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Start Over Author "Wang Ting" Journal international journal of molecular sciences
44 results on '"Wang Ting"'

1. Chloroquine Restores eNOS Signaling in Shunt Endothelial Cells via Inhibiting eNOS Uncoupling.

Author

Liang, Ying, Ornatowski, Wojciech, Lu, Qing, Sun, Xutong, Yegambaram, Manivannan, Feng, Anlin, Dong, Yishu, Aggarwal, Saurabh, Unwalla, Hoshang J., Fineman, Jeffrey R., Black, Stephen M., and Wang, Ting

Abstract

Pulmonary arterial hypertension (PAH) is characterized by increased lung vascular stiffness and impaired vessel relaxation, primarily due to reduced nitric oxide (NO) production in endothelial cells. Recent studies indicate that chloroquine, an autophagy inhibitor, may help lower pulmonary arterial pressure and enhance lung vascular function. This study investigates the mechanisms underlying the chloroquine-mediated restoration of NO bioavailability in endothelial cells derived from aortopulmonary shunt lambs, a relevant model for congenital heart defect (CHD)-associated PAH. We found that NO production was significantly reduced in shunt pulmonary artery endothelial cells (PAECs), attributable to decreased levels of tetrahydrobiopterin (BH4) and diminished expression of GTP cyclohydrolase 1 (GCH1), despite a slight increase in endothelial nitric oxide synthase (eNOS) levels. Chloroquine robustly restored endothelial NO production, which correlated with increased BH4 levels and restored GCH1 expression. The mechanistically upregulated carboxyl terminus of Hsp70-interacting protein (CHIP) in shunt PAECs is responsible for heightened GCH1 degradation, and chloroquine disrupted the assembly of the GCH1-HSP70-CHIP complex to preserve cellular GCH1. Similarly, another autophagy inhibitor, bafilomycin A1, demonstrated comparable effects. These findings suggest that autophagy inhibition can effectively enhance NO synthesis in endothelial cells experiencing depleted NO bioavailability, presenting a potential therapeutic strategy for managing PAH. [ABSTRACT FROM AUTHOR]

Published
2025
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3. A Combined Transcriptomic and Proteomic Analysis of Monkeypox Virus A23 Protein on HEK293T Cells.

Author

Wang, Yihao, Li, Yihan, Li, Mingzhi, Wang, Keyi, Xiong, Jiaqi, Wang, Ting, Wang, Yu, Guo, Yunli, Kong, Lingbao, and Li, Meifeng

Subjects
RIBOSOMAL proteins, GENE expression, VIRAL proteins, RNA sequencing, MONKEYPOX, DNA repair
Abstract

Monkeypox virus (MPXV) is a cross-kingdom pathogen infecting both humans and wildlife, which poses a significant health risk to the public. Although MPXV attracts broad attention, there is a lack of adequate studies to elucidate pathogenic mechanisms associated with viral infections. In this study, a high-throughput RNA sequencing (RNA-seq) and liquid chromatography–tandem mass spectrometry (LC-MS/MS) approach was used to explore the transcriptional and metabolic responses of MPXV A23 protein to HEK293T cells. The protein–protein interactions and signaling pathways were conducted by GO and KEGG analyses. The localization of A23 protein in HEK293T cells was detected by immunofluorescence. A total of 648 differentially expressed genes (DEGs) were identified in cells by RNA-Seq, including 314 upregulated genes and 334 downregulated genes. Additionally, liquid chromatography–tandem mass spectrometry (LC-MS/MS) detected 115 cellular proteins that interact with the A23 proteins. Transcriptomic sequencing analysis revealed that transfection of MPXV A23 protein modulated genes primarily associated with cellular apoptosis and DNA damage repair. Proteomic analysis indicated that this protein primarily interacted with host ribosomal proteins and histones. Following the identification of the nuclear localization sequence RKKR within the A23 protein, a truncated mutant A23ΔRKKR was constructed to investigate the subcellular localization of A23 protein. The wild-type A23 protein exhibits a significantly higher nuclear-to-cytoplasmic ratio, exceeding 1.5, in contrast to the mutant A23ΔRKKR, which has a ratio of approximately 1. Immunofluorescence assays showed that the A23 protein was mainly localized in the nucleus. The integration of transcriptomics and proteomics analysis provides a comprehensive understanding of the interaction between MPXV A23 protein and the host. Our findings highlight the potential role of this enzyme in suppressing host antiviral immune responses and modulating host gene expression. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Novel Relationship between Mitofusin 2-Mediated Mitochondrial Hyperfusion, Metabolic Remodeling, and Glycolysis in Pulmonary Arterial Endothelial Cells

