chromatin, Co-Repressor Proteins, Endogenous Retroviruses, Epigenesis, Genetic, Gene Expression Profiling, Gene Silencing, Genome, Histone Deacetylases, Histones, Intracellular Signaling Peptides and Proteins, Lysine, Methylation, Protein Domains, Retroelements, Terminal Repeat Sequences, Animals, Newborn, Cell Line
Abstract

Trimethylation of histone H3 lysine 9 (H3K9me3) is crucial for the regulation of gene repression and heterochromatin formation, cell-fate determination and organismal development1. H3K9me3 also provides an essential mechanism for silencing transposable elements1-4. However, previous studies have shown that canonical H3K9me3 readers (for example, HP1 (refs. 5-9) and MPP8 (refs. 10-12)) have limited roles in silencing endogenous retroviruses (ERVs), one of the main transposable element classes in the mammalian genome13. Here we report that trinucleotide-repeat-containing 18 (TNRC18), a poorly understood chromatin regulator, recognizes H3K9me3 to mediate the silencing of ERV class I (ERV1) elements such as LTR12 (ref. 14). Biochemical, biophysical and structural studies identified the carboxy-terminal bromo-adjacent homology (BAH) domain of TNRC18 (TNRC18(BAH)) as an H3K9me3-specific reader. Moreover, the amino-terminal segment of TNRC18 is a platform for the direct recruitment of co-repressors such as HDAC-Sin3-NCoR complexes, thus enforcing optimal repression of the H3K9me3-demarcated ERVs. Point mutagenesis that disrupts the TNRC18(BAH)-mediated H3K9me3 engagement caused neonatal death in mice and, in multiple mammalian cell models, led to derepressed expression of ERVs, which affected the landscape of cis-regulatory elements and, therefore, gene-expression programmes. Collectively, we describe a new H3K9me3-sensing and regulatory pathway that operates to epigenetically silence evolutionarily young ERVs and exert substantial effects on host genome integrity, transcriptomic regulation, immunity and development.

Published
2023

3. CRISPR–Cas9-based functional interrogation of unconventional translatome reveals human cancer dependency on cryptic non-canonical open reading frames

Author

Zheng, Caishang, Wei, Yanjun, Zhang, Peng, Lin, Kangyu, He, Dandan, Teng, Hongqi, Manyam, Ganiraju, Zhang, Zhao, Liu, Wen, Lee, Hye Rin Lindsay, Tang, Ximing, He, Wei, Islam, Nelufa, Jain, Antrix, Chiu, Yulun, Cao, Shaolong, Diao, Yarui, Meyer-Gauen, Sherita, Höök, Magnus, Malovannaya, Anna, Li, Wenbo, Hu, Ming, Wang, Wenyi, Xu, Han, Kopetz, Scott, and Chen, Yiwen

Published
2023
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5. Long-term expandable mouse and human-induced nephron progenitor cells enable kidney organoid maturation and modeling of plasticity and disease

Author

Huang, Biao, Zeng, Zipeng, Kim, Sunghyun, Fausto, Connor C., Koppitch, Kari, Li, Hui, Li, Zexu, Chen, Xi, Guo, Jinjin, Zhang, Chennan C., Ma, Tianyi, Medina, Pedro, Schreiber, Megan E., Xia, Mateo W., Vonk, Ariel C., Xiang, Tianyuan, Patel, Tadrushi, Li, Yidan, Parvez, Riana K., Der, Balint, Chen, Jyun Hao, Liu, Zhenqing, Thornton, Matthew E., Grubbs, Brendan H., Diao, Yarui, Dou, Yali, Gnedeva, Ksenia, Ying, Qilong, Pastor-Soler, Nuria M., Fei, Teng, Hallows, Kenneth R., Lindström, Nils O., McMahon, Andrew P., and Li, Zhongwei

Published
2024
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6. The Hippo pathway mediates Semaphorin signaling

