Your search keyword '"Xing, Tian"' showing total 16 results

1. Cannabidiol attenuates lipid metabolism and induces CB1 receptor-mediated ER stress associated apoptosis in ovarian cancer cells

Author

Xuanhe Fu, Zhixiong Yu, Fang Fang, Weiping Zhou, Yuxin Bai, Zhongjia Jiang, Biao Yang, Ye Sun, Xing Tian, and Guangyan Liu

Subjects

Ovarian cancer, Lipid metabolism, Cannabidiol, Medicine, Science

Abstract

Abstract Ovarian cancer (OC) is the most deadly gynecological tumor. OC cells utilize cellular metabolic reprogramming to gain a survival advantage, particularly through aberrant lipid metabolic process. As the primary ingredient in exogenous cannabinoids, cannabidiol (CBD) has been confirmed to exhibit antitumor activity in preclinical studies. However, it is still unclear whether CBD can disrupt fatty acid metabolism and induce apoptosis in OC cells. In this study, we have demonstrated that CBD significantly inhibits the proliferation of OCs through a cannabinoid receptor type 1 (CB1R)-mediated manner. Fatty acid metabolic profiling and flow cytometry analysis revealed that CBD has the ability to decrease fatty acid levels and significantly suppress the transcription of genes involved in fatty acid uptake and synthesis in ES-2 cells. In addition, the analysis from RNA-seq and real-time RT-PCR revealed that CBD activated the endoplasmic reticulum (ER) stress pathway. Conversely, by supplementation with unsaturated fatty acid or blocking CB1R, ER stress or reactive oxygen species (ROS) signals with specific inhibitors could significantly relieve CBD induced, dose-dependent, ER stress associated apoptosis, G0-G1 phase arrest, and mitochondrial dysfunction. Taken collectively, these data indicate that CBD may disrupt lipid metabolism, and lead to ER stress-related apoptosis in OCs. Our findings may provide a theoretical mechanism for anti-ovarian cancer using CBD.

Published

2025

2. Preparation and Properties of Antifreeze Rewarming Hydrogel Dressings

Author

Meng Yan, Xiaorong Dong, Jingjing Sun, Yijun Liu, Shengchao Yang, Xing Tian, Shuang Zheng, Lisha Yin, Yanan Fu, Dongmei Li, Lin Cui, Gang Li, Zhongpeng Qiu, and Zhiyong Liu

Subjects

freeze‐resistance, hydrogel dressing, photothermal conversion, triple antibacterial effect, Physics, QC1-999, Technology

Abstract

Abstract The Hydrogel wound dressing with good rewarming property, anti‐freezing property, and adhesion property has important practical significance in medical care for the first and second grade frostbite. The ears, hands, mouth, and nose of field workers on duty and training high cold region are prone to frostbite due to long‐term exposure to in severe cold. Therefore, rapid rewarming of wound surface is the key to the treatment of frostbite. In this paper, antifreeze and rewarming are achieved by photothermal conversion materials and quaternary ammonium salts. Herein, the PAM/CS/MXene30/Betaine5/AgNPs200(PCM30B5A200) hydrogel based on chitosan (CS) and acrylamide (AM) is designed and fabricated by thermally initiated free radical polymerization. The dressing has excellent rewarming properties, anti‐freezing properties, tensile properties, repeatable self‐adhesion and antibacterial properties. In this system, hydrogels are mainly cross‐linked by hydrogen bonds between CS and AM. Betaine is added to the material to make the hydrogel have good freeze‐resistance and flexibility at −24 °C, and can be combined with AgNPs and MXene, to achieve a triple antibacterial. The PCM30B5A200 hydrogel reached the rewarming temperature of 40.5 °C at 9 min. PCM30B5A200 multifunctional hydrogels have good application value in the first and second grade frostbite wounds.

