Your search keyword '"Xingqi Chen"' showing total 89 results

1. Epigenetic insights into GABAergic development in Dravet Syndrome iPSC and therapeutic implications

Author

Jens Schuster, Xi Lu, Yonglong Dang, Joakim Klar, Amelie Wenz, Niklas Dahl, and Xingqi Chen

Subjects

epigenetic, dravet syndrome iPSC, GABAergic neurons, chromatin accessibility, Medicine, Science, Biology (General), QH301-705.5

Abstract

Dravet syndrome (DS) is a devastating early-onset refractory epilepsy syndrome caused by variants in the SCN1A gene. A disturbed GABAergic interneuron function is implicated in the progression to DS but the underlying developmental and pathophysiological mechanisms remain elusive, in particularly at the chromatin level. Induced pluripotent stem cells (iPSCs) derived from DS cases and healthy donors were used to model disease-associated epigenetic abnormalities of GABAergic development. Chromatin accessibility was assessed at multiple time points (Day 0, Day 19, Day 35, and Day 65) of GABAergic differentiation. Additionally, the effects of the commonly used anti-seizure drug valproic acid (VPA) on chromatin accessibility were elucidated in GABAergic cells. The distinct dynamics in the chromatin profile of DS iPSC predicted accelerated early GABAergic development, evident at D19, and diverged further from the pattern in control iPSC with continued differentiation, indicating a disrupted GABAergic maturation. Exposure to VPA at D65 reshaped the chromatin landscape at a variable extent in different iPSC-lines and rescued the observed dysfunctional development of some DS iPSC-GABA. The comprehensive investigation on the chromatin landscape of GABAergic differentiation in DS-patient iPSC offers valuable insights into the epigenetic dysregulations associated with interneuronal dysfunction in DS. Moreover, the detailed analysis of the chromatin changes induced by VPA in iPSC-GABA holds the potential to improve the development of personalized and targeted anti-epileptic therapies.

Published

2024

2. Identification of ATF3 as a novel protective signature of quiescent colorectal tumor cells

Author

Xi Lu, Lei Zhong, Emma Lindell, Margus Veanes, Jing Guo, Miao Zhao, Maede Salehi, Fredrik J. Swartling, Xingqi Chen, Tobias Sjöblom, and Xiaonan Zhang

Subjects

Cytology, QH573-671

Abstract

Abstract Colorectal cancer (CRC) is the third most common cancer and the second leading cause of death in the world. In most cases, drug resistance and tumor recurrence are ultimately inevitable. One obstacle is the presence of chemotherapy-insensitive quiescent cancer cells (QCCs). Identification of unique features of QCCs may facilitate the development of new targeted therapeutic strategies to eliminate tumor cells and thereby delay tumor recurrence. Here, using single-cell RNA sequencing, we classified proliferating and quiescent cancer cell populations in the human colorectal cancer spheroid model and identified ATF3 as a novel signature of QCCs that could support cells living in a metabolically restricted microenvironment. RNA velocity further showed a shift from the QCC group to the PCC group indicating the regenerative capacity of the QCCs. Our further results of epigenetic analysis, STING analysis, and evaluation of TCGA COAD datasets build a conclusion that ATF3 can interact with DDIT4 and TRIB3 at the transcriptional level. In addition, decreasing the expression level of ATF3 could enhance the efficacy of 5-FU on CRC MCTS models. In conclusion, ATF3 was identified as a novel marker of QCCs, and combining conventional drugs targeting PCCs with an option to target QCCs by reducing ATF3 expression levels may be a promising strategy for more efficient removal of tumor cells.

Published

2023

3. Porcine circovirus type 2 infection promotes the SUMOylation of nucleophosmin-1 to facilitate the viral circular single-stranded DNA replication.

Author

Qian Du, Lei Zhu, Jianhui Zhong, Xueqi Wei, Qi Zhang, Tengfei Shi, Cong Han, Xinhuan Yin, Xingqi Chen, Dewen Tong, and Yong Huang

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

The mechanism of genome DNA replication in circular single-stranded DNA viruses is currently a mystery, except for the fact that it undergoes rolling-circle replication. Herein, we identified SUMOylated porcine nucleophosmin-1 (pNPM1), which is previously reported to be an interacting protein of the viral capsid protein, as a key regulator that promotes the genome DNA replication of porcine single-stranded DNA circovirus. Upon porcine circovirus type 2 (PCV2) infection, SUMO2/3 were recruited and conjugated with the K263 site of pNPM1's C-terminal domain to SUMOylate pNPM1, subsequently, the SUMOylated pNPM1 were translocated in nucleoli to promote the replication of PCV2 genome DNA. The mutation of the K263 site reduced the SUMOylation levels of pNPM1 and the nucleolar localization of pNPM1, resulting in a decrease in the level of PCV2 DNA replication. Meanwhile, the mutation of the K263 site prevented the interaction of pNPM1 with PCV2 DNA, but not the interaction of pNPM1 with PCV2 Cap. Mechanistically, PCV2 infection increased the expression levels of Ubc9, the only E2 enzyme involved in SUMOylation, through the Cap-mediated activation of ERK signaling. The upregulation of Ubc9 promoted the interaction between pNPM1 and TRIM24, a potential E3 ligase for SUMOylation, thereby facilitating the SUMOylation of pNPM1. The inhibition of ERK activation could significantly reduce the SUMOylation levels and the nucleolar localization of pNPM1, as well as the PCV2 DNA replication levels. These results provide new insights into the mechanism of circular single-stranded DNA virus replication and highlight NPM1 as a potential target for inhibiting PCV2 replication.

Published

2024

4. Inverse association between type 2 diabetes and hepatocellular carcinoma in East Asian populations

Author

Jinlong Huo, Yaxuan Xu, Xingqi Chen, Jie Yu, and Lijin Zhao

Subjects

type 2 diabetes, hepatocellular carcinoma, Mendelian randomization, East Asian populations, association, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

AimsTo investigate the potential association between type 2 diabetes (T2D) and hepatocellular carcinoma (HCC) in East Asian populations using Mendelian randomization (MR) analyses.MethodsBidirectional Mendelian randomization (MR) studies were conducted using summary statistics from genome-wide association studies (GWAS) related to T2D and HCC. The potential effects of confounders such as chronic hepatitis B, chronic hepatitis C, body mass index, and alcohol intake frequency were corrected using a multivariate MR study. Various MR methods, including the inverse variance weighted (IVW) approach, were used to estimate the associations between T2D and HCC. Sensitivity analysis and assessment of heterogeneity were performed to ensure the robustness of the results.ResultsIn the forward MR study, the IVW approach of MR analysis suggested an inverse association between T2D and HCC, with a risk odds ratio of 0.8628 (95% confidence interval [CI], 0.7888–0.9438). Furthermore, even after adjusting for BMI, chronic hepatitis B, and alcohol intake frequency, this study still supports the inverse association between T2D and HCC. Additional MR methods provided further support for this relationship. Sensitivity analysis and assessment of heterogeneity confirmed the robustness of the results. The reverse MR analysis did not show a clear impact of genetic liability to HCC on reduced risk of T2D(OR=0.9788; 95% CI, 0.9061-1.0574).ConclusionThis study provides evidence of an inverse association between T2D and HCC in East Asian populations using MR analysis. Further studies are warranted to validate these findings.

Published

2024

5. Cell-lineage controlled epigenetic regulation in glioblastoma stem cells determines functionally distinct subgroups and predicts patient survival

Author

Xi Lu, Naga Prathyusha Maturi, Malin Jarvius, Irem Yildirim, Yonglong Dang, Linxuan Zhao, Yuan Xie, E-Jean Tan, Pengwei Xing, Rolf Larsson, Mårten Fryknäs, Lene Uhrbom, and Xingqi Chen

Subjects

Science

Abstract

The epigenetic regulation of glioblastoma stem cell (GSC) function remains poorly understood. Here, the authors compare the chromatin accessibility landscape of GSC cultures from mice and patients and suggest that the epigenome of GSCs is cell lineage-regulated and could predict patient survival.

Published

2022

6. Epiblast-like stem cells established by Wnt/β-catenin signaling manifest distinct features of formative pluripotency and germline competence

Author

Qing Luo, Han-pin Pui, Jiayu Chen, Leqian Yu, Paulo R. Jannig, Yu Pei, Linxuan Zhao, Xingqi Chen, Sophie Petropoulos, Jorge L. Ruas, Jun Wu, and Qiaolin Deng

Subjects

CP: Stem cell research, Biology (General), QH301-705.5

Abstract

Summary: Different formative pluripotent stem cells harboring similar functional properties have been recently established to be lineage neutral and germline competent yet have distinct molecular identities. Here, we show that WNT/β-catenin signaling activation sustains transient mouse epiblast-like cells as epiblast-like stem cells (EpiLSCs). EpiLSCs display metastable formative pluripotency with bivalent cellular energy metabolism and unique transcriptomic features and chromatin accessibility. We develop single-cell stage label transfer (scSTALT) to study the formative pluripotency continuum and reveal that EpiLSCs recapitulate a unique developmental period in vivo, filling the gap of the formative pluripotency continuum between other published formative stem cells. WNT/β-catenin signaling activation counteracts differentiation effects of activin A and bFGF by preventing complete dissolution of naive pluripotency regulatory network. Moreover, EpiLSCs have direct competence toward germline specification, which is further matured by an FGF receptor inhibitor. Our EpiLSCs can serve as an in vitro model for mimicking and studying early post-implantation development and pluripotency transition.

Published

2023

7. Focal amplifications are associated with chromothripsis events and diverse prognoses in gastric cardia adenocarcinoma

Author

Xue-Ke Zhao, Pengwei Xing, Xin Song, Miao Zhao, Linxuan Zhao, Yonglong Dang, Ling-Ling Lei, Rui-Hua Xu, Wen-Li Han, Pan-Pan Wang, Miao-Miao Yang, Jing-Feng Hu, Kan Zhong, Fu-You Zhou, Xue-Na Han, Chao-Long Meng, Jia-Jia Ji, Xingqi Chen, and Li-Dong Wang

Subjects

Science

Abstract

The role of focal amplifications and extrachromosomal DNA (ecDNA) is unknown in gastric cardia adenocarcinoma (GCA). Here, the authors identify frequent focal amplifications and ecDNAs in Chinese GCA patient samples, as well as the potential associations of these alterations with prognosis and dietary habits.