Author

Meng, Zhipeng, Li, Fu-Long, Fang, Cao, Yeoman, Benjamin, Qiu, Yunjiang, Wang, Ying, Cai, Xiaomin, Lin, Kimberly C, Yang, Di, Luo, Min, Fu, Vivian, Ma, Xiaoxiao, Diao, Yarui, Giancotti, Filippo G, Ren, Bing, Engler, Adam J, and Guan, Kun-Liang

Subjects
Cancer, Genetics, Underpinning research, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Aetiology
Abstract

Semaphorins were originally identified as axonal guidance molecules, but they also control processes such as vascular development and tumorigenesis. The downstream signaling cascades of Semaphorins in these biological processes remain unclear. Here, we show that the class 3 Semaphorins (SEMA3s) activate the Hippo pathway to attenuate tissue growth, angiogenesis, and tumorigenesis. SEMA3B restoration in lung cancer cells with SEMA3B loss of heterozygosity suppresses cancer cell growth via activating the core Hippo kinases LATS1/2 (large tumor suppressor kinase 1/2). Furthermore, SEMA3 also acts through LATS1/2 to inhibit angiogenesis. We identified p190RhoGAPs as essential partners of the SEMA3A receptor PlexinA in Hippo regulation. Upon SEMA3 treatment, PlexinA interacts with the pseudo-guanosine triphosphatase (GTPase) domain of p190RhoGAP and simultaneously recruits RND GTPases to activate p190RhoGAP, which then stimulates LATS1/2. Disease-associated etiological factors, such as genetic lesions and oscillatory shear, diminish Hippo pathway regulation by SEMA3. Our study thus discovers a critical role of Hippo signaling in mediating SEMA3 physiological function.

Published
2022

10. BAHCC1 binds H3K27me3 via a conserved BAH module to mediate gene silencing and oncogenesis

Author

Fan, Huitao, Lu, Jiuwei, Guo, Yiran, Li, Dongxu, Zhang, Zhi-Min, Tsai, Yi-Hsuan, Pi, Wen-Chieh, Ahn, Jeong Hyun, Gong, Weida, Xiang, Yu, Allison, David F, Geng, Huimin, He, Shenghui, Diao, Yarui, Chen, Wei-Yi, Strahl, Brian D, Cai, Ling, Song, Jikui, and Wang, Gang Greg

Subjects
Biochemistry and Cell Biology, Genetics, Biological Sciences, Human Genome, Rare Diseases, Pediatric Cancer, Hematology, Cancer, Pediatric, 2.1 Biological and endogenous factors, Generic health relevance, Animals, Carcinogenesis, Cell Differentiation, Cell Line, Tumor, Chromatin Immunoprecipitation, Gene Expression Regulation, Gene Silencing, HEK293 Cells, HeLa Cells, Histone Code, Histones, Humans, Jurkat Cells, Leukemia, Methylation, Mice, Mice, Transgenic, Neoplasm Transplantation, Protein Processing, Post-Translational, Proteins, Transplantation, Heterologous, Hela Cells, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology
Abstract

Trimethylated histone H3 lysine 27 (H3K27me3) regulates gene repression, cell-fate determination and differentiation. We report that a conserved bromo-adjacent homology (BAH) module of BAHCC1 (BAHCC1BAH) 'recognizes' H3K27me3 specifically and enforces silencing of H3K27me3-demarcated genes in mammalian cells. Biochemical, structural and integrated chromatin immunoprecipitation-sequencing-based analyses demonstrate that direct readout of H3K27me3 by BAHCC1 is achieved through a hydrophobic trimethyl-L-lysine-binding 'cage' formed by BAHCC1BAH, mediating colocalization of BAHCC1 and H3K27me3-marked genes. BAHCC1 is highly expressed in human acute leukemia and interacts with transcriptional corepressors. In leukemia, depletion of BAHCC1, or disruption of the BAHCC1BAH-H3K27me3 interaction, causes derepression of H3K27me3-targeted genes that are involved in tumor suppression and cell differentiation, leading to suppression of oncogenesis. In mice, introduction of a germline mutation at Bahcc1 to disrupt its H3K27me3 engagement causes partial postnatal lethality, supporting a role in development. This study identifies an H3K27me3-directed transduction pathway in mammals that relies on a conserved BAH 'reader'.