Published

2025

3. Stamens enclosed by petals in Berchemia (Rhamnaceae): a unique mechanism for pollen presentation

Author

Fang Ma, Qian Zhao, Xing Tian, Yao-lei Fu, and Wen-zhe Liu

Subjects

Berchemia, secondary pollen presentation, petal-stamen complex, sexual interference, delayed selfing, reproduction assurance, Plant culture, SB1-1110

Abstract

IntroductionPollen is usually presented by the anthers after maturity. However, in some plants, pollen is presented to pollinators on other floral structures (other than the anthers), or via particular expulsion mechanisms, resulting in secondary pollen presentation. The unusual petal morphology in Berchemia mediates pollen presentation, characterised by a combination of secondary pollen presentation and primary pollen presentation. However, the function, the role in reproduction, and the evolutionary significance of the unusual petals remain unclear.MethodsIn this study, we took Berchemia flavescens and Berchemia polyphylla var. leioclada as examples, and used field observations, semi-thin sections technology, scanning electron microscopy, and pollination ecology detection methods to explore the unique pollen presentation strategies, petal functions, and reproductive strategies in Berchemia.ResultsThis is a unique pollen presentation process mediated by petals. In the advanced bud stage, petals curl inward, enclosing the stamens. Following anther dehiscence, pollen is released into the petal tube, where the filament and cone-shaped anthers act as pistons, extruding pollen or pollen clumps through gaps at the petal tube apex (secondary pollen presentation). Subsequently, as the anthers emerge from the petal tube, residual pollen is directly presented to pollinators (primary pollen presentation).DiscussionIn Berchemia, the petals enclosing the stamens, effectively shield the pollen from extreme environmental conditions. The petal-stamen complex slow movement (first centrifugal, later centripetal) and pollen presentation in Berchemia suggest a unique reproductive strategy. This mechanism promotes outcrossing, minimizing interference between the pistil and stamens, and offers reproductive assurance by delayed self-pollination.

Published

2025

4. Cellulose nanofiber reinforced curcumin-infused calcium phosphate silicate cement for various bone-tissue engineering application

Author

Xiu Guo Lu, Sha Li Meng, Qiu Jing Zhou, Tao Wu, Xing Tian Gong, and Qiong Wu

Subjects

curcumin, calcium phosphate silicate cement, bone cancer, bone repair, dual functions, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

IntroductionThis study utilized a injectable curcumin (Cur)-infused calcium phosphate silicate cement (CPSC) for addressing defects caused by bone cancer, and evaluated its promoting bone regeneration and exerting cytotoxic effects on osteosarcoma cells.MethodsThe material’s physicochemical properties, biocompatibility with osteoblasts, and cytotoxicity toward osteosarcoma cells were rigorously analyzed.ResultsThe findings demonstrate that CPSC-Cur signicantly prolongs the setting time, which can be optimized by adding silanized cellulose nanober (CNF-SH) to achieve a balance between workability and mechanical strength. Biological assessments reveal a pronounced cytotoxic effect on osteosarcoma cells while maintaining minimal toxicity toward pre-osteoblasts, highlighting CPSC-Cur’s potential as a promising material for repairing bone defects following cancer removal.ConclusionThis study lays the groundwork for future investigations into CPSC-Cur’s in vivo efficacy and its role in the clinical treatment of bone cancer.

Published

2025

5. Controlling crystal planes of biomass-derived carbon based Mo2C NPs and the electrochemical performance.

Author

Du, Yuxuan, Ahmed, Md. Maruf, Xing, Tian, Chen, Shuwei, and Du, Jianping

Subjects

NICOTINE, DETECTION limit, CRYSTAL structure, NANOSTRUCTURED materials, NANOPARTICLES, ELECTROCHEMICAL sensors

Abstract

The electrochemical property of Mo2C nanoparticles (NPs) depends on the structure and crystal planes. Herein, Mo2C nanoparticles were prepared and dispersed on carbon nanosheets by the construction of a biomass-derived carbon precursor, and the exposed dual crystal planes were also controlled by optimal conditions. The structure, compositions, and morphology of the carbon-based Mo2C were characterized, and the Mo2C NPs were well dispersed on the carbon nanosheets. The electrochemical study shows that optimal Mo2C exhibits excellent electrochemical properties for the oxidation of nicotine compared with other materials in the broad linear range of 0.2–300 μM. In particular, it displays a remarkable oxidation ability for the low-concentration nicotine (0.2–5 μM), and the detection limit is about 0.17 μM. Furthermore, the exposed dual crystal planes of Mo2C play a critical role in the oxidation. Notably, this characteristic of Mo2C NPs makes it possible to detect nicotine from the extracted solution and be used for chip electrodes to detect nicotine quickly via wireless response, which exhibits actual application prospects for portable detection. The results indicate that the as-prepared Mo2C material could be effective and low-cost for nicotine analysis in the sectors of health management and medical fields. [ABSTRACT FROM AUTHOR]