Published

2021

8. Prognostic Roles of ceRNA Network-Based Signatures in Gastrointestinal Cancers

Author

Xin Qi, Xingqi Chen, Yuanchun Zhao, Jiajia Chen, Beifang Niu, and Bairong Shen

Subjects

ceRNA network, prognostic signature, gastrointestinal cancer, translational implication, lncRNA, circRNA, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Gastrointestinal cancers (GICs) are high-incidence malignant tumors that seriously threaten human health around the world. Their complexity and heterogeneity make the classic staging system insufficient to guide patient management. Recently, competing endogenous RNA (ceRNA) interactions that closely link the function of protein-coding RNAs with that of non-coding RNAs, such as long non-coding RNA (lncRNA) and circular RNA (circRNA), has emerged as a novel molecular mechanism influencing miRNA-mediated gene regulation. Especially, ceRNA networks have proven to be powerful tools for deciphering cancer mechanisms and predicting therapeutic responses at the system level. Moreover, abnormal gene expression is one of the critical breaking events that disturb the stability of ceRNA network, highlighting the role of molecular biomarkers in optimizing cancer management and treatment. Therefore, developing prognostic signatures based on cancer-specific ceRNA network is of great significance for predicting clinical outcome or chemotherapy benefits of GIC patients. We herein introduce the current frontiers of ceRNA crosstalk in relation to their pathological implications and translational potentials in GICs, review the current researches on the prognostic signatures based on lncRNA or circRNA-mediated ceRNA networks in GICs, and highlight the translational implications of ceRNA signatures for GICs management. Furthermore, we summarize the computational approaches for establishing ceRNA network-based prognostic signatures, providing important clues for deciphering GIC biomarkers.

Published

2022

9. Heparanase Modulates Chromatin Accessibility

Author

Honglian Li, Hua Zhang, Amelie Wenz, Ziqi Kang, Helen Wang, Israel Vlodavsky, Xingqi Chen, and Jinping Li

Subjects

heparanase, ATAC-seq, epigenetics, histone, Cytology, QH573-671

Abstract

Heparanase is the sole endoglucuronidase that degrades heparan sulfate in the cell surface and extracellular matrix (ECM). Several studies have reported the localization of heparanase in the cell nucleus, but the functional role of the nuclear enzyme is still obscure. Subjecting mouse embryonic fibroblasts (MEFs) derived from heparanase knockout (Hpse-KO) mice and applying transposase-accessible chromatin with sequencing (ATAC-seq), we revealed that heparanase is involved in the regulation of chromatin accessibility. Integrating with genome-wide analysis of chromatin states revealed an overall low activity in the enhancer and promoter regions of Hpse-KO MEFs compared with wild-type (WT) MEFs. Western blot analysis of MEFs and tissues derived from Hpse-KO vs. WT mice confirmed reduced expression of H3K27ac (acetylated lysine at N-terminal position 27 of the histone H3 protein). Our results offer a mechanistic explanation for the well-documented attenuation of inflammatory responses and tumor growth in Hpse-KO mice.

Published

2023

10. A Highly Sensitive Method to Efficiently Profile the Histone Modifications of FFPE Samples

Author

Linxuan Zhao, Vamsi Polavarapu, Ram Yadav, Pengwei Xing, and Xingqi Chen

Subjects

Biology (General), QH301-705.5

Abstract

The majority of biopsies in both basic research and translational cancer studies are preserved in the format of archived formalin-fixed paraffin-embedded (FFPE) samples. Profiling histone modifications in archived FFPE tissues is critically important to understand gene regulation in human disease. The required input for current genome-wide histone modification profiling studies from FFPE samples is either 10–20 tissue sections or whole tissue blocks, which prevents better resolved analyses. Nevertheless, it is desirable to consume a minimal amount of FFPE tissue sections in the analysis as clinical tissue of interest are limited. Here, we present FFPE tissue with antibody-guided chromatin tagmentation with sequencing (FACT-seq), highly sensitive method to efficiently profile histone modifications in FFPE tissue by combining a novel fusion protein of hyperactive Tn5 transposase and protein A (T7-pA-Tn5) transposition and T7 in vitro transcription. FACT-seq generates high-quality chromatin profiles from different histone modifications with low number of FFPE nuclei. We showed a very small piece of FFPE tissue section containing ~4000 nuclei is sufficient to decode H3K27ac modifications with FACT-seq. In archived FFPE human colorectal and human glioblastoma cancer tissue, H3K27ac FACT-seq revealed disease specific super enhancers. In summary, FACT-seq allows researchers to decode histone modifications like H3K27ac and H3K27me3 in archival FFPE tissues with high sensitivity, thus allowing us to understand epigenetic regulation. Graphical abstract: (i) FFPE tissue section; (ii) Isolated nuclei; (iii) Primary antibody, secondary antibody and T7-pA-Tn5 bind to targets; (iv) DNA purification; (v) In vitro transcription and sequencing library preparation; (vi) Sequencing

Published

2022

11. Joint single-cell DNA accessibility and protein epitope profiling reveals environmental regulation of epigenomic heterogeneity

Author

Xingqi Chen, Ulrike M. Litzenburger, Yuning Wei, Alicia N. Schep, Edward L. LaGory, Hani Choudhry, Amato J. Giaccia, William J. Greenleaf, and Howard Y. Chang

Subjects

Science

Abstract

Cellular heterogeneity in cancer is complex and difficult to study. Here, the authors introduce Protein-indexed Assay of Transposase Accessible Chromatin (Pi-ATAC), which combines single cell chromatin and proteomic profiling to provide deep insight into the tumor microenvironment, and reveal the role of hypoxia in shaping the regulome of a subset of breast cancer cells in vivo.

Published

2018

12. Chromatin in situ proximity (ChrISP): Single-cell analysis of chromatin proximities at a high resolution

Author

Xingqi Chen, Chengxi Shi, Samer Yammine, Anita Göndör, Daniel Rönnlund, Alejandro Fernandez-Woodbridge, Noriyuki Sumida, Jerker Widengren, and Rolf Ohlsson

Subjects

chromosome, epigenetics, conformation, Biology (General), QH301-705.5

Abstract

Current techniques for analyzing chromatin structures are hampered by either poor resolution at the individual cell level or the need for a large number of cells to obtain higher resolution. This is a major problem as it hampers our understanding of chromatin conformation in single cells and how these respond to environmental cues. Here we describe a new method, chromatin in situ proximity (ChrISP), which reproducibly scores for proximities between two different chromatin fibers in 3-D with a resolution of ∼170Å in single cells. The technique is based on the in situ proximity ligation assay (ISPLA), but ChrISP omits the rolling circle amplification step (RCA). Instead, the proximities between chromatin fibers are visualized by a fluorescent connector oligonucleotide DNA, here termed splinter, forming a circular DNA with another circle-forming oligonucleotide, here termed backbone, upon ligation. In contrast to the regular ISPLA technique, our modification enables detection of chromatin fiber proximities independent of steric hindrances from nuclear structures. We use this method to identify higher order structures of individual chromosomes in relation to structural hallmarks of interphase nuclei and beyond the resolution of the light microscope.

Published

2014

13. Epigenetic insights into GABAergic development in Dravet Syndrome iPSC and therapeutic implications.

Author

Schuster, Jens, Xi Lu, Yonglong Dang, Klar, Joakim, Wenz, Amelie, Dahl, Niklas, and Xingqi Chen

Published

2024

14. Coal-Based Electrodes for Energy Storage Systems: Development, Challenges, and Prospects

Author

Yuda Li, Xingqi Chen, Zihao Zeng, Yu Dong, Shaohui Yuan, Wenqing Zhao, Feng Jiang, Yue Yang, Wei Sun, and Peng Ge

Subjects

Materials Chemistry, Electrochemistry, Energy Engineering and Power Technology, Chemical Engineering (miscellaneous), Electrical and Electronic Engineering

Published

2022

15. Decoding Connectivity Map-based drug repurposing for oncotherapy

Author

Yuanchun Zhao, Xingqi Chen, Jiajia Chen, and Xin Qi

Subjects

Molecular Biology, Information Systems

Abstract

The rising global burden of cancer has driven considerable efforts into the research and development of effective anti-cancer agents. Fortunately, with impressive advances in transcriptome profiling technology, the Connectivity Map (CMap) database has emerged as a promising and powerful drug repurposing approach. It provides an important platform for systematically discovering of the associations among genes, small-molecule compounds and diseases, and elucidating the mechanism of action of drug, contributing toward efficient anti-cancer pharmacotherapy. Moreover, CMap-based computational drug repurposing is gaining attention because of its potential to overcome the bottleneck constraints faced by traditional drug discovery in terms of cost, time and risk. Herein, we provide a comprehensive review of the applications of drug repurposing for anti-cancer drug discovery and summarize approaches for computational drug repurposing. We focus on the principle of the CMap database and novel CMap-based software/algorithms as well as their progress achieved for drug repurposing in the field of oncotherapy. This article is expected to illuminate the emerging potential of CMap in discovering effective anti-cancer drugs, thereby promoting efficient healthcare for cancer patients.

