Transcriptomic and metabolomic profiling reveal the p53-dependent benzeneacetic acid attenuation of silica‐induced epithelial–mesenchymal transition in human bronchial epithelial cells
暂无分享,去创建一个
P. Ding | Ruixue Huang | Jianlin Shao | Z. Ju | Jing Jin | Meiling Zhou | Huiji Pan
[1] Xiao-dan Liu,et al. The p53/RMRP/miR122 signaling loop promotes epithelial-mesenchymal transition during the development of silica-induced lung fibrosis by activating the notch pathway. , 2021, Chemosphere.
[2] Z. Ignatova,et al. Fine-tuning the metabolic rewiring and adaptation of translational machinery during an epithelial-mesenchymal transition in breast cancer cells , 2020, Cancer & Metabolism.
[3] Hongwei Wang,et al. Integrated metabolo-transcriptomics and functional characterization reveals that the wheat auxin receptor TIR1 negatively regulates defense against Fusarium graminearum. , 2020, Journal of integrative plant biology.
[4] D. Consonni,et al. Lung cancer related to occupational exposure: an integrative review. , 2020, Revista gaucha de enfermagem.
[5] P. G. Barbieri,et al. Silicosi severa da terre di diatomee nella produzione di alginato ad uso odontoiatrico: uno studio necroscopico , 2020, La Medicina del lavoro.
[6] D. Ellingsen,et al. Pulmonary function and high-resolution computed tomography in outdoor rock drillers exposed to crystalline silica , 2020, Occupational and Environmental Medicine.
[7] J. Mazurek,et al. Trends in Pneumoconiosis Deaths — United States, 1999–2018 , 2020, MMWR. Morbidity and mortality weekly report.
[8] A. León-Jiménez,et al. Artificial Stone Silicosis: Rapid Progression Following Exposure Cessation. , 2020, Chest.
[9] L. Cena,et al. Characterization of Silica Exposure during Manufacturing of Artificial Stone Countertops , 2020, International journal of environmental research and public health.
[10] Rachel E Hewitt,et al. Imaging flow cytometry methods for quantitative analysis of label-free crystalline silica particle interactions with immune cells. , 2020, AIMS biophysics.
[11] Shuzhao Li,et al. MetaboAnalystR 3.0: Toward an Optimized Workflow for Global Metabolomics , 2020, Metabolites.
[12] Xiao-dan Liu,et al. Integrated analysis of transcriptomic and metabolomic profiling reveal the p53 associated pathways underlying the response to ionizing radiation in HBE cells , 2020, Cell & Bioscience.
[13] Mengzhi Wang,et al. Dietary Supplementation of L-Arginine and N-Carbamylglutamate Attenuated the Hepatic Inflammatory Response and Apoptosis in Suckling Lambs with Intrauterine Growth Retardation , 2020, Mediators of inflammation.
[14] Ruixue Huang,et al. Suppression of LINC00460 mediated the sensitization of HCT116 cells to ionizing radiation by inhibiting epithelial-mesenchymal transition. , 2020, Toxicology research.
[15] Xiao-dan Liu,et al. PRKCSH Alternative Splicing Involves in Silica-Induced Expression of Epithelial–Mesenchymal Transition Markers and Cell Proliferation , 2020, Dose-response : a publication of International Hormesis Society.
[16] R. Kaplan,et al. Efficacy and effectiveness studies of depression are not well-differentiated in the literature: a systematic review , 2020, BMJ Evidence-Based Medicine.
[17] Peng Cheng,et al. Tanshinone IIA attenuates silica-induced pulmonary fibrosis via Nrf2-mediated inhibition of EMT and TGF-β1/Smad signaling. , 2020, Chemico-biological interactions.
[18] Gang Bai,et al. 20(S)-Protopanaxatriol promotes the binding of P53 and DNA to regulate the antitumor network via multiomic analysis , 2020, Acta pharmaceutica Sinica. B.
[19] H. Barnes,et al. Silica‐associated lung disease: An old‐world exposure in modern industries , 2019, Respirology.
[20] L. Linares,et al. Metabolic functions of the tumor suppressor p53: Implications in normal physiology, metabolic disorders, and cancer , 2019, Molecular metabolism.
[21] J. Chao,et al. CircRNA-012091/PPP1R13B-Mediated Lung Fibrotic Response in Silicosis via ER Stress and Autophagy. , 2019, American journal of respiratory cell and molecular biology.
[22] M. Lederlin,et al. Beyond silicosis, is the world failing on silica hazards? , 2019, The Lancet. Respiratory medicine.
[23] Ruixue Huang,et al. Alterations in the gut microbiota of patients with silica-induced pulmonary fibrosis , 2019, Journal of Occupational Medicine and Toxicology.
[24] T. Kirby. Australia reports on audit of silicosis for stonecutters , 2019, The Lancet.
[25] H. Guan,et al. Integrated analysis of lncRNA–mRNA co-expression networks in the α-particle induced carcinogenesis of human branchial epithelial cells , 2018, International journal of radiation biology.