Published
2020

11. Subtype-specific 3D genome alteration in acute myeloid leukaemia

Author

Xu, Jie, Song, Fan, Lyu, Huijue, Kobayashi, Mikoto, Zhang, Baozhen, Zhao, Ziyu, Hou, Ye, Wang, Xiaotao, Luan, Yu, Jia, Bei, Stasiak, Lena, Wong, Josiah Hiu-yuen, Wang, Qixuan, Jin, Qi, Jin, Qiushi, Fu, Yihao, Yang, Hongbo, Hardison, Ross C., Dovat, Sinisa, Platanias, Leonidas C., Diao, Yarui, Yang, Yue, Yamada, Tomoko, Viny, Aaron D., Levine, Ross L., Claxton, David, Broach, James. R., Zheng, Hong, and Yue, Feng

Published
2022
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13. Single-cell transcriptomic analyses of mouse idh1 mutant growth plate chondrocytes reveal distinct cell populations responsible for longitudinal growth and enchondroma formation

Author

Puviindran, Vijitha, primary, Shimada, Eijiro, additional, Huang, Zeyu, additional, Ma, Xinyi, additional, Ban, Ga I, additional, Xiang, Yu, additional, Zhang, Hongyuan, additional, Ou, Jianhong, additional, Wei, Xiaolin, additional, Nakagawa, Makoto, additional, Martin, John, additional, Diao, Yarui, additional, and Alman, Benjamin A., additional

Published
2024
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14. Circular ecDNA promotes accessible chromatin and high oncogene expression

Author

Wu, Sihan, Turner, Kristen M, Nguyen, Nam, Raviram, Ramya, Erb, Marcella, Santini, Jennifer, Luebeck, Jens, Rajkumar, Utkrisht, Diao, Yarui, Li, Bin, Zhang, Wenjing, Jameson, Nathan, Corces, M Ryan, Granja, Jeffrey M, Chen, Xingqi, Coruh, Ceyda, Abnousi, Armen, Houston, Jack, Ye, Zhen, Hu, Rong, Yu, Miao, Kim, Hoon, Law, Julie A, Verhaak, Roel GW, Hu, Ming, Furnari, Frank B, Chang, Howard Y, Ren, Bing, Bafna, Vineet, and Mischel, Paul S

Subjects
Biological Sciences, Genetics, Human Genome, Cancer, Biotechnology, Cancer Genomics, Cell Line, Tumor, Chromatin, DNA, Circular, Gene Expression Regulation, Neoplastic, Humans, Microscopy, Electron, Scanning, Neoplasms, Oncogenes, General Science & Technology
Abstract

Oncogenes are commonly amplified on particles of extrachromosomal DNA (ecDNA) in cancer1,2, but our understanding of the structure of ecDNA and its effect on gene regulation is limited. Here, by integrating ultrastructural imaging, long-range optical mapping and computational analysis of whole-genome sequencing, we demonstrate the structure of circular ecDNA. Pan-cancer analyses reveal that oncogenes encoded on ecDNA are among the most highly expressed genes in the transcriptome of the tumours, linking increased copy number with high transcription levels. Quantitative assessment of the chromatin state reveals that although ecDNA is packaged into chromatin with intact domain structure, it lacks higher-order compaction that is typical of chromosomes and displays significantly enhanced chromatin accessibility. Furthermore, ecDNA is shown to have a significantly greater number of ultra-long-range interactions with active chromatin, which provides insight into how the structure of circular ecDNA affects oncogene function, and connects ecDNA biology with modern cancer genomics and epigenetics.