Published

2023

16. Supplementary Table S5 from Dormant SOX9-Positive Cells Facilitate MYC-Driven Recurrence of Medulloblastoma

Author

Fredrik J. Swartling, Holger Weishaupt, Robert J. Wechsler-Reya, Ulrich Schüller, Steven C. Clifford, Olle Sangfelt, Michael D. Taylor, Xingqi Chen, Géraldine Giraud, Helena Jernberg-Wiklund, Matko Čančer, Marc Remke, Antonia Kalushkova, Adrian M. Dubuc, Rebecca M. Hill, Grammatiki Fotaki, Stacey Richardson, Amelie S. Wenz, Yonglong Dang, Mar Ballester Bravo, Anders Sundström, Jessica M. Rusert, Annemieke D. Verbaan, Damiana Sattanino, Oliver J. Mainwaring, Thale Kristin Olsen, Tobias Bergström, Aldwin Suryo Rahmanto, Alexandra Garancher, Sonja Hutter, Gabriela Rosén, Vasil Savov, Miao Zhao, Sara Bolin, Karl O. Holmberg, and Anna Borgenvik

Abstract

Resource Table

Published

2023

17. Supplementary Data from Dormant SOX9-Positive Cells Facilitate MYC-Driven Recurrence of Medulloblastoma

Author

Fredrik J. Swartling, Holger Weishaupt, Robert J. Wechsler-Reya, Ulrich Schüller, Steven C. Clifford, Olle Sangfelt, Michael D. Taylor, Xingqi Chen, Géraldine Giraud, Helena Jernberg-Wiklund, Matko Čančer, Marc Remke, Antonia Kalushkova, Adrian M. Dubuc, Rebecca M. Hill, Grammatiki Fotaki, Stacey Richardson, Amelie S. Wenz, Yonglong Dang, Mar Ballester Bravo, Anders Sundström, Jessica M. Rusert, Annemieke D. Verbaan, Damiana Sattanino, Oliver J. Mainwaring, Thale Kristin Olsen, Tobias Bergström, Aldwin Suryo Rahmanto, Alexandra Garancher, Sonja Hutter, Gabriela Rosén, Vasil Savov, Miao Zhao, Sara Bolin, Karl O. Holmberg, and Anna Borgenvik

Abstract

Supplementary figure 5

Published

2023

18. Supplementary Figure Legends from Dormant SOX9-Positive Cells Facilitate MYC-Driven Recurrence of Medulloblastoma

Author

Fredrik J. Swartling, Holger Weishaupt, Robert J. Wechsler-Reya, Ulrich Schüller, Steven C. Clifford, Olle Sangfelt, Michael D. Taylor, Xingqi Chen, Géraldine Giraud, Helena Jernberg-Wiklund, Matko Čančer, Marc Remke, Antonia Kalushkova, Adrian M. Dubuc, Rebecca M. Hill, Grammatiki Fotaki, Stacey Richardson, Amelie S. Wenz, Yonglong Dang, Mar Ballester Bravo, Anders Sundström, Jessica M. Rusert, Annemieke D. Verbaan, Damiana Sattanino, Oliver J. Mainwaring, Thale Kristin Olsen, Tobias Bergström, Aldwin Suryo Rahmanto, Alexandra Garancher, Sonja Hutter, Gabriela Rosén, Vasil Savov, Miao Zhao, Sara Bolin, Karl O. Holmberg, and Anna Borgenvik

Abstract

Supplementary Figure Legends

Published

2023

19. Data from Dormant SOX9-Positive Cells Facilitate MYC-Driven Recurrence of Medulloblastoma

Author

Fredrik J. Swartling, Holger Weishaupt, Robert J. Wechsler-Reya, Ulrich Schüller, Steven C. Clifford, Olle Sangfelt, Michael D. Taylor, Xingqi Chen, Géraldine Giraud, Helena Jernberg-Wiklund, Matko Čančer, Marc Remke, Antonia Kalushkova, Adrian M. Dubuc, Rebecca M. Hill, Grammatiki Fotaki, Stacey Richardson, Amelie S. Wenz, Yonglong Dang, Mar Ballester Bravo, Anders Sundström, Jessica M. Rusert, Annemieke D. Verbaan, Damiana Sattanino, Oliver J. Mainwaring, Thale Kristin Olsen, Tobias Bergström, Aldwin Suryo Rahmanto, Alexandra Garancher, Sonja Hutter, Gabriela Rosén, Vasil Savov, Miao Zhao, Sara Bolin, Karl O. Holmberg, and Anna Borgenvik

Abstract

Relapse is the leading cause of death in patients with medulloblastoma, the most common malignant pediatric brain tumor. A better understanding of the mechanisms underlying recurrence could lead to more effective therapies for targeting tumor relapses. Here, we observed that SOX9, a transcription factor and stem cell/glial fate marker, is limited to rare, quiescent cells in high-risk medulloblastoma with MYC amplification. In paired primary-recurrent patient samples, SOX9-positive cells accumulated in medulloblastoma relapses. SOX9 expression anti-correlated with MYC expression in murine and human medulloblastoma cells. However, SOX9-positive cells were plastic and could give rise to a MYC high state. To follow relapse at the single-cell level, an inducible dual Tet model of medulloblastoma was developed, in which MYC expression was redirected in vivo from treatment-sensitive bulk cells to dormant SOX9-positive cells using doxycycline treatment. SOX9 was essential for relapse initiation and depended on suppression of MYC activity to promote therapy resistance, epithelial–mesenchymal transition, and immune escape. p53 and DNA repair pathways were downregulated in recurrent tumors, whereas MGMT was upregulated. Recurrent tumor cells were found to be sensitive to treatment with an MGMT inhibitor and doxorubicin. These findings suggest that recurrence-specific targeting coupled with DNA repair inhibition comprises a potential therapeutic strategy in patients affected by medulloblastoma relapse.Significance:SOX9 facilitates therapy escape and recurrence in medulloblastoma via temporal inhibition of MYC/MYCN genes, revealing a strategy to specifically target SOX9-positive cells to prevent tumor relapse.

Published

2023

20. ATAC-See: A Tn5 Transposase-Mediated Assay for Detection of Chromatin Accessibility with Imaging

Author

Yonglong Dang, Ram Prakash Yadav, and Xingqi Chen

Published

2023

21. Engineering the morphology/porosity of oxygen-doped carbon for sulfur host as lithium-sulfur batteries

Author

Wei Sun, Feng Jiang, Wenqing Zhao, Peng Ge, Shaohui Yuan, Xingqi Chen, Yue Yang, Xiaobo Ji, and Limin Zhang

Subjects

Battery (electricity), Materials science, Kinetics, Energy Engineering and Power Technology, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Sulfur, 0104 chemical sciences, chemistry.chemical_compound, Fuel Technology, Adsorption, chemistry, Chemical engineering, Electrochemistry, 0210 nano-technology, Porosity, Mesoporous material, Carbon, Polysulfide, Energy (miscellaneous)

Abstract

Despite the intriguing merits of lithium-sulfur (Li-S) systems, they still suffer from the notorious “shuttling-effect” of polysulfides. Herein, carbon materials with rational tailoring of morphology and pores were designed for strong loading/adsorption with the controlling of energy-storage ability. Through rational tailoring, it is strongly verified that such engineering of evolutions result in variational of sulfur immobilization in the obtained carbon. As expected, the targeted sample delivers a stable capacity of 925 mAh g−1 after 100 loops. Supporting by the “cutting-off” manners, it is disclosed that mesopores in carbon possess more fascinated traits than micro/macropores in improving the utilization of sulfur and restraining Li2Sx (4 ≤ x ≤ 8). Moreover, the long-chain polysulfide could be further consolidated by auto-doping oxygen groups. Supported by in-depth kinetic analysis, it is confirmed that the kinetics of ion/e- transfer during charging and discharging could be accelerated by mesopores, especially in stages of the formation of solid S8 and Li2S, further improving the capacity of ion-storage in Li-S battery. Given this, the elaborate study provide significant insights into the effect of pore structure on kinetic performance about Li-storage behaviors in Li-S battery, and give guidance for improving sulfur immobilization.

Published

2021

22. Super-enhancers conserved within placental mammals maintain stem cell pluripotency

Author

Juqing Zhang, Yaqi Zhou, Wei Yue, Zhenshuo Zhu, Xiaolong Wu, Shuai Yu, Qiaoyan Shen, Qin Pan, Wenjing Xu, Rui Zhang, Xiaojie Wu, Xinmei Li, Yayu Li, Yunxiang Li, Yu Wang, Sha Peng, Shiqiang Zhang, Anmin Lei, Xinbao Ding, Fan Yang, Xingqi Chen, Na Li, Mingzhi Liao, Wei Wang, and Jinlian Hua

Subjects

Pluripotent Stem Cells, Multidisciplinary, Eutheria, Swine, Placenta, Cell- och molekylärbiologi, Biochemistry and Molecular Biology, Nuclear Proteins, pigs, Cell Cycle Proteins, pluripotency, Mice, Enhancer Elements, Genetic, Pregnancy, super-enhancer, evolution, Animals, Humans, BRD4, Female, Cell and Molecular Biology, Biokemi och molekylärbiologi, Transcription Factors

Abstract

Despite pluripotent stem cells sharing key transcription factors, their maintenance involves distinct genetic inputs. Emerging evidence suggests that super-enhancers (SEs) can function as master regulatory hubs to control cell identity and pluripotency in humans and mice. However, whether pluripotency-associated SEs share an evolutionary origin in mammals remains elusive. Here, we performed comprehensive comparative epigenomic and transcription factor binding analyses among pigs, humans, and mice to identify pluripotency-associated SEs. Like typical enhancers, SEs displayed rapid evolution in mammals. We showed that BRD4 is an essential and conserved activator for mammalian pluripotency-associated SEs. Comparative motif enrichment analysis revealed 30 shared transcription factor binding motifs among the three species. The majority of transcriptional factors that bind to identified motifs are known regulators associated with pluripotency. Further, we discovered three pluripotency-associated SEs (SE-SOX2, SE-PIM1, and SE-FGFR1) that displayed remarkable conservation in placental mammals and were sufficient to drive reporter gene expression in a pluripotency-dependent manner. Disruption of these conserved SEs through the CRISPR-Cas9 approach severely impaired stem cell pluripotency. Our study provides insights into the understanding of conserved regulatory mechanisms underlying the maintenance of pluripotency as well as species-specific modulation of the pluripotency-associated regulatory networks in mammals.