[26] Ho-Yyoung Lee,et al. Loss of NF2 Induces TGFβ Receptor 1–mediated Noncanonical and Oncogenic TGFβ Signaling: Implication of the Therapeutic Effect of TGFβ Receptor 1 Inhibitor on NF2 Syndrome , 2018, Molecular Cancer Therapeutics.
[27] H. Guan,et al. Exosome-packaged miR-1246 contributes to bystander DNA damage by targeting LIG4 , 2018, British Journal of Cancer.
[28] J. Peralta-Videa,et al. Metabolomics Reveals How Cucumber ( Cucumis sativus) Reprograms Metabolites To Cope with Silver Ions and Silver Nanoparticle-Induced Oxidative Stress. , 2018, Environmental science & technology.
[29] H. Sabe,et al. p53-Dependent and -Independent Epithelial Integrity: Beyond miRNAs and Metabolic Fluctuations , 2018, Cancers.
[30] Wenzhe Ma,et al. Integrative omics analysis of p53‐dependent regulation of metabolism , 2018, FEBS letters.
[31] Ruixue Huang,et al. Challenges to improving occupational health in China , 2017, Occupational and Environmental Medicine.
[32] Scott W. Lowe,et al. Putting p53 in Context , 2017, Cell.
[33] Robert A. Smith,et al. Genetic alterations in Krebs cycle and its impact on cancer pathogenesis. , 2017, Biochimie.
[34] J. Chao,et al. p53/PUMA expression in human pulmonary fibroblasts mediates cell activation and migration in silicosis , 2015, Scientific Reports.
[35] H. Hermeking,et al. p53 directly activates cystatin D/CST5 to mediate mesenchymal-epithelial transition: a possible link to tumor suppression by vitamin D3 , 2015, Oncotarget.
[36] L. Attardi,et al. Unravelling mechanisms of p53-mediated tumour suppression , 2014, Nature Reviews Cancer.
[37] Karen H. Vousden,et al. Mutant p53 in Cancer: New Functions and Therapeutic Opportunities , 2014, Cancer cell.
[38] T. Tan,et al. EMT-Induced Stemness and Tumorigenicity Are Fueled by the EGFR/Ras Pathway , 2013, PloS one.
[39] P. Bushel,et al. p53 integrates host defense and cell fate during bacterial pneumonia , 2013, The Journal of experimental medicine.
[40] Christopher A. Maher,et al. A p53/miRNA-34 axis regulates Snail1-dependent cancer cell epithelial–mesenchymal transition , 2011, The Journal of cell biology.
[41] V. Rotter,et al. p53 coordinates cranial neural crest cell growth and epithelial-mesenchymal transition/delamination processes , 2011, Development.
[42] Huimin Lin,et al. Cell death of prostate cancer cells by specific amino acid restriction depends on alterations of glucose metabolism , 2010, Journal of cellular physiology.
[43] Ker-Chau Li,et al. p53 controls cancer cell invasion by inducing the MDM2-mediated degradation of Slug , 2009, Nature Cell Biology.
[44] A. Sparatore,et al. Effect of S-diclofenac, a novel hydrogen sulfide releasing derivative inhibit rat vascular smooth muscle cell proliferation. , 2008, European journal of pharmacology.
[45] K. Schallreuter,et al. Regulation of melanogenesis – controversies and new concepts , 2008, Experimental dermatology.
[46] A. Sparatore,et al. Anti-inflammatory and gastrointestinal effects of a novel diclofenac derivative. , 2007, Free radical biology & medicine.
[47] Liying Wang,et al. Essential role of p53 in silica-induced apoptosis. , 2005, American journal of physiology. Lung cellular and molecular physiology.
[48] O. Franco,et al. p27Kip1 is the key mediator of phenylacetate induced cell cycle arrest in human prostate cancer cells. , 2000, Anticancer research.
[49] S. Shack,et al. Phenylacetate: a novel nontoxic inducer of tumor cell differentiation. , 1992, Cancer research.
[50] D. Lane,et al. T antigen is bound to a host protein in SY40-transformed cells , 1979, Nature.
[51] Jianguo Xia,et al. Using MetaboAnalyst 4.0 for Metabolomics Data Analysis, Interpretation, and Integration with Other Omics Data. , 2020, Methods in molecular biology.
[52] Wanyi Lin,et al. Curcumin suppresses gastric cancer biological activity by regulation of miRNA-21: an in vitro study. , 2018, International journal of clinical and experimental pathology.
[53] Lufeng Hu,et al. Metabolic changes in rat urine after acute paraquat poisoning and discriminated by support vector machine. , 2016, Biomedical chromatography : BMC.
[54] N. Al-Dhabi,et al. Isolation, identification and screening of antimicrobial thermophilic Streptomyces sp. Al-Dhabi-1 isolated from Tharban hot spring, Saudi Arabia , 2015, Extremophiles.
[55] Hilde van der Togt,et al. Publisher's Note , 2003, J. Netw. Comput. Appl..
[56] F. Lieberman,et al. Inhibition of proliferation and induction of differentiation in medulloblastoma- and astrocytoma-derived cell lines with phenylacetate. , 1995, Journal of neurosurgery.