Author

Yegambaram, Manivannan, primary, Sun, Xutong, additional, Flores, Alejandro Garcia, additional, Lu, Qing, additional, Soto, Jamie, additional, Richards, Jaime, additional, Aggarwal, Saurabh, additional, Wang, Ting, additional, Gu, Haiwei, additional, Fineman, Jeffrey R., additional, and Black, Stephen M., additional

Published
2023
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6. Free Radical–Associated Gene Signature Predicts Survival in Sepsis Patients.

Author

Feng, Anlin, Pokharel, Marissa D., Liang, Ying, Ma, Wenli, Aggarwal, Saurabh, Black, Stephen M., and Wang, Ting

Subjects
SEPSIS, REACTIVE oxygen species, GENE expression, HOSPITALS, GENES, SYMPTOMS
Abstract

Sepsis continues to overwhelm hospital systems with its high mortality rate and prevalence. A strategy to reduce the strain of sepsis on hospital systems is to develop a diagnostic/prognostic measure that identifies patients who are more susceptible to septic death. Current biomarkers fail to achieve this outcome, as they only have moderate diagnostic power and limited prognostic capabilities. Sepsis disrupts a multitude of pathways in many different organ systems, making the identification of a single powerful biomarker difficult to achieve. However, a common feature of many of these perturbed pathways is the increased generation of reactive oxygen species (ROS), which can alter gene expression, changes in which may precede the clinical manifestation of severe sepsis. Therefore, the aim of this study was to evaluate whether ROS-related circulating molecular signature can be used as a tool to predict sepsis survival. Here we created a ROS-related gene signature and used two Gene Expression Omnibus datasets from whole blood samples of septic patients to generate a 37-gene molecular signature that can predict survival of sepsis patients. Our results indicate that peripheral blood gene expression data can be used to predict the survival of sepsis patients by assessing the gene expression pattern of free radical–associated -related genes in patients, warranting further exploration. [ABSTRACT FROM AUTHOR]

Published
2024
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10. CXCL14 as a Key Regulator of Neuronal Development: Insights from Its Receptor and Multi-Omics Analysis.

Author

Zhang, Yinjie, Jin, Yue, Li, Jingjing, Yan, Yan, Wang, Ting, Wang, Xuanlin, Li, Zhenyu, and Qin, Xuemei

Subjects
MULTIOMICS, PYRAMIDAL neurons, NEURON development, NEUROPLASTICITY, MOLECULAR evolution, NEURAL transmission, CATTLE crossbreeding
Abstract

CXCL14 is not only involved in the immune process but is also closely related to neurodevelopment according to its molecular evolution. However, what role it plays in neurodevelopment remains unclear. In the present research, we found that, by crossbreeding CXCL14+/− and CXCL14−/− mice, the number of CXCL14−/− mice in their offspring was lower than the Mendelian frequency; CXCL14−/− mice had significantly fewer neurons in the external pyramidal layer of cortex than CXCL14+/− mice; and CXCL14 may be involved in synaptic plasticity, neuron projection, and chemical synaptic transmission based on analysis of human clinical transcriptome data. The expression of CXCL14 was highest at day 14.5 in the embryonic phase and after birth in the mRNA and protein levels. Therefore, we hypothesized that CXCL14 promotes the development of neurons in the somatic layer of the pyramidal cells of mice cortex on embryonic day 14.5. In order to further explore its mechanism, CXCR4 and CXCR7 were suggested as receptors by Membrane-Anchored Ligand and Receptor Yeast Two-Hybrid technology. Through metabolomic techniques, we inferred that CXCL14 promotes the development of neurons by regulating fatty acid anabolism and glycerophospholipid anabolism. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Z-Ligustilide Combined with Cisplatin Reduces PLPP1-Mediated Phospholipid Synthesis to Impair Cisplatin Resistance in Lung Cancer.