Published
2019

15. NAD metabolic dependency in cancer is shaped by gene amplification and enhancer remodelling.

Author

Chowdhry, Sudhir, Zanca, Ciro, Rajkumar, Utkrisht, Koga, Tomoyuki, Diao, Yarui, Raviram, Ramya, Liu, Feng, Turner, Kristen, Yang, Huijun, Brunk, Elizabeth, Bi, Junfeng, Furnari, Frank, Bafna, Vineet, Ren, Bing, and Mischel, Paul

Subjects
Animals, Carbon-Nitrogen Ligases with Glutamine as Amide-N-Donor, Cell Death, Cell Line, Tumor, Cytokines, Enhancer Elements, Genetic, Epigenesis, Genetic, Female, Gene Amplification, Gene Expression Regulation, Neoplastic, Humans, Mice, NAD, Neoplasms, Nicotinamide Phosphoribosyltransferase, Pentosyltransferases, Phosphotransferases (Alcohol Group Acceptor)
Abstract

Precision oncology hinges on linking tumour genotype with molecularly targeted drugs1; however, targeting the frequently dysregulated metabolic landscape of cancer has proven to be a major challenge2. Here we show that tissue context is the major determinant of dependence on the nicotinamide adenine dinucleotide (NAD) metabolic pathway in cancer. By analysing more than 7,000 tumours and 2,600 matched normal samples of 19 tissue types, coupled with mathematical modelling and extensive in vitro and in vivo analyses, we identify a simple and actionable set of rules. If the rate-limiting enzyme of de novo NAD synthesis, NAPRT, is highly expressed in a normal tissue type, cancers that arise from that tissue will have a high frequency of NAPRT amplification and be completely and irreversibly dependent on NAPRT for survival. By contrast, tumours that arise from normal tissues that do not express NAPRT highly are entirely dependent on the NAD salvage pathway for survival. We identify the previously unknown enhancer that underlies this dependence. Amplification of NAPRT is shown to generate a pharmacologically actionable tumour cell dependence for survival. Dependence on another rate-limiting enzyme of the NAD synthesis pathway, NAMPT, as a result of enhancer remodelling is subject to resistance by NMRK1-dependent synthesis of NAD. These results identify a central role for tissue context in determining the choice of NAD biosynthetic pathway, explain the failure of NAMPT inhibitors, and pave the way for more effective treatments.

Published
2019

18. RAP2 mediates mechanoresponses of the Hippo pathway.

Author

Meng, Zhipeng, Qiu, Yunjiang, Lin, Kimberly C, Kumar, Aditya, Placone, Jesse K, Fang, Cao, Wang, Kuei-Chun, Lu, Shicong, Pan, Margaret, Hong, Audrey W, Moroishi, Toshiro, Luo, Min, Plouffe, Steven W, Diao, Yarui, Ye, Zhen, Park, Hyun Woo, Wang, Xiaoqiong, Yu, Fa-Xing, Chien, Shu, Wang, Cun-Yu, Ren, Bing, Engler, Adam J, and Guan, Kun-Liang

Subjects
Extracellular Matrix, Animals, Mice, Inbred NOD, Humans, Mice, Mice, Nude, Mice, SCID, Cell Transformation, Neoplastic, rap GTP-Binding Proteins, Protein-Serine-Threonine Kinases, Intracellular Signaling Peptides and Proteins, Adaptor Proteins, Signal Transducing, GTPase-Activating Proteins, Guanine Nucleotide Exchange Factors, Trans-Activators, Nerve Tissue Proteins, Phosphoproteins, Transcription Factors, Signal Transduction, Female, Phospholipase C gamma, HEK293 Cells, Transcriptome, Germinal Center Kinases, 1.1 Normal biological development and functioning, General Science & Technology
Abstract