Published

2025

6. Tunability of nonlinear absorption of CuAlO2 thin films fabricated by thermal oxidation Cu-Al bimetallic films

Author

Xu, Lijie, Xing, Tian, Du, Xingxing, Wei, Jiaqing, Xu, Jie, Hong, Ruijin, Tao, Chunxian, Wang, Qi, Lin, Hui, Han, Zhaoxia, and Zhang, Dawei

Published

2025

7. Investigation of bidirectional causal association between temporomandibular disorders and five mental disorders

Author

Wu, Yifan, Shen, Zhenguo, Chen, Bohan, Sheng, Shuyan, Zhang, Zhenghan, Shao, Wei, and Xing, Tian

Published

2025

8. Fabrication of Ag based Surface Enhanced Raman Scattering substrates with periodic mask arrays by electron beam deposition

Author

Xing, Tian, Wang, Jiawei, Wei, Jiaqing, Du, Xingxing, Hong, Ruijin, Tao, Chunxian, Wang, Qi, Lin, Hui, Han, Zhaoxia, and Zhang, Dawei

Published

2025

9. An experimental comparative study of energy saving based on occupancy-centric control in smart buildings

Author

Qaisar, Irfan, Liang, Wei, Sun, Kailai, Xing, Tian, and Zhao, Qianchuan

Published

2025

10. Dual-gradient Mo2C-decorated rGO aerogels for enhanced electromagnetic wave absorption

Author

Zhang, Jie, Zhang, Zekui, Liu, Lu, Zhang, Han, Xing, Tian, Li, Kexun, Zhao, Ruihua, and Du, Jianping

Published

2025

11. Numerical investigation on uneven settlement of an aqueduct foundation by three-dimensional random field and finite elements

Author

Xing, Tian, Ren, Shunping, Zhan, Shuangqiao, and Chen, Qimin

Published

2025

12. Citrobacter freundii Caused Head Ulcer Disease and Immune Response in Juvenile Procambarus clarkii

Author

Yong He, Xiudan Yuan, Jinlong Li, Xing Tian, Zhigang He, Chunfang Zeng, Yukun Xie, Li Liu, Shiming Deng, and Dongwu Wang

Subjects

juvenile Procambarus clarkii, head ulcers, Citrobacter freundii, immune response, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Red swamp crayfish (Procambarus clarkii) is one of the most important aquaculture species in China. Frequent outbreaks of diseases seriously threatened the sustainable development of the industry. It is necessary to understand the causes of disease and study the mechanism of disease resistance in P. clarkii. In this paper, the pathogenic bacteria causing head ulcers in juvenile P. clarkii were found and identified as Citrobacter freundii, which can cause severe pathological changes in the hepatopancreas and intestines of juvenile P. clarkii. Detection of humoral immune factors revealed that PO activity and lysozyme activity of infected P. clarkii were significantly enhanced at 15 and 20 dpi, respectively. Transcriptome analysis was conducted of hepatopancreas from normal and diseased P. clarkii after C. freundii injection, as well as bacteria-free control of P. clarkii. It was found that DEGs are rich in NF-κB, oxidative phosphorylation, JAK/STAT, Leukocyte transendothelial migration, MAPK, and PPAR signaling pathway. These pathways are related to immune modulation, metabolism, and pathogen clearance. Meanwhile, immune-related genes such as Gip, nfyA, psmD13, and FGFR were significantly highly expressed in the normal group, which was verified by qRT-PCR results, suggesting that they may be the key regulatory genes for juvenile P. clarkii resistance to C. freundii. This study will help to elucidate the molecular mechanism of the immune response of P. clarkii to C. freundii. The results are instructive for the prevention and treatment of P. clarkii diseases and for further understanding of the invertebrate immune system.

Published

2025

13. Cellulose nanofiber reinforced curcumin-infused calcium phosphate silicate cement for various bone-tissue engineering application.