Author

Geng, Pengyu, Zhao, Jinhui, Li, Qi, Wang, Xiaolin, Qin, Wangshu, Wang, Ting, Shi, Xianzhe, Liu, Xinyu, Chen, Jia, Qiu, Hongdeng, and Xu, Guowang

Subjects
LUNG cancer, CISPLATIN, PROTEIN kinase B, ANTINEOPLASTIC agents, DONG quai, PHOSPHOLIPIDS
Abstract

Lung cancer is a malignant tumor with one of the highest morbidity and mortality rates in the world. Approximately 80–85% of lung cancer is diagnosed as non-small lung cancer (NSCLC), and its 5-year survival rate is only 21%. Cisplatin is a commonly used chemotherapy drug for the treatment of NSCLC. Its efficacy is often limited by the development of drug resistance after long-term treatment. Therefore, determining how to overcome cisplatin resistance, enhancing the sensitivity of cancer cells to cisplatin, and developing new therapeutic strategies are urgent clinical problems. Z-ligustilide is the main active ingredient of the Chinese medicine Angelica sinensis, and has anti-tumor activity. In the present study, we investigated the effect of the combination of Z-ligustilide and cisplatin (Z-ligustilide+cisplatin) on the resistance of cisplatin-resistant lung cancer cells and its mechanism of action. We found that Z-ligustilide+cisplatin decreased the cell viability, induced cell cycle arrest, and promoted the cell apoptosis of cisplatin-resistant lung cancer cells. Metabolomics combined with transcriptomics revealed that Z-ligustilide+cisplatin inhibited phospholipid synthesis by upregulating the expression of phospholipid phosphatase 1 (PLPP1). A further study showed that PLPP1 expression was positively correlated with good prognosis, whereas the knockdown of PLPP1 abolished the effects of Z-ligustilide+cisplatin on cell cycle and apoptosis. Specifically, Z-ligustilide+cisplatin inhibited the activation of protein kinase B (AKT) by reducing the levels of phosphatidylinositol 3,4,5-trisphosphate (PIP3). Z-ligustilide+cisplatin induced cell cycle arrest and promoted the cell apoptosis of cisplatin-resistant lung cancer cells by inhibiting PLPP1-mediated phospholipid synthesis. Our findings demonstrate that the combination of Z-Ligustilide and cisplatin is a promising approach to the chemotherapy of malignant tumors that are resistant to cisplatin. [ABSTRACT FROM AUTHOR]

Published
2023
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23. UVB-Pretreatment-Enhanced Cadmium Absorption and Enrichment in Poplar Plants.

Author

He, Fang, Zhao, Qian, Shi, Yu-Jie, Li, Jun-Lin, Wang, Ting, Lin, Tian-Tian, Zhao, Kuang-Ji, Chen, Liang-Hua, Mi, Jia-Xuan, Yang, Han-Bo, Zhang, Fan, and Wan, Xue-Qin

Subjects
CADMIUM, COMMODITY futures, PLANT genes, SUPEROXIDE dismutase, HEAVY metals, POPLARS, WOODY plants
Abstract