Mammalian cells are surrounded by neighbouring cells and extracellular matrix (ECM), which provide cells with structural support and mechanical cues that influence diverse biological processes1. The Hippo pathway effectors YAP (also known as YAP1) and TAZ (also known as WWTR1) are regulated by mechanical cues and mediate cellular responses to ECM stiffness2,3. Here we identified the Ras-related GTPase RAP2 as a key intracellular signal transducer that relays ECM rigidity signals to control mechanosensitive cellular activities through YAP and TAZ. RAP2 is activated by low ECM stiffness, and deletion of RAP2 blocks the regulation of YAP and TAZ by stiffness signals and promotes aberrant cell growth. Mechanistically, matrix stiffness acts through phospholipase Cγ1 (PLCγ1) to influence levels of phosphatidylinositol 4,5-bisphosphate and phosphatidic acid, which activates RAP2 through PDZGEF1 and PDZGEF2 (also known as RAPGEF2 and RAPGEF6). At low stiffness, active RAP2 binds to and stimulates MAP4K4, MAP4K6, MAP4K7 and ARHGAP29, resulting in activation of LATS1 and LATS2 and inhibition of YAP and TAZ. RAP2, YAP and TAZ have pivotal roles in mechanoregulated transcription, as deletion of YAP and TAZ abolishes the ECM stiffness-responsive transcriptome. Our findings show that RAP2 is a molecular switch in mechanotransduction, thereby defining a mechanosignalling pathway from ECM stiffness to the nucleus.

Published
2018

19. A tiling-deletion-based genetic screen for cis-regulatory element identification in mammalian cells

Author

Diao, Yarui, Fang, Rongxin, Li, Bin, Meng, Zhipeng, Yu, Juntao, Qiu, Yunjiang, Lin, Kimberly C, Huang, Hui, Liu, Tristin, Marina, Ryan J, Jung, Inkyung, Shen, Yin, Guan, Kun-Liang, and Ren, Bing

Subjects
Biochemistry and Cell Biology, Biological Sciences, Human Genome, Prevention, Genetics, Congenital Structural Anomalies, Pediatric, Algorithms, Cells, Cultured, Chromosome Mapping, Embryonic Stem Cells, Gene Expression Regulation, Genetic Testing, High-Throughput Nucleotide Sequencing, Humans, Regulatory Sequences, Nucleic Acid, Sequence Analysis, DNA, Single-Cell Analysis, Technology, Medical and Health Sciences, Developmental Biology, Biological sciences
Abstract

Millions of cis-regulatory elements are predicted to be present in the human genome, but direct evidence for their biological function is scarce. Here we report a high-throughput method, cis-regulatory element scan by tiling-deletion and sequencing (CREST-seq), for the unbiased discovery and functional assessment of cis-regulatory sequences in the genome. We used it to interrogate the 2-Mb POU5F1 locus in human embryonic stem cells, and identified 45 cis-regulatory elements. A majority of these elements have active chromatin marks, DNase hypersensitivity, and occupancy by multiple transcription factors, which confirms the utility of chromatin signatures in cis-element mapping. Notably, 17 of them are previously annotated promoters of functionally unrelated genes, and like typical enhancers, they form extensive spatial contacts with the POU5F1 promoter. These results point to the commonality of enhancer-like promoters in the human genome.

Published
2017

20. A new class of temporarily phenotypic enhancers identified by CRISPR/Cas9-mediated genetic screening

Author

Diao, Yarui, Li, Bin, Meng, Zhipeng, Jung, Inkyung, Lee, Ah Young, Dixon, Jesse, Maliskova, Lenka, Guan, Kun-liang, Shen, Yin, and Ren, Bing

Subjects
Biochemistry and Cell Biology, Bioinformatics and Computational Biology, Genetics, Biological Sciences, Stem Cell Research, Human Genome, Regenerative Medicine, Biotechnology, Stem Cell Research - Embryonic - Human, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, CRISPR-Cas Systems, Cell Line, Enhancer Elements, Genetic, Gene Expression Regulation, Gene Targeting, Genetic Testing, Genome, Human, High-Throughput Screening Assays, Humans, Octamer Transcription Factor-3, Phenotype, Regulatory Sequences, Nucleic Acid, Sequence Deletion, Medical and Health Sciences, Bioinformatics
Abstract

With

Published
2016

22. Neutrophils promote tumor resistance to radiation therapy

Author

Wisdom, Amy J., Hong, Cierra S., Lin, Alexander J., Xiang, Yu, Cooper, Daniel E., Zhang, Jin, Xu, Eric S., Kuo, Hsuan-Cheng, Mowery, Yvonne M., Carpenter, David J., Kadakia, Kushal T., Himes, Jonathon E., Luo, Lixia, Ma, Yan, Williams, Nerissa, Cardona, Diana M., Haldar, Malay, Diao, Yarui, Markovina, Stephanie, Schwarz, Julie K., and Kirsch, David G.