Published

2022

23. FFPE-ATAC: A Highly Sensitive Method for Profiling Chromatin Accessibility in Formalin-Fixed Paraffin-Embedded Samples

Author

Ram Prakash Yadav, Vamsi Krishna Polavarapu, Pengwei Xing, and Xingqi Chen

Subjects

Medical Laboratory Technology, Paraffin Embedding, General Immunology and Microbiology, General Neuroscience, Formaldehyde, Health Informatics, DNA, Sequence Analysis, DNA, General Pharmacology, Toxicology and Pharmaceutics, General Biochemistry, Genetics and Molecular Biology, Chromatin

Abstract

In basic and translational cancer research, the majority of biopsies are stored in formalin-fixed paraffin-embedded (FFPE) samples. Chromatin accessibility reflects the degree to which nuclear macromolecules can physically interact with chromatinized DNA and plays a key role in gene regulation in different physiological conditions. As such, the profiling of chromatin accessibility in archived FFPE tissue can be critical to understanding gene regulation in health and disease. Due to the high degree of DNA damage in FFPE samples, accurate mapping of chromatin accessibility in these specimens is extremely difficult. To address this issue, we recently established FFPE-ATAC, a highly sensitive method based on T7-Tn5-mediated transposition followed by in vitro transcription (IVT), to generate high-quality chromatin accessibility profiles with 500-50,000 nuclei from a single FFPE tissue section. In FFPE-ATAC, which we describe here, the T7-Tn5 adaptors are inserted into the genome after FFPE sample preparation and are unlikely to sustain the DNA breakage that occurs during reverse cross-linking of these samples. It should, therefore, remain at the ends of broken accessible chromatin sites after reverse cross-linking. IVT is then used to convert the two ends of the broken DNA fragments to RNA molecules before making sequencing libraries from the IVT RNAs and further decoding Tn5 adaptor insertion sites in the genome. Through this strategy, users can decode the flanking sequences of the accessible chromatin even if there are breaks between adjacent pairs of T7-T5 adaptor insertion sites. This method is applicable to dissecting chromatin profiles of a small section of the tissue sample, characterizing stage and region-specific gene regulation and disease-associated chromatin regulation in FFPE tissues. © 2022 The Authors. Current Protocols published by Wiley Periodicals LLC. Basic Protocol 1: Nuclei isolation from FFPE tissue samples Basic Protocol 2: T7-Tn5 transposase tagmentation, reverse-crosslinking, and in vitro transcription Basic Protocol 3: Preparation of libraries for high-throughput sequencing.

Published

2022

24. Effect of microplastic aging degree on filter cake formation and membrane fouling characteristics in ultrafiltration process with pre-coagulation

Author

Weipeng He, Xingqi Chen, Changwei Xu, Chen Zhou, and Jiacheng Luo

Subjects

Filtration and Separation, Analytical Chemistry

Published

2023

25. Deeply conserved super-enhancers maintain stem cell pluripotency in placental mammals

Author

Juqing Zhang, Yaqi Zhou, Wei Yue, Zhenshuo Zhu, Xiaolong Wu, Shuai Yu, Qiaoyan Shen, Qin Pan, Wenjing Xu, Rui Zhang, Xiaojie Wu, Xinmei Li, Yayu Li, Yunxiang Li, Yu Wang, Sha Peng, Shiqiang Zhang, Anmin Lei, Xinbao Ding, Fan Yang, Xingqi Chen, Na Li, Mingzhi Liao, Wei Wang, and Jinlian Hua

Abstract

Despite pluripotent stem cells sharing key transcription factors, their maintenance involves distinct genetic inputs. Emerging evidence suggests that super-enhancers (SEs) can function as master regulatory hubs to control cell identity and pluripotency in humans and mice. However, whether pluripotency-associated SEs share a deep evolutionary origin in mammals remains elusive. Here, we performed comprehensive comparative epigenomic and transcription factor binding analyses among pigs, humans, and mice to identify pluripotency-associated SEs. Like typical enhancers, SEs displayed rapid evolution in mammals. We showed that BRD4 is an essential and conserved activator for mammalian pluripotency-associated SEs. Comparative motif enrichment analysis revealed 30 shared transcription factor binding motifs among the three species. The majority of the transcriptional factors that bind to identified motifs are known regulators associated with pluripotency. Further, we discovered three pluripotency-associated SEs (SE-SOX2, SE-PIM1, and SE-FGFR1) which displayed deep conservation in placental mammals and are sufficient to drive reporter gene expression in a pluripotency-dependent manner. Disruption of these conserved SEs through the CRISPR/Cas9 approach severely impaired the proliferative potential and the ability to form undifferentiated colonies. Our study provides insights into the understanding of conserved regulatory mechanisms underlying the maintenance of pluripotency as well as species-specific modulation of the pluripotency-associated regulatory networks in mammals.Significance statementSuper-enhancers (SEs) hold stronger power than regular enhancers to direct gene expression in the regulation of stem cell pluripotency. To dissect how pluripotency-associated SEs have evolved in mammals, we performed a systematic comparison of SEs among pigs, humans, and mice. Our analysis allowed the identification of three pluripotency-associated SEs (SE-SOX2, SE-PIM1, and SE-FGFR1) that are highly conserved in Placentalia (accounting for 94% of mammals) as well as many species-specific SEs. All three SEs were sufficient to direct pluripotency-dependent gene expression and disruption of each conserved SE caused the loss of stem cell pluripotency. Our work highlights a small number of highly conserved SEs essential for the maintenance of pluripotency.

Published

2022

26. Alkaline aging significantly affects Mn(II) adsorption capacity of polypropylene microplastics in water environments: Critical roles of natural organic matter and colloidal particles

Author

Weipeng He, Sa Zheng, Xingqi Chen, Danjing Lu, and Zihe Zeng

Subjects

Manganese, Environmental Engineering, Health, Toxicology and Mutagenesis, Microplastics, Water, Polypropylenes, Pollution, Environmental Chemistry, Adsorption, Kaolin, Waste Management and Disposal, Plastics, Humic Substances, Water Pollutants, Chemical

Abstract

Most microplastic particles may undergo various aging in water environments. In this work, surface physicochemical properties were firstly compared among pristine polypropylene (PP-pris) microplastics, and two aged ones obtained after pretreated with HCl (PP-acid) and NaOH (PP-alka). When compared with PP-pris and PP-acid, PP-alka had a much stronger Mn(II) adsorption capacity. The results regarding the role of natural organic matter and colloidal particle concentrations on adsorption demonstrated that for water solutions either containing kaolin or not, humic acid (HA) had significantly negative influence on Mn(II) adsorption capacity of PP-alka due to their complexation and competition effects, and its negative influence became enhanced with increasing kaolin concentrations. Besides, established conceptual models of adsorption were applied to comprehensively explore adsorption mechanisms of PP-alka for Mn(II) in the coexistence of HA and kaolin. An important suggestion was that in complicated adsorption-reactor system, great numbers of microplastics-kaolin heteroaggregates might be formed via ion bridging of Mn(II) and/or polymer bridging of HA. So these formed aggregates were possible to re-organize themselves, under pre-set vibration-speed conditions, for achieving a more stable structure. As a consequence, Mn(II) adsorption behaviors would be affected by changes in steric-hindrance effects of HA molecules and surface charge distribution of resultant heteroaggregates.

Published

2022

27. Designing interfacial chemical bonds towards advanced metal-based energy-storage/conversion materials

Author

Wei Sun, Peng Ge, Xiaobo Ji, Sijie Li, Xingqi Chen, Li Yang, Limin Zhang, Shaohui Yuan, and Wenqing Zhao

Subjects

Battery (electricity), Materials science, Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, Electrocatalyst, 01 natural sciences, Energy storage, 0104 chemical sciences, Chemical bond, Chemical engineering, chemistry, Advanced composite materials, Photocatalysis, General Materials Science, 0210 nano-technology, Carbon

Abstract

Interfacial chemical bonds have captured surging attentions as the effective improving manners for electrochemical ions-storage and energy-conversion systems, including alkali-ions batteries, photocatalysis (PC), electrocatalysis (EC) and photo-electrocatalysis (PEC). Compared to the traditional modified manners for carbon-metal composites, introducing bonds would render the great evolution of their electrochemical properties, mainly resulting from the increased active sites, quick electrons transfer and so on. In this review, the recent process of bonds was detailed summarized in relative areas. Meanwhile, the bonds could be divided into M − C and M-X-C (M presents metal elements; C is about carbon materials; X = O, S, N etc.), and their relative physical-chemical traits with validation means have been concluded. Moreover, despite the merits above, for battery systems, the bonds were deemed as the roles of enhancing structural stability and interfacial ions-storage capability. Alternatively, for PC and PEC systems, chemical bonds could speed up the interfacial charge transfer and hinder the recombination of photo-generated electrons and holes, whilst for EC system, they would serve as highly active electrocatalytic center, providing more stable interfacial structure. Finally, the review was anticipated to offer systematic and in-depth comprehension for interfacial bonds, whilst guiding the further exploring of the interface about advanced composites.