The phenomenon of cross adaptation refers to the ability of plants to improve their resistance to other stress after experiencing one type of stress. However, there are limited reports on how ultraviolet radiation B (UVB) pretreatment affects the enrichment, transport, and tolerance of cadmium (Cd) in plants. Since an appropriate UVB pretreatment has been reported to change plant tolerance to stress, we hypothesized that this application could alter plant uptake and tolerance to heavy metals. In this study, a woody plant species, 84K poplar (Populus alba × Populus glandulosa), was pretreated with UVB and then subjected to Cd treatment. The RT-qPCR results indicated that the UVB-treated plants could affect the expression of Cd uptake, transport, and detoxification-related genes in plants, and that the UVB-Pretreatment induced the ability of Cd absorption in plants, which significantly enriched Cd accumulation in several plant organs, especially in the leaves and roots. The above results showed that the UVB-Pretreatment further increased the toxicity of Cd to plants in UVB-Cd group, which was shown as increased leaf malonaldehyde (MDA) and hydrogen peroxide (H2O2) content, as well as downregulated activities of antioxidant enzymes such as Superoxide Dismutase (SOD), Catalase (CAT), and Ascorbate peroxidase (APX). Therefore, poplar plants in the UVB-Cd group presented a decreased photosynthesis and leaf chlorosis. In summary, the UVB treatment improved the Cd accumulation ability of poplar plants, which could provide some guidance for the potential application of forest trees in the phytoremediation of heavy metals in the future. [ABSTRACT FROM AUTHOR]

Published
2023
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26. Therapeutic Effect of Calcimimetics on Osteoclast–Osteoblast Crosslink in Chronic Kidney Disease and Mineral Bone Disease

Author

Hung, Kuo-Chin, primary, Chang, Jia-Feng, additional, Hsu, Yung-Ho, additional, Hsieh, Chih-Yu, additional, Wu, Mai-Szu, additional, Wu, Mei-Yi, additional, Chiu, I-Jen, additional, Syu, Ren-Si, additional, Wang, Ting-Ming, additional, Wu, Chang-Chin, additional, Hung, Lie-Yee, additional, Zheng, Cai-Mei, additional, and Lu, Kuo-Cheng, additional

Published
2020
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27. MicroRNA-23a-3p Down-Regulation in Active Pulmonary Tuberculosis Patients with High Bacterial Burden Inhibits Mononuclear Cell Function and Phagocytosis through TLR4/TNF-α/TGF-β1/IL-10 Signaling via Targeting IRF1/SP1

Author

Chen, Yung-Che, primary, Lee, Chiu Ping, additional, Hsiao, Chang-Chun, additional, Hsu, Po-Yuan, additional, Wang, Ting-Ya, additional, Wu, Chao-Chien, additional, Chao, Tung-Ying, additional, Leung, Sum-Yee, additional, Chang, Yu-Ping, additional, and Lin, Meng-Chih, additional

Published
2020
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30. Whole Genome DNA Methylation Analysis of Active Pulmonary Tuberculosis Disease Identifies Novel Epigenotypes: PARP9/miR-505/RASGRP4/GNG12 Gene Methylation and Clinical Phenotypes

Author

Chen, Yung-Che, primary, Hsiao, Chang-Chun, additional, Chen, Ting-Wen, additional, Wu, Chao-Chien, additional, Chao, Tung-Ying, additional, Leung, Sum-Yee, additional, Eng, Hock-Liew, additional, Lee, Chiu-Ping, additional, Wang, Ting-Ya, additional, and Lin, Meng-Chih, additional

Published
2020
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32. miR-21-5p Under-Expression in Patients with Obstructive Sleep Apnea Modulates Intermittent Hypoxia with Re-Oxygenation-Induced-Cell Apoptosis and Cytotoxicity by Targeting Pro-Inflammatory TNF-α-TLR4 Signaling

Author

Chen, Yung-Che, primary, Hsu, Po-Yuan, additional, Su, Mao-Chang, additional, Chin, Chien-Hung, additional, Liou, Chia-Wei, additional, Wang, Ting-Ya, additional, Lin, Yong-Yong, additional, Lee, Chiu Ping, additional, Lin, Meng-Chih, additional, and Hsiao, Chang-Chun, additional

Published
2020
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43. Evaluation of Cross-Talk and Alleviate Potential of Cytotoxic Factors Induced by Deoxynivalenol in IPEC-J2 Cells Interference with Curcumin.