Published
2019

24. Chromatin architecture reorganization during stem cell differentiation

Author

Dixon, Jesse R, Jung, Inkyung, Selvaraj, Siddarth, Shen, Yin, Antosiewicz-Bourget, Jessica E, Lee, Ah Young, Ye, Zhen, Kim, Audrey, Rajagopal, Nisha, Xie, Wei, Diao, Yarui, Liang, Jing, Zhao, Huimin, Lobanenkov, Victor V, Ecker, Joseph R, Thomson, James A, and Ren, Bing

Subjects
Biochemistry and Cell Biology, Genetics, Biological Sciences, Stem Cell Research, Stem Cell Research - Embryonic - Non-Human, Regenerative Medicine, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Alleles, Allelic Imbalance, Cell Differentiation, Cell Lineage, Chromatin, Chromatin Assembly and Disassembly, Embryonic Stem Cells, Enhancer Elements, Genetic, Epigenesis, Genetic, Epigenomics, Gene Regulatory Networks, Humans, Promoter Regions, Genetic, Reproducibility of Results, General Science & Technology
Abstract

Higher-order chromatin structure is emerging as an important regulator of gene expression. Although dynamic chromatin structures have been identified in the genome, the full scope of chromatin dynamics during mammalian development and lineage specification remains to be determined. By mapping genome-wide chromatin interactions in human embryonic stem (ES) cells and four human ES-cell-derived lineages, we uncover extensive chromatin reorganization during lineage specification. We observe that although self-associating chromatin domains are stable during differentiation, chromatin interactions both within and between domains change in a striking manner, altering 36% of active and inactive chromosomal compartments throughout the genome. By integrating chromatin interaction maps with haplotype-resolved epigenome and transcriptome data sets, we find widespread allelic bias in gene expression correlated with allele-biased chromatin states of linked promoters and distal enhancers. Our results therefore provide a global view of chromatin dynamics and a resource for studying long-range control of gene expression in distinct human cell lineages.

Published
2015

25. Skeletal muscle regeneration failure in ischemic-damaged limbs is associated with pro-inflammatory macrophages and premature differentiation of satellite cells

Author

Southerland, Kevin W., primary, Xu, Yueyuan, additional, Peters, Derek T., additional, Lin, Xin, additional, Wei, Xiaolin, additional, Xiang, Yu, additional, Fei, Kaileen, additional, Olivere, Lindsey A., additional, Morowitz, Jeremy M., additional, Otto, James, additional, Dai, Qunsheng, additional, Kontos, Christopher D., additional, and Diao, Yarui, additional

Published
2023
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26. Decoding Heterogenous Single-cell Perturbation Responses

Author

Song, Bicna, primary, Liu, Dingyu, additional, Dai, Weiwei, additional, McMyn, Natalie, additional, Wang, Qingyang, additional, Yang, Dapeng, additional, Krejci, Adam, additional, Vasilyev, Anatoly, additional, Untermoser, Nicole, additional, Loregger, Anke, additional, Song, Dongyuan, additional, Williams, Breanna, additional, Rosen, Bess, additional, Cheng, Xiaolong, additional, Chao, Lumen, additional, Kale, Hanuman T., additional, Zhang, Hao, additional, Diao, Yarui, additional, Bürckstümmer, Tilmann, additional, Siliciano, Jenet M., additional, Li, Jingyi Jessica, additional, Siliciano, Robert, additional, Huangfu, Danwei, additional, and Li, Wei, additional