Published

2020

28. 3D ATAC-PALM: super-resolution imaging of the accessible genome

Author

Wesley R. Legant, Liangqi Xie, Anton Schulmann, Howard Y. Chang, Anders S. Hansen, Robert Tjian, Yifeng Qi, Eric Betzig, Seol Kyoung Jung, Margherita De Marzio, Xingqi Chen, Bin Zhang, Zhe Liu, Rafael Casellas, Luke D. Lavis, Peng Dong, Kyong-Rim Kieffer-Kwon, Sambashiva Banala, Tsung-Han S. Hsieh, and Brian P. English

Subjects

In situ, Sequence analysis, Accessible chromatin, Computational biology, Biology, PALM, Genome organization, Biochemistry, Genome, Article, Chromosome Painting, 03 medical and health sciences, Microscopy, Image Processing, Computer-Assisted, Humans, Molecular Biology, Gene, In Situ Hybridization, Fluorescence, DNA-FISH and RNA-FISH, 030304 developmental biology, 0303 health sciences, Genome, Human, High-Throughput Nucleotide Sequencing, DNA, Genomics, Sequence Analysis, DNA, Cell Biology, Superresolution, ATAC, Chromatin, Oligopaint, CTCF, Biotechnology

Abstract

To image the accessible genome at nanometer scale in situ, we developed three-dimensional assay for transposase-accessible chromatin-photoactivated localization microscopy (3D ATAC-PALM) that integrates an assay for transposase-accessible chromatin with visualization, PALM super-resolution imaging and lattice light-sheet microscopy. Multiplexed with oligopaint DNA-fluorescence in situ hybridization (FISH), RNA-FISH and protein fluorescence, 3D ATAC-PALM connected microscopy and genomic data, revealing spatially segregated accessible chromatin domains (ACDs) that enclose active chromatin and transcribed genes. Using these methods to analyze genetically perturbed cells, we demonstrated that genome architectural protein CTCF prevents excessive clustering of accessible chromatin and decompacts ACDs. These results highlight 3D ATAC-PALM as a useful tool to probe the structure and organizing mechanism of the genome.

Published

2020

29. Understanding heterogeneity and tumor relapse in glioblastoma: a comparative analysis of patient-derived cell cultures and tumor tissue of the tumor core and invasive edge

Author

Nagaprahyusha Maturi, Irem Yildirim, Ines Neves, Yonglong Dang, Francesco Latini, Tobias Bergstrom, Malin Jarvius, Rolf Larsson, Marten Fryknas, Mats Ryttlefors, Xingqi Chen, Fredrik Swartling, and Lene Uhrbom

Published

2022

30. Combination of Ultrafiltration with Pre-Coagulation for Removing Chemically-Aged Polypropylene Microplastics from Simulated Surface Water: Critical Effect of Aging Degree on Cake Layer Formation and Membrane Fouling

Author

Xingqi Chen, Weipeng He, Chen Zhou, and Jiacheng Luo

Published

2022

31. Single-Cell Analysis Reveals Major Histocompatibility Complex II‒Expressing Keratinocytes in Pressure Ulcers with Worse Healing Outcomes

Author

Eva K. Herter, Liv Eidsmo, L. Zhang, Kim Pham, Qiaolin Deng, Zhuang Liu, Pehr Sommar, Yuen Ting Cheung, Shangli Cheng, Ning Xu Landén, Jaanika Kärner, Xingqi Chen, Yu Pei, Maria A. Toma, and Dongqing Li

Subjects

Keratinocytes, Chronic wound, Dermatology, Major histocompatibility complex, Biochemistry, Proinflammatory cytokine, Major Histocompatibility Complex, Transcriptome, Single-cell analysis, Keratin, Humans, Medicine, Dermatologi och venereologi, Molecular Biology, Aged, Pressure Ulcer, chemistry.chemical_classification, Wound Healing, integumentary system, biology, business.industry, Cell Biology, Pathophysiology, Dermatology and Venereal Diseases, medicine.anatomical_structure, chemistry, Immunology, biology.protein, Single-Cell Analysis, medicine.symptom, business, Keratinocyte

Abstract

Pressure ulcer (PU) is a chronic wound often seen in patients with spinal cord injury and other bed-bound individuals, particularly in the elderly population. Despite its association with high mortality, the pathophysiology of PU remains poorly understood. In this study, we compared single-cell transcriptomic profiles of human epidermal cells from PU wound edges with those from uninjured skin and acute wounds in healthy donors. We identified significant shifts in the cell composition and gene expression patterns in PU. In particular, we found that major histocompatibility complex class II‒expressing keratinocytes were enriched in patients with worse healing outcomes. Furthermore, we showed that the IFN-γ in PU-derived wound fluid could induce major histocompatibility complex II expression in keratinocytes and that these wound fluid‒treated keratinocytes inhibited autologous T-cell activation. In line with this observation, we found that T cells from PUs enriched with major histocompatibility complex II+ keratinocytes produced fewer inflammatory cytokines. Overall, our study provides a high-resolution molecular map of human PU compared with that of acute wounds and intact skin, providing insights into PU pathology and the future development of tailored wound therapy.

Published

2022

32. Epigenomic priming of immune genes implicates oligodendroglia in multiple sclerosis susceptibility

Author

Mandy Meijer, Eneritz Agirre, Mukund Kabbe, Cassandra A. van Tuijn, Abeer Heskol, Chao Zheng, Ana Mendanha Falcão, Marek Bartosovic, Leslie Kirby, Daniela Calini, Michael R. Johnson, M. Ryan Corces, Thomas J. Montine, Xingqi Chen, Howard Y. Chang, Dheeraj Malhotra, Gonçalo Castelo-Branco, and Medical Research Council (MRC)

Subjects

Epigenomics, Multiple Sclerosis, 1702 Cognitive Sciences, neuroimmunology, CHROMATIN ARCHITECTURE, MOUSE, MECHANISMS, Interferon-gamma, Mice, single-nucleotide polymorphisms, Animals, CELL, Myelin Sheath, Science & Technology, Neurology & Neurosurgery, histone modifications, General Neuroscience, Neurosciences, Cell Differentiation, major histocompatibility complex, Chromatin, Polycomb, TRANSCRIPTION FACTORS, myelin, Oligodendroglia, 1701 Psychology, DIFFERENTIAL EXPRESSION ANALYSIS, genome-wide association studies, VISUALIZATION, Neurosciences & Neurology, ENRICHMENT, 1109 Neurosciences, Life Sciences & Biomedicine, oligodendrocyte, Neurovetenskaper, RESPONSES

Abstract

Multiple sclerosis (MS) is characterized by a targeted attack on oligodendroglia (OLG) and myelin by immune cells, which are thought to be the main drivers of MS susceptibility. We found that immune genes exhibit a primed chromatin state in single mouse and human OLG in a non-disease context, compatible with transitions to immune-competent states in MS. We identified BACH1 and STAT1 as transcription factors involved in immune gene regulation in oligodendrocyte precursor cells (OPCs). A subset of immune genes presents bivalency of H3K4me3/H3K27me3 in OPCs, with Polycomb inhibition leading to their increased activation upon interferon gamma (IFN-g) treatment. Some MS susceptibility single-nucleotide polymorphisms (SNPs) overlap with these regulatory regions in mouse and human OLG. Treatment of mouse OPCs with IFN-g leads to chromatin architecture remodeling at these loci and altered expression of interacting genes. Thus, the susceptibility for MS may involve OLG, which therefore constitutes novel targets for immunological based therapies for MS.

Published

2022

33. Dormant SOX9-Positive Cells Facilitate MYC-Driven Recurrence of Medulloblastoma

Author

Anna, Borgenvik, Karl O, Holmberg, Sara, Bolin, Miao, Zhao, Vasil, Savov, Gabriela, Rosén, Sonja, Hutter, Alexandra, Garancher, Aldwin, Suryo Rahmanto, Tobias, Bergström, Thale Kristin, Olsen, Oliver J, Mainwaring, Damiana, Sattanino, Annemieke D, Verbaan, Jessica M, Rusert, Anders, Sundstrom, Mar, Ballester Bravo, Yonglong, Dang, Amelie S, Wenz, Stacey, Richardson, Grammatiki, Fotaki, Rebecca M, Hill, Adrian M, Dubuc, Antonia, Kalushkova, Marc, Remke, Matko, Cancer, Helena, Jernberg-Wiklund, Géraldine, Giraud, Xingqi, Chen, Michael D, Taylor, Olle, Sangfelt, Steven C, Clifford, Ulrich, Schuller, Robert J, Wechsler-Reya, Holger, Weishaupt, and Fredrik J, Swartling

Subjects

Cancer och onkologi, Cancer and Oncology

Abstract

Relapse is the leading cause of death in patients with medulloblas-toma, the most common malignant pediatric brain tumor. A better understanding of the mechanisms underlying recurrence could lead to more effective therapies for targeting tumor relapses. Here, we observed that SOX9, a transcription factor and stem cell/glial fate marker, is limited to rare, quiescent cells in high-risk medulloblastoma with MYC amplification. In paired primary-recurrent patient samples, SOX9-positive cells accumulated in medulloblastoma relapses. SOX9 expression anti-correlated with MYC expression in murine and human medulloblastoma cells. However, SOX9-positive cells were plastic and could give rise to a MYC high state. To follow relapse at the single-cell level, an inducible dual Tet model of medulloblastoma was developed, in which MYC expression was redirected in vivo from treatment-sensitive bulk cells to dormant SOX9-positive cells using doxycycline treatment. SOX9 was essential for relapse initiation and depended on suppression of MYC activity to promote therapy resistance, epithelial-mesenchymal transition, and immune escape. p53 and DNA repair pathways were downregulated in recurrent tumors, whereas MGMT was upregulated. Recurrent tumor cells were found to be sensitive to treatment with an MGMT inhibitor and doxorubicin. These findings suggest that recurrence-specific targeting coupled with DNA repair inhibition comprises a potential therapeutic strategy in patients affected by medulloblastoma relapse.Significance: SOX9 facilitates therapy escape and recurrence in medulloblastoma via temporal inhibition of MYC/MYCN genes, revealing a strategy to specifically target SOX9-positive cells to prevent tumor relapse.