Author

Wang Q, Li A, Yu H, Wang C, Wang T, and Zhang J

Subjects
Animals, Swine, Cell Line, Oxidative Stress drug effects, Signal Transduction drug effects, Epithelial Cells drug effects, Epithelial Cells metabolism, NF-kappa B metabolism, Tumor Necrosis Factor-alpha metabolism, Trichothecenes pharmacology, Trichothecenes toxicity, Curcumin pharmacology, Apoptosis drug effects, Endoplasmic Reticulum Stress drug effects
Abstract

Deoxynivalenol (DON) is a mycotoxin produced by Fusarium graminearum , and curcumin (CUR) is a natural polyphenolic compound found in turmeric. However, the combined treatment of CUR and DON to explore the mitigating effect of CUR on DON and their combined mechanism of action is not clear. Therefore, in this study, we established four treatment groups (CON, CUR, DON and CUR + DON) to investigate their mechanism in the porcine intestinal epithelial cells (IPEC-J2). In addition, the cross-talk and alleviating potential of CUR interfering with DON-induced cytotoxic factors were evaluated by in vitro experiments; the results showed that CUR could effectively inhibit DON-exposed activated TNF-α/NF-κB pathway, attenuate DON-induced apoptosis, and alleviate DON-induced endoplasmic reticulum stress and oxidative stress through PERK/CHOP pathways, which were verified at both mRNA and protein levels. In conclusion, these promising findings may contribute to the future use of CUR as a novel feed additive to protect livestock from the harmful effects of DON.

Published
2024
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44. Whole Genome DNA Methylation Analysis of Active Pulmonary Tuberculosis Disease Identifies Novel Epigenotypes: PARP9 / miR-505 / RASGRP4 / GNG12 Gene Methylation and Clinical Phenotypes.

Author

Chen YC, Hsiao CC, Chen TW, Wu CC, Chao TY, Leung SY, Eng HL, Lee CP, Wang TY, and Lin MC

Subjects
Cohort Studies, DNA Methylation genetics, Forkhead Box Protein O3 genetics, GTP-Binding Protein gamma Subunits genetics, Humans, Membrane Proteins genetics, Neoplasm Proteins genetics, Phosphate-Binding Proteins genetics, Poly(ADP-ribose) Polymerases genetics, Regulatory-Associated Protein of mTOR genetics, ras Guanine Nucleotide Exchange Factors genetics, DNA Methylation physiology, Promoter Regions, Genetic genetics, Tuberculosis, Pulmonary genetics
Abstract

We hypothesized that DNA methylation patterns may contribute to the development of active pulmonary tuberculosis (TB). Illumina's DNA methylation 450 K assay was used to identify differentially methylated loci (DML) in a discovery cohort of 12 active pulmonary TB patients and 6 healthy subjects (HS). DNA methylation levels were validated in an independent cohort of 64 TB patients and 24 HS. Microarray analysis identified 1028 DMLs in TB patients versus HS, and 3747 DMLs in TB patients after versus before anti-TB treatment, while autophagy was the most enriched signaling pathway. In the validation cohort, PARP9 and miR505 genes were hypomethylated in the TB patients versus HS, while RASGRP4 and GNG12 genes were hypermethylated, with the former two further hypomethylated in those with delayed sputum conversion, systemic symptoms, or far advanced lesions. MRPS18B and RPTOR genes were hypomethylated in TB patients with pleural involvement. RASGRP4 gene hypermethylation and RPTOR gene down-regulation were associated with high mycobacterial burden. TB patients with WIPI2 / GNG12 hypermethylation or MRPS18B / FOXO3 hypomethylation had lower one-year survival. In vitro ESAT6 and CFP10 stimuli of THP-1 cells resulted in DNA de-methylation changes of the PARP9 , RASGRP4 , WIPI2 , and FOXO3 genes. In conclusions, aberrant DNA methylation over the PARP9/miR505/RASGRP4/GNG12 genes may contribute to the development of active pulmonary TB disease and its clinical phenotypes, while aberrant DNA methylation over the WIPI2 / GNG12 / MARPS18B / FOXO3 genes may constitute a determinant of long-term outcomes.

Published
2020
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