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835 results on '"Wang Deping"'

1. Endoplasmic reticulum stress caused by traumatic injury promotes cardiomyocyte apoptosis through acetylation modification of GRP78

Author

Yan Zi, Liu Yufeng, Yang Bowen, Zhao Wenhui, Wang Yan, Wang Deping, Li Jianguo, Jiao Xiangying, and Cao Jimin

Subjects
acetylation, apoptosis, cardiomyocytes, GRP78, trauma, Biochemistry, QD415-436, Genetics, QH426-470
Abstract

Cardiomyocyte apoptosis is an important cause of trauma-induced secondary cardiac injury (TISCI), in which the endoplasmic reticulum stress (ERS)-mediated apoptosis signaling pathway is known to be first activated, but the mechanism remains unclear. In this study, rat models of traumatic injury are established by using the Noble-Collip trauma device. The expression of glucose-regulating protein 78 (GRP78, a molecular chaperone of the cardiomyocyte ER), acetylation modification of GRP78 and apoptosis of cardiomyocytes are determined. The results show that ERS-induced GRP78 elevation does not induce cardiomyocyte apoptosis in the early stage of trauma. However, with prolonged ERS, the GRP78 acetylation level is elevated, and the apoptosis of cardiomyocytes also increases significantly. In addition, in the early stage of trauma, the expression of histone acetyl-transferase (HAT) P300 is increased and that of histone deacetylase 6 (HDAC6) is decreased in cardiomyocytes. Inhibition of HDAC function could induce the apoptosis of traumatic cardiomyocytes by increasing the acetylation level of GRP78. Our present study demonstrates for the first time that post-traumatic protracted ERS can promote cardiomyocyte apoptosis by increasing the acetylation level of GRP78, which may provide an experimental basis for seeking early molecular events of TISCI.

Published
2023
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28. Synthetic, non-intoxicating 8,9-dihydrocannabidiol for the mitigation of seizures.

Author

Mascal, Mark, Hafezi, Nema, Wang, Deping, Hu, Yuhan, Serra, Gessica, Dallas, Mark L, and Spencer, Jeremy PE

Subjects
Animals, Rats, Rats, Wistar, Seizures, Disease Models, Animal, Cannabinoids, Cannabidiol, Pentylenetetrazole, Anticonvulsants, Treatment Outcome, Male
Abstract

There can be a fine line between therapeutic intervention and substance abuse, and this point is clearly exemplified in herbal cannabis and its products. Therapies involving cannabis have been the treatment of last resort for some cases of refractory epilepsy, and this has been among the strongest medical justifications for legalization of marijuana. In order to circumvent the narcotic effects of Δ9-tetrahydrocannabinol (THC), many studies have concentrated on its less intoxicating isomer cannabidiol (CBD). However, CBD, like all natural cannabinoids, is a controlled substance in most countries, and its conversion into THC can be easily performed using common chemicals. We describe here the anticonvulsant properties of 8,9-dihydrocannibidiol (H2CBD), a fully synthetic analogue of CBD that is prepared from inexpensive, non-cannabis derived precursors. H2CBD was found to have effectiveness comparable to CBD both for decreasing the number and reducing the severity of pentylenetetrazole-induced seizures in rats. Finally, H2CBD cannot be converted by any reasonable synthetic route into THC, and thus has the potential to act as a safe, noncontroversial drug for seizure mitigation.

Published
2019

36. Bionic Capsule Lithium‐Ion Battery Anodes for Efficiently Inhibiting Volume Expansion.

Author

Gao, Zhenhai, Rao, Shun, Wang, Junjun, Wang, Deping, Zhang, Tianyao, Feng, Xinbo, Liu, Yuanhang, Shi, Jiawei, Xue, Yao, Li, Weifeng, Wang, Lili, Rong, Changru, and Chen, Yupeng

Subjects
IRON oxides, ANODES, BIONICS, LITHIATION, EVALUATION methodology, ELECTRIC batteries
Abstract