Published

2022

34. Internal interaction between chemically-pretreated polypropylene microplastics and floc growth during flocculation: Critical effect on floc properties and flocculation mechanisms

Author

Weipeng He, Xingqi Chen, Changwei Xu, Chen Zhou, and Cunpei Wang

Subjects

Filtration and Separation, Analytical Chemistry

Published

2023

35. A Highly Sensitive Method to Efficiently Profile the Histone Modifications of FFPE Samples

Author

Linxuan Zhao, Vamsi Polavarapu, Ram Yadav, Pengwei Xing, and Xingqi Chen

Subjects

Strategy and Management, Mechanical Engineering, Metals and Alloys, Methods Article, Industrial and Manufacturing Engineering

Abstract

The majority of biopsies in both basic research and translational cancer studies are preserved in the format of archived formalin-fixed paraffin-embedded (FFPE) samples. Profiling histone modifications in archived FFPE tissues is critically important to understand gene regulation in human disease. The required input for current genome-wide histone modification profiling studies from FFPE samples is either 10–20 tissue sections or whole tissue blocks, which prevents better resolved analyses. Nevertheless, it is desirable to consume a minimal amount of FFPE tissue sections in the analysis as clinical tissue of interest are limited. Here, we present F FPE tissue with a ntibody-guided c hromatin t agmentation with sequencing (FACT-seq), highly sensitive method to efficiently profile histone modifications in FFPE tissue by combining a novel fusion protein of hyperactive Tn5 transposase and protein A (T7-pA-Tn5) transposition and T7 in vitro transcription. FACT-seq generates high-quality chromatin profiles from different histone modifications with low number of FFPE nuclei. We showed a very small piece of FFPE tissue section containing ~4000 nuclei is sufficient to decode H3K27ac modifications with FACT-seq. In archived FFPE human colorectal and human glioblastoma cancer tissue, H3K27ac FACT-seq revealed disease specific super enhancers. In summary, FACT-seq allows researchers to decode histone modifications like H3K27ac and H3K27me3 in archival FFPE tissues with high sensitivity, thus allowing us to understand epigenetic regulation. Graphical abstract: ( i ) FFPE tissue section; ( ii ) Isolated nuclei; ( iii ) Primary antibody, secondary antibody and T7-pA-Tn5 bind to targets; ( iv ) DNA purification; ( v ) In vitro transcription and sequencing library preparation; ( vi ) Sequencing

Published

2021

36. The Thioesterase

Author

Marco, Cavalli, Klev, Diamanti, Yonglong, Dang, Pengwei, Xing, Gang, Pan, Xingqi, Chen, and Claes, Wadelius

Subjects

Diabetes Mellitus, Type 2, Liver, Chromatin Immunoprecipitation Sequencing, Humans, T2D, Thiolester Hydrolases, ATAC-seq, Lipid Metabolism, Chromatin, Research Articles, regulatory element

Abstract

Type 2 diabetes (T2D) is characterized by pathophysiological alterations in lipid metabolism. One strategy to understand the molecular mechanisms behind these abnormalities is to identify cis-regulatory elements (CREs) located in chromatin-accessible regions of the genome that regulate key genes. In this study we integrated assay for transposase-accessible chromatin followed by sequencing (ATAC-seq) data, widely used to decode chromatin accessibility, with multi-omics data and publicly available CRE databases to identify candidate CREs associated with T2D for further experimental validations. We performed high-sensitive ATAC-seq in nine human liver samples from normal and T2D donors, and identified a set of differentially accessible regions (DARs). We identified seven DARs including a candidate enhancer for the ACOT1 gene that regulates the balance of acyl-CoA and free fatty acids (FFAs) in the cytoplasm. The relevance of ACOT1 regulation in T2D was supported by the analysis of transcriptomics and proteomics data in liver tissue. Long-chain acyl-CoA thioesterases (ACOTs) are a group of enzymes that hydrolyze acyl-CoA esters to FFAs and coenzyme A. ACOTs have been associated with regulation of triglyceride levels, fatty acid oxidation, mitochondrial function, and insulin signaling, linking their regulation to the pathogenesis of T2D. Our strategy integrating chromatin accessibility with DNA binding and other types of omics provides novel insights on the role of genetic regulation in T2D and is extendable to other complex multifactorial diseases.

Published

2021

37. FACT-seq: profiling histone modifications in formalin-fixed paraffin-embedded samples with low cell numbers

Author

Linxuan, Zhao, Pengwei, Xing, Vamsi Krishna, Polavarapu, Miao, Zhao, Blanca, Valero-Martínez, Yonglong, Dang, Nagaprathyusha, Maturi, Lucy, Mathot, Inês, Neves, Irem, Yildirim, Fredrik Johansson, Swartling, Tobias, Sjöblom, Lene, Uhrbom, and Xingqi, Chen

Subjects

Histones, Mice, Narese/3, AcademicSubjects/SCI00010, Animals, Humans, Transposases, Methods Online, Staphylococcal Protein A, Protein Processing, Post-Translational, Chromatin, Cell Line, Epigenesis, Genetic

Abstract

The majority of biopsies in both basic research and translational cancer studies are preserved in the format of archived formalin-fixed paraffin-embedded (FFPE) samples. Profiling histone modifications in archived FFPE tissues is critically important to understand gene regulation in human disease. The required input for current genome-wide histone modification profiling studies from FFPE samples is either 10–20 tissue sections or whole tissue blocks, which prevents better resolved analyses. But it is desirable to consume a minimal amount of FFPE tissue sections in the analysis as clinical tissues of interest are limited. Here, we present FFPE tissue with antibody-guided chromatin tagmentation with sequencing (FACT-seq), the first highly sensitive method to efficiently profile histone modifications in FFPE tissues by combining a novel fusion protein of hyperactive Tn5 transposase and protein A (T7−pA−Tn5) transposition and T7 in vitro transcription. FACT-seq generates high-quality chromatin profiles from different histone modifications with low number of FFPE nuclei. We proved a very small piece of FFPE tissue section containing ∼4000 nuclei is sufficient to decode H3K27ac modifications with FACT-seq. H3K27ac FACT-seq revealed disease-specific super enhancers in the archived FFPE human colorectal and human glioblastoma cancer tissue. In summary, FACT-seq allows decoding the histone modifications in archival FFPE tissues with high sensitivity and help researchers to better understand epigenetic regulation in cancer and human disease.

Published

2021

38. Verification Code Recognition Based On Active Learning And Convolutional Neural Network

Author

Xingqi Chen

Published

2021

39. STEM-08. MODELING AND UNDERSTANDING GLIOBLASTOMA EDGE CELLS

Author

Naga Prathyusha Maturi, Ines Neves, Yonglong Dang, Irem Yildirim, Francesco Latini, Tobias Bergström, Anders Sundström, Pengwei Xing, Malin Jarvius, Rolf Larsson, Mårten Fryknäs, Mats Ryttlefors, Xingqi Chen, Fredrik Swartling, and Lene Uhrbom

Subjects

Cancer Research, Oncology, Neurology (clinical)

Abstract

Glioblastoma is a devastating disease with an overall median survival of 8 months from diagnosis. The majority of patients die of a tumor relapse in close proximity of the resected primary tumor. Glioblastoma is intensely researched but most studies have been performed on tissues and cultures derived from the bulk tumor while it is the remaining edge cells that cause lethality. Investigations of edge cells are rare and few experimental models exist. Here we have established and analyzed a series of matched cell cultures derived from the tumor bulk and outer edge of six IDH wildtype glioblastoma patients with the purpose to understand glioblastoma edge cell biology. Tumor samples were resected guided by 5-ALA fluorescence using neuro-navigation and stringent procedures to not contaminate edge samples with bulk tumor cells. First bulk tumor samples were resected from 5-ALA fluorescent tissue. After removal of all fluorescent areas and careful irrigation of the cavity the edge sample was resected 1-2 cm outside of the fluorescent border in a non-eloquent area. Following dissociation the samples were used in sphere assays and for explantation. There was a significant difference in self-renewal across all patients between matched bulk and edge cultures, in line with results from sphere assays on acute cells, suggesting maintenance of glioblastoma cell properties in established cultures. Invasion analysis showed a reverse significant difference between matched bulk and edge cultures strengthening a general functional distinction between tumor bulk and edge cells across patients. To investigate the molecular basis of our findings we performed whole exome sequencing (WES) and combined single cell RNA- and ATAC-sequencing (10X Multiome). Analyses are ongoing but WES data does not support genetic causes for their differences while the 10X Multiome data indicate that epigenetic regulation may underlie the different properties of bulk and edge glioblastoma cells.

Published

2022

40. Profiling chromatin accessibility in formalin-fixed paraffin-embedded samples

Author

hua Zhang, Lucy Mathot, Vamsi Krishna Polavarapu, Xingqi Chen, Tobias Sjöblom, Miao Zhao, Gabriela Rosén, Pengwei Xing, Linxuan Zhao, and Fredrik J. Swartling

Subjects

Regulation of gene expression, chemistry.chemical_compound, chemistry, Formalin fixed paraffin embedded, DNA damage, Gene expression, H&E stain, Computational biology, Epigenetics, Biology, DNA, Chromatin

Abstract

Archived formalin-fixed paraffin-embedded (FFPE) samples are the global standard format for preservation of the majority of biopsies in both basic research and translational cancer studies, and profiling chromatin accessibility in the archived FFPE tissues is fundamental to understanding gene regulation. Accurate mapping of chromatin accessibility from FFPE specimens is challenging because of the high degree of DNA damage. Here, we first showed that standard ATAC-seq can be applied to purified FFPE nuclei but yields lower library complexity and a smaller proportion of long DNA fragments. We then present FFPE-ATAC, the first highly sensitive method for decoding chromatin accessibility in FFPE tissues that combines Tn5-mediated transposition and T7 in vitro transcription. The FFPE-ATAC generates high-quality chromatin accessibility profiles with 500 nuclei from a single FFPE tissue section, enables the dissection of chromatin profiles from the regions of interest with the aid of hematoxylin and eosin (H&E) staining, and reveals disease-associated chromatin regulation from the human colorectal cancer FFPE tissue archived for more than 10 years. In summary, the approach allows decoding of the chromatin states that regulate gene expression in archival FFPE tissues, thereby permitting investigators, to better understand epigenetic regulation in cancer and precision medicine.