Author

Lu, Xiu Guo, Meng, Sha Li, Zhou, Qiu Jing, Wu, Tao, Gong, Xing Tian, and Wu, Qiong

Subjects

BONE cancer, CALCIUM phosphate, CALCIUM silicates, BONE regeneration, CYTOTOXINS

Abstract

Introduction: This study utilized a injectable curcumin (Cur)-infused calcium phosphate silicate cement (CPSC) for addressing defects caused by bone cancer, and evaluated its promoting bone regeneration and exerting cytotoxic effects on osteosarcoma cells. Methods: The material's physicochemical properties, biocompatibility with osteoblasts, and cytotoxicity toward osteosarcoma cells were rigorously analyzed. Results: The findings demonstrate that CPSC-Cur signicantly prolongs the setting time, which can be optimized by adding silanized cellulose nanober (CNF-SH) to achieve a balance between workability and mechanical strength. Biological assessments reveal a pronounced cytotoxic effect on osteosarcoma cells while maintaining minimal toxicity toward pre-osteoblasts, highlighting CPSC-Cur's potential as a promising material for repairing bone defects following cancer removal. Conclusion: This study lays the groundwork for future investigations into CPSC-Cur's in vivo efficacy and its role in the clinical treatment of bone cancer. [ABSTRACT FROM AUTHOR]

Published

2025

14. HBx Facilitates Drug Resistance in Hepatocellular Carcinoma via CD133-regulated Self-renewal of Liver Cancer Stem Cells.

Author

Xiangshu Jin, Huijun Dong, Juan Wang, Guomin Ou, Xinyuan Lai, Xing Tian, Lei Wang, Hui Zhuang, Tong Li, and Kuanhui Xiang

Subjects

MEDICAL sciences, HEPATITIS D virus, HIV infections, FOCAL adhesion kinase, CANCER stem cells, OXIDATIVE phosphorylation, CONCEPT learning

Published

2025

15. Nonlinear waves for a variable-coefficient modified Kadomtsev–Petviashvili system in plasma physics and electrodynamics.

Author

Wei, Guang-Mei, Song, Yu-Xin, Xing, Tian-Chi, and Miao, Shu

Published

2025

16. Small ubiquitin-like modifier protease gene TaDSU enhances salt tolerance of wheat.

Author

Xiao G, Jiang Z, Xing T, Chen Y, Zhang H, Qian J, Wang X, Wang Y, Xia G, and Wang M

Subjects

Arabidopsis genetics, Arabidopsis physiology, Sumoylation, Plants, Genetically Modified, Genes, Plant, Potassium metabolism, Small Ubiquitin-Related Modifier Proteins metabolism, Small Ubiquitin-Related Modifier Proteins genetics, Sodium metabolism, Promoter Regions, Genetic genetics, Protein Binding drug effects, Triticum genetics, Triticum physiology, Triticum enzymology, Salt Tolerance genetics, Gene Expression Regulation, Plant, Plant Proteins genetics, Plant Proteins metabolism

Abstract

To identify efficient salt-tolerant genes is beneficial for coping with the penalty of salt stress on crop yield. Reversible conjugation (sumoylation and desumoylation) of Small Ubiquitin-Like Modifier (SUMO) is a crucial kind of protein modifications, but its roles in the response to salt and other abiotic stress are not well addressed. Here, we identify salt-tolerant SUMO protease gene TaDSU for desumoylation from wheat, and analyze its mechanism in salt tolerance and evaluate its role in yield in saline-alkaline fields. TaDSU overexpression enhances salt tolerance of wheat. TaDSU overexpressors have lower Na + but higher K + contents and consequently higher K +  : Na + ratios than the wild-type under salt stress. TaDSU interacts with transcriptional factor MYC2, reduces the sumoylation level of SUMO1-conjugated MYC2, and promotes its transcription activity. MYC2 binds to the promoter of TaDSU and elevates its expression. TaDSU overexpression enhances grain yield of wheat in the saline soil without growth penalty in the normal field. Especially, TaDSU ectopic expression also enhances salt tolerance of Arabidopsis thaliana, showing this SUMO protease allele has the inter-species role in the adaptation to salt stress. Thus, TaDSU is an efficient candidate gene for molecular breeding of salt-tolerant crops., (© 2024 The Author(s). New Phytologist © 2024 New Phytologist Foundation.)

Published

2025