Published
2023
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30. Modeling kidney development, disease, and plasticity with clonal expandable nephron progenitor cells and nephron organoids

Author

Huang, Biao, primary, Zeng, Zipeng, additional, Li, Hui, additional, Li, Zexu, additional, Chen, Xi, additional, Guo, Jinjin, additional, Zhang, Chennan C., additional, Schreiber, Megan E., additional, Vonk, Ariel, additional, Xiang, Tianyuanb, additional, Patel, Tadrushi, additional, Li, Yidan, additional, Parvez, Riana, additional, Der, Balint, additional, Chen, Jyun Hao, additional, Liu, Zhenqing, additional, Thornton, Matthew E., additional, Grubbs, Brendan H., additional, Diao, Yarui, additional, Dou, Yali, additional, Gnedeva, Ksenia, additional, Lindstrom, Nils Olof, additional, Ying, Qi-Long, additional, Pastor-Soler, Nuria M., additional, Fei, Teng, additional, Hallows, Kenneth R., additional, McMahon, Andrew P., additional, and Li, Zhongwei, additional

Published
2023
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34. Pro-inflammatory macrophages impair skeletal muscle regeneration in ischemic-damaged limbs by inducing precocious differentiation of satellite cells

Author

Southerland, Kevin W., primary, Xu, Yueyuan, additional, Peters, Derek T., additional, Wei, Xiaolin, additional, Lin, Xin, additional, Xiang, Yu, additional, Fei, Kaileen, additional, Olivere, Lindsey A., additional, Morowitz, Jeremy M., additional, Otto, James, additional, Dai, Qunsheng, additional, Kontos, Christopher D., additional, and Diao, Yarui, additional

Published
2023
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35. Single-cell chromatin accessibility profiling reveals a self-renewing muscle satellite cell state

Author

Okafor, Arinze E., Lin, Xin, Situ, Chenghao, Wei, Xiaolin, Xiang, Yu, Wei, Xiuqing, Wu, Zhenguo, Diao, Yarui, Okafor, Arinze E., Lin, Xin, Situ, Chenghao, Wei, Xiaolin, Xiang, Yu, Wei, Xiuqing, Wu, Zhenguo, and Diao, Yarui

Abstract

A balance between self-renewal and differentiation is critical for the regenerative capacity of tissue-resident stem cells. In skeletal muscle, successful regeneration requires the orchestrated activation, proliferation, and differentiation of muscle satellite cells (MuSCs) that are normally quiescent. A subset of MuSCs undergoes self-renewal to replenish the stem cell pool, but the features that identify and define self-renewing MuSCs remain to be elucidated. Here, through single-cell chromatin accessibility analysis, we reveal the self-renewal versus differentiation trajectories of MuSCs over the course of regeneration in vivo. We identify Betaglycan as a unique marker of self-renewing MuSCs that can be purified and efficiently contributes to regeneration after transplantation. We also show that SMAD4 and downstream genes are genetically required for self-renewal in vivo by restricting differentiation. Our study unveils the identity and mechanisms of self-renewing MuSCs, while providing a key resource for comprehensive analysis of muscle regeneration.

Published
2023

36. Prolonged hypernutrition impairs TREM2-dependent efferocytosis to license chronic liver inflammation and NASH development

Author

Wang, Xiaochen, primary, He, Qifeng, additional, Zhou, Chuanli, additional, Xu, Yueyuan, additional, Liu, Danhui, additional, Fujiwara, Naoto, additional, Kubota, Naoto, additional, Click, Arielle, additional, Henderson, Polly, additional, Vancil, Janiece, additional, Marquez, Cesia Ammi, additional, Gunasekaran, Ganesh, additional, Schwartz, Myron E., additional, Tabrizian, Parissa, additional, Sarpel, Umut, additional, Fiel, Maria Isabel, additional, Diao, Yarui, additional, Sun, Beicheng, additional, Hoshida, Yujin, additional, Liang, Shuang, additional, and Zhong, Zhenyu, additional

Published
2023
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