Published

2021

41. Extrachromosomal DNA is associated with chromothripsis events and diverse prognoses in gastric cardia adenocarcinoma

Author

Zhao Xueke, Kan Zhong, Zhou Fuyou, Xu Ruihua, Jing-Feng Hu, Xin Song, Yonglong Dang, Han Wenli, Jichao Ji, Xingqi Chen, Lei Lingling, Linxuan Zhao, Han Xuena, Meng Chaolong, Liping Wang, Yang Miaomiao, Pengwei Xing, Miao Zhao, and Pei Lin Wang

Subjects

Poor prognosis, Chromothripsis, Oncogene, DNA damage, Extrachromosomal DNA, Cancer research, Immunohistochemistry, Biology, Amplicon, skin and connective tissue diseases, Gastric Cardia Adenocarcinoma

Abstract

Extrachromosomal DNA plays an important role in oncogene amplification in tumour cells and poor outcomes across multiple cancers. However, the function of extrachromosomal DNA in gastric cardia adenocarcinoma (GCA) is very limited. Here, we investigated the availability and function of extrachromosomal DNA in GCA from a Chinese cohort of GCA using whole-genome sequencing (WGS), whole-exome sequencing (WES), and immunohistochemistry. For the first time, we identified the ecDNA amplicons present in most GCA patients, and found that some oncogenes are present as ecDNA amplicons in these patients. We found that oncogene ecDNA amplicons in the GCA cohort were associated with the chromothripsis process and may be induced by accumulated DNA damage due to local dietary habits in the geographic region. Strikingly, we observed diverse correlations between the presence of ecDNA oncogene amplicons and prognosis, where ERBB2 ecDNA amplicons correlated with good prognosis, EGFR ecDNA amplicons correlated with poor prognosis, and CCNE1 ecDNA amplicons did not correlate with prognosis. Large-scale ERBB2 immunohistochemistry results from 1668 GCA patients revealed that there was a positive correlation between the presence of ERBB2 and prognosis in 2-7-year survival; however, there was a negative correlation between the presence of ERBB2 and prognosis in 0-2-year survival. Our observations indicate that the presence of ERBB2 ecDNA in GCA patients may represent a good prognosis marker.

Published

2021

42. Circular ecDNA promotes accessible chromatin and high oncogene expression

Author

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

Subjects

0301 basic medicine, General Science & Technology, Circular, Genomics, Extrachromosomal circular DNA, Biology, Electron, Article, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Cell Line, Tumor, Neoplasms, Extrachromosomal DNA, Genetics, Humans, Scanning, Epigenetics, Gene, Cancer, Regulation of gene expression, Microscopy, Neoplastic, Tumor, Multidisciplinary, Human Genome, DNA, Oncogenes, Chromatin, Cell biology, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Gene Expression Regulation, chemistry, 030220 oncology & carcinogenesis, Microscopy, Electron, Scanning, DNA, Circular

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

43. Activation of PDGF pathway links LMNA mutation to dilated cardiomyopathy

Author

Tony Chour, Mohamed Ameen, Howard Y. Chang, June-Wha Rhee, Xingqi Chen, Chi Keung Lam, Michael Snyder, Edward Lau, Timon Seeger, Paul J. Wang, Ioannis Karakikes, Joseph C. Wu, Sebastian Diecke, Isaac Perea Gil, Haodi Wu, Karim Sallam, Jared M. Churko, Vittavat Termglinchan, Ilanit Itzhaki, Jae Cheol Lee, Rinkal Chaudhary, Joe Z. Zhang, Matthew Greenhaw, and Priyanka Garg

Subjects

0301 basic medicine, Multidisciplinary, biology, Nonsense-mediated decay, Cardiomyopathy, PDGFRB, Dilated cardiomyopathy, 030204 cardiovascular system & hematology, medicine.disease, Hedgehog signaling pathway, 3. Good health, LMNA, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, cardiovascular system, biology.protein, medicine, Cancer research, cardiovascular diseases, health care economics and organizations, Lamin, Platelet-derived growth factor receptor

Abstract

Lamin A/C (LMNA) is one of the most frequently mutated genes associated with dilated cardiomyopathy (DCM). DCM related to mutations in LMNA is a common inherited cardiomyopathy that is associated with systolic dysfunction and cardiac arrhythmias. Here we modelled the LMNA-related DCM in vitro using patient-specific induced pluripotent stem cell-derived cardiomyocytes (iPSC-CMs). Electrophysiological studies showed that the mutant iPSC-CMs displayed aberrant calcium homeostasis that led to arrhythmias at the single-cell level. Mechanistically, we show that the platelet-derived growth factor (PDGF) signalling pathway is activated in mutant iPSC-CMs compared to isogenic control iPSC-CMs. Conversely, pharmacological and molecular inhibition of the PDGF signalling pathway ameliorated the arrhythmic phenotypes of mutant iPSC-CMs in vitro. Taken together, our findings suggest that the activation of the PDGF pathway contributes to the pathogenesis of LMNA-related DCM and point to PDGF receptor-β (PDGFRB) as a potential therapeutic target.

Published

2019

44. Histone demethylase complexes KDM3A and KDM3B cooperate with OCT4/SOX2 to define a pluripotency gene regulatory network

Author

Xiaolong Wu, Yiliang Miao, Qun Li, Anmin Lei, Xingqi Chen, Wenxu Zhao, Qin Pan, Juqing Zhang, Dezhe Qin, Zhonghua Liu, Na Li, Jinlian Hua, Qiaoyan Shen, Wei Yue, Shuai Yu, Huayan Wang, Ying Zhang, Mingzhi Liao, Shiqiang Zhang, Zhenshuo Zhu, Zhe Zhou, Sha Peng, and Rui Zhang

Subjects

0301 basic medicine, Jumonji Domain-Containing Histone Demethylases, Swine, Induced Pluripotent Stem Cells, Gene regulatory network, Biochemistry, Epigenesis, Genetic, 03 medical and health sciences, 0302 clinical medicine, SOX2, Genetics, Animals, Gene Regulatory Networks, Epigenetics, Induced pluripotent stem cell, Molecular Biology, Gene, Demethylation, biology, SOXB1 Transcription Factors, Gene Expression Regulation, Developmental, DNA Methylation, Cell biology, 030104 developmental biology, Histone, biology.protein, Demethylase, Octamer Transcription Factor-3, 030217 neurology & neurosurgery, Biotechnology

Abstract

The pluripotency gene regulatory network of porcine induced pluripotent stem cells(piPSCs), especially in epigenetics, remains elusive. To determine the biological function of epigenetics, we cultured piPSCs in different culture conditions. We found that activation of pluripotent gene- and pluripotency-related pathways requires the erasure of H3K9 methylation modification which was further influenced by mouse embryonic fibroblast (MEF) served feeder. By dissecting the dynamic change of H3K9 methylation during loss of pluripotency, we demonstrated that the H3K9 demethylases KDM3A and KDM3B regulated global H3K9me2/me3 level and that their co-depletion led to the collapse of the pluripotency gene regulatory network. Immunoprecipitation-mass spectrometry (IP-MS) provided evidence that KDM3A and KDM3B formed a complex to perform H3K9 demethylation. The genome-wide regulation analysis revealed that OCT4 (O) and SOX2 (S), the core pluripotency transcriptional activators, maintained the pluripotent state of piPSCs depending on the H3K9 hypomethylation. Further investigation revealed that O/S cooperating with histone demethylase complex containing KDM3A and KDM3B promoted pluripotency genes expression to maintain the pluripotent state of piPSCs. Together, these data offer a unique insight into the epigenetic pluripotency network of piPSCs.

Published

2021

45. TMOD-25. LATENT SOX9-POSITIVE CELLS BEHIND MYC-DRIVEN MEDULLOBLASTOMA RELAPSE

Author

Fredrik J. Swartling, Helena Jernberg-Wiklund, Stacey Richardson, Annemieke D Verbaan, Robert J. Wechsler-Reya, Anna Borgenvik, Damiana Sattanino, Michael D. Taylor, Oliver Mainwaring, Sonja Hutter, Ulrich Schüller, Anders Sundström, Tobias Bergström, Marc Remke, Miao Zhao, Gabriela Rosén, Grammatiki Fotaki, Alexandra Garancher, Jessica M. Rusert, Amelie Wenz, Adrian M. Dubuc, Yonglong Dang, Rebecca M Hill, Sara Bolin, Antonia Kalushkova, Holger Weishaupt, Karl O. Holmberg, Xingqi Chen, Aldwin Suryo Rahmanto, Olle Sangfelt, Vasil Savov, Steven C. Clifford, Géraldine Giraud, and Matko Čančer

Subjects

Medulloblastoma, Cancer Research, Oncology, business.industry, medicine, Cancer research, Neurology (clinical), SOX9, 26th Annual Meeting & Education Day of the Society for Neuro-Oncology, medicine.disease, business

Abstract

Tumor recurrence developing from therapy resistance, immune escape and metastasis is the leading cause of death in medulloblastoma, the most frequent malignant pediatric brain tumor. Amplification of MYC genes is the most common genetic alteration in Group 3 and Group 4 subgroups that constitute two thirds of medulloblastoma. SOX9 is a transcription factor present in stem cells in the normal brain but is limited to rare, quiescent cells in medulloblastoma patients with MYC gene amplifications. By studying paired primary-recurrent patient samples and patient-derived xenografts we here identified significant accumulation of SOX9-positive cells in Group 3 and Group 4 relapses. To follow relapse at the single cell level we developed an inducible dual Tet model of MYC-driven MB, where MYC was re-directed from the treatment-sensitive bulk cells to resistant, dormant SOX9-positive cells by doxycycline. In this model, distant recurrent tumors and spinal metastases developed. SOX9 promoted immune escape, DNA repair suppression and was essential for recurrence. Tumor cell dormancy was non-hierarchical, migratory and depended on MYC suppression by SOX9 to promote relapse. By using computational modeling and treatment we also showed how doxorubicin and MGMT inhibitors were specifically targeting recurrent cells that could be of potential use in future treatments for patients affected by these fatal relapses.

Published

2021

46. Conserved cell-lineage controlled epigenetic regulation in human and mouse glioblastoma stem cells determines functionally distinct subgroups

Author

E-Jean Tan, Xingqi Chen, Yuan Xie, Pengwei Xing, Lene Uhrbom, Xi Lu, Mårten Fryknäs, Malin Jarvius, Naga Prathyusha Maturi, and Linxuan Zhao

Subjects

Transcriptome, endocrine system, Cell of origin, fungi, Epigenetics, Epigenome, Stem cell, Biology, Transcription factor, Function (biology), Chromatin, Cell biology

Abstract

There is ample support for developmental regulation of glioblastoma stem cells (GSCs). To examine how cell lineage controls GSC function we have performed a cross-species epigenome analysis of mouse and human GSC cultures. We have analyzed and compared the chromatin-accessibility landscape of nine mouse GSC cultures of defined cell of origin and 60 patient-derived GSC cultures by assay for transposase-accessible chromatin using sequencing (ATAC-seq). This uncovered a variability of both mouse and human GSC cultures that was different from transcriptome analysis and better at predicting functional subgroups. In both species the chromatin accessibility-guided clusters were predominantly determined by distal regulatory element (DRE) regions, displayed contrasting sets of transcription factor binding motifs, and exhibited different functional and drug-response properties. Cross-species analysis of DRE regions in accessible chromatin revealed conserved epigenetic regulation of mouse and human GSCs. Human ATAC-seq data produced three distinct clusters with significant overlap to our previous mouse cell of origin- based stratification, where two of the clusters displayed significantly different patient survival. We conclude that epigenetic regulation of GSCs primarily is dictated by developmental origin which controls key GSC properties and affects therapeutic response.

Published

2021

47. Signals of Hotel Effort on Enhancing IAQ and Booking Intention: Effect of Customer’s Body Mass Index Associated with Sustainable Marketing in Tourism

Author

Wilco Chan, Xingqi Chen, Leon Liu, Carol X. Zhang, and Baifeng Sun

Subjects

media_common.quotation_subject, Geography, Planning and Development, TJ807-830, Management, Monitoring, Policy and Law, Destinations, TD194-195, Renewable energy sources, sustainable marketing, BMI, Indoor air quality, Hospitality, Perception, 0502 economics and business, GE1-350, Marketing, Air quality index, ComputingMilieux_MISCELLANEOUS, media_common, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, communication, sustainability, booking intention, IAQ, signaling theory, 05 social sciences, Online advertising, Environmental sciences, Sustainability, 050211 marketing, Business, 050203 business & management, Tourism

Abstract

Since outdoor air pollutants may penetrate into hotels, indoor air quality (IAQ) has recently developed as an important criterion for tourists’ decision to choose traveling destinations and for business travelers to select accommodation. Thus, some hoteliers have raised concerns about the negative effects of emerging air quality issues on guests’ experience and are willing to invest in improving the IAQ. Unlike the hotel’s currently offered services and products which are observable, the improved IAQ is almost invisible and the mitigation technology of air pollutants is new to hoteliers, consumers and researchers in tourism. Hence, the search and understanding of the relationship of signals communicating hotel’s effort on air quality enhancement and booking intention plus the mediating and moderating factors become the main objective of the research and can fill the knowledge gap plus meet the practical need. The study found that the more reinforced IAQ effort included in the website presentation, the higher the travelers’ booking intention. The travelers’ trust in the hotel partially mediated the relationship between travelers’ perception of reinforced IAQ effort input by hoteliers and their booking intention. Further, the study finds that the enhancement of online booking intention does exist in a segment of travelers who are high health-conscious. Additionally, the influence of health-conscious traveler’s perception of hotel IAQ enhancement effort via the portal on the dependent variable—hotel booking intention was statistically significant. The findings enable hotel managers to have a deeper understanding of the relationship between the potential customers’ booking intention on hotel rooms and the online marketing communication signals mediated by their trust in the hotel’s cleaning air effort. The results can serve as a reference for designing more effective marketing communication programs and channels for hotels’ endeavor to improve indoor air quality, especially sustaining the tourism development in the post-epidemic era. Additionally, the study unveils some applied measures in improving hotel air quality not being documented in hospitality and tourism journals.

Published

2021

48. Profiling chromatin accessibility in formalin-fixed paraffin-embedded samples

Author

Hua, Zhang, Vamsi Krishna, Polavarapu, Pengwei, Xing, Miao, Zhao, Lucy, Mathot, Linxuan, Zhao, Gabriela, Rosen, Fredrik J, Swartling, Tobias, Sjöblom, and Xingqi, Chen

Subjects

Paraffin Embedding, Tissue Fixation, Formaldehyde, Gene Expression Profiling, Humans, Method, Chromatin, Epigenesis, Genetic

Abstract

Archived formalin-fixed paraffin-embedded (FFPE) samples are the global standard format for preservation of the majority of biopsies in both basic research and translational cancer studies, and profiling chromatin accessibility in the archived FFPE tissues is fundamental to understanding gene regulation. Accurate mapping of chromatin accessibility from FFPE specimens is challenging because of the high degree of DNA damage. Here, we first showed that standard ATAC-seq can be applied to purified FFPE nuclei but yields lower library complexity and a smaller proportion of long DNA fragments. We then present FFPE-ATAC, the first highly sensitive method for decoding chromatin accessibility in FFPE tissues that combines Tn5-mediated transposition and T7 in vitro transcription. The FFPE-ATAC generates high-quality chromatin accessibility profiles with 500 nuclei from a single FFPE tissue section, enables the dissection of chromatin profiles from the regions of interest with the aid of hematoxylin and eosin (H&E) staining, and reveals disease-associated chromatin regulation from the human colorectal cancer FFPE tissue archived for >10 yr. In summary, the approach allows decoding of the chromatin states that regulate gene expression in archival FFPE tissues, thereby permitting investigators to better understand epigenetic regulation in cancer and precision medicine.

Published

2021

49. Focal amplifications are associated with chromothripsis events and diverse prognoses in gastric cardia adenocarcinoma

Author

Yonglong Dang, Zhao Xueke, Han Wenli, Kan Zhong, Li-Dong Wang, Wang Panpan, Han Xuena, Yang Miaomiao, Xu Ruihua, Lei Lingling, Pengwei Xing, Ji Jiajia, Jing-Feng Hu, Xingqi Chen, Zhou Fuyou, Miao Zhao, Xin Song, Meng Chaolong, and Linxuan Zhao

Subjects

Oncology, medicine.medical_specialty, Science, ERBB2 Negative, General Physics and Astronomy, Adenocarcinoma, Predictive markers, Article, General Biochemistry, Genetics and Molecular Biology, Survival probability, immune system diseases, Stomach Neoplasms, Internal medicine, Chromosomal Instability, Cancer genomics, medicine, Humans, cardiovascular diseases, skin and connective tissue diseases, Chromothripsis, Cancer och onkologi, Multidisciplinary, Molecular medicine, Oncogene, business.industry, General Chemistry, DNA Methylation, Gastric Cardia Adenocarcinoma, Prognosis, Immunohistochemistry, digestive system diseases, Cancer and Oncology, cardiovascular system, ERBB2 Positive, Gastric cancer, business

Abstract

The role of focal amplifications and extrachromosomal DNA (ecDNA) is unknown in gastric cardia adenocarcinoma (GCA). Here, we identify frequent focal amplifications and ecDNAs in Chinese GCA patient samples, and find focal amplifications in the GCA cohort are associated with the chromothripsis process and may be induced by accumulated DNA damage due to local dietary habits. We observe diverse correlations between the presence of oncogene focal amplifications and prognosis, where ERBB2 focal amplifications positively correlate with prognosis and EGFR focal amplifications negatively correlate with prognosis. Large-scale ERBB2 immunohistochemistry results from 1668 GCA patients show survival probability of ERBB2 positive patients is lower than that of ERBB2 negative patients when their surviving time is under 2 years, however, the tendency is opposite when their surviving time is longer than 2 years. Our observations indicate that the ERBB2 focal amplifications may represent a good prognostic marker in GCA patients., The role of focal amplifications and extrachromosomal DNA (ecDNA) is unknown in gastric cardia adenocarcinoma (GCA). Here, the authors identify frequent focal amplifications and ecDNAs in Chinese GCA patient samples, as well as the potential associations of these alterations with prognosis and dietary habits.

Published

2021

50. BRD2 compartmentalizes the accessible genome

Author

Liangqi Xie, Peng Dong, Yifeng Qi, Tsung-Han S. Hsieh, Brian P. English, SeolKyoung Jung, Xingqi Chen, Margherita De Marzio, Rafael Casellas, Howard Y. Chang, Bin Zhang, Robert Tjian, and Zhe Liu

Subjects

Mammals, Human Genome, Nuclear Proteins, Cell Cycle Proteins, Biological Sciences, Medical and Health Sciences, Chromatin, Chromosomes, Protein Domains, Genetics, Animals, Developmental Biology, Protein Binding, Transcription Factors

Abstract

Mammalian chromosomes are organized into megabase-sized compartments that are further subdivided into topologically associating domains (TADs). While the formation of TADs is dependent on cohesin, the mechanism behind compartmentalization remains enigmatic. Here, we show that the bromodomain and extraterminal (BET) family scaffold protein BRD2 promotes spatial mixing and compartmentalization of active chromatin after cohesin loss. This activity is independent of transcription but requires BRD2 to recognize acetylated targets through its double bromodomain and interact with binding partners with its low-complexity domain. Notably, genome compartmentalization mediated by BRD2 is antagonized on the one hand by cohesin and on the other hand by the BET homolog protein BRD4, both of which inhibit BRD2 binding to chromatin. Polymer simulation of our data supports a BRD2-cohesin interplay model of nuclear topology, in which genome compartmentalization results from a competition between loop extrusion and chromatin-state-specific affinity interactions.

Published

2020