Magnetite (Fe3O4) has a large theoretical reversible capacity and rich Earth abundance, making it a promising anode material for LIBs. However, it suffers from drastic volume changes during the lithiation process, which lead to poor cycle stability and low‐rate performance. Hence, there is an urgent need for a solution to address the issue of volume expansion. Taking inspiration from how glycophyte cells mitigate excessive water uptake/loss through their cell wall to preserve the structural integrity of cells, we designed Fe3O4@PMMA multi‐core capsules by microemulsion polymerization as a kind of anode materials, also proposed a new evaluation method for real‐time repair effect of the battery capacity. The Fe3O4@PMMA anode shows a high reversible specific capacity (858.0 mAh g−1 at 0.1 C after 300 cycles) and an excellent cycle stability (450.99 mAh g−1 at 0.5 C after 450 cycles). Furthermore, the LiNi0.8Co0.1Mn0.1O2/Fe3O4@PMMA pouch cells exhibit a stable capacity (200.6 mAh) and high‐capacity retention rate (95.5 %) after 450 cycles at 0.5 C. Compared to the original battery, the capacity repair rate of this battery is as high as 93.4 %. This kind of bionic capsules provide an innovative solution for improving the electrochemical performance of Fe3O4 anodes to promote their industrial applications. [ABSTRACT FROM AUTHOR]

Published
2024
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38. 2-Aminopyridines as Potent and Selective Nav1.8 Inhibitors Exhibiting Efficacy in a Nonhuman Primate Pain Model

Author

Breslin, Michael J., primary, Schubert, Jeffrey W., additional, Wang, Deping, additional, Huang, Chienjung, additional, Clements, Michelle K., additional, Li, Yuxing, additional, Zhou, Xiaoping, additional, Vardigan, Joshua D., additional, Kraus, Richard L., additional, Santarelli, Vincent P., additional, Uslaner, Jason M., additional, Coleman, Paul J., additional, and Stachel, Shawn J., additional

Published
2024
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48. Current Advances of CO Sensing Based on Low Dimensional Materials

Author

Zhang, Yundi, Liu, Jie, Rong, Changru, Wang, Deping, Li, Weifeng, Gao, Zhenhai, and Chen, Yupeng

Abstract

Carbon monoxide (CO) is a harmful gas with significant impacts on human health and the environment. Its timely detection, especially in the event of thermal runaway in automotive lithium batteries, is crucial to prevent casualties. This paper reviews the progress in the development of efficient, sensitive, and reliable CO sensors, focusing on electrochemical, optical, and resistive sensing materials. Low-dimensional materials have a large specific surface area, providing an abundant number of active sites, which has drawn extensive attention from researchers. According to the different sensor signals, we categorized these sensors into electrical and optical signal sensors. We hope that by systematically introducing the sensing mechanism and sensing performance of these two kinds of sensors, appropriate CO sensors can be developed in different application scenarios so as to realize early warning and monitoring to the maximum extent, reduce industrial losses, and ensure the life and health of personnel.

Published
2024
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49. Uncertainty Optimization of Vibration Characteristics of Automotive Micro-Motors Based on Pareto Elliptic Algorithm.

Author

Hu, Hao, Wang, Deping, Wu, Yudong, Deng, Jianjiao, Chen, Xi, and Ding, Weiping

Subjects
MAGNETIC flux, FREQUENCIES of oscillating systems, MICROMOTORS, ELLIPSOIDS, ALGORITHMS
Abstract

The NVH (Noise, Vibration, and Harshness) characteristics of micro-motors used in vehicles directly affect the comfort of drivers and passengers. However, various factors influence the motor's structural parameters, leading to uncertainties in its NVH performance. To improve the motor's NVH characteristics, we propose a method for optimizing the structural parameters of automotive micro-motors under uncertain conditions. This method uses the motor's maximum magnetic flux as a constraint and aims to reduce vibration at the commutation frequency. Firstly, we introduce the Pareto ellipsoid parameter method, which converts the uncertainty problem into a deterministic one, enabling the use of traditional optimization methods. To increase efficiency and reduce computational cost, we employed a data-driven method that uses the one-dimensional Inception module as the foundational model, replacing both numerical models and physical experiments. Simultaneously, the module's underlying architecture was improved, increasing the surrogate model's accuracy. Additionally, we propose an improved NSGA-III (Non-dominated Sorting Genetic Algorithm III) method that utilizes adaptive reference point updating, dividing the optimization process into exploration and refinement phases based on population matching error. Comparative experiments with traditional models demonstrate that this method enhances the overall quality of the solution set, effectively addresses parameter uncertainties in practical engineering scenarios, and significantly improves the vibration characteristics of the motor. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Bio‐Inspired Electrodes with Rational Spatiotemporal Management for Lithium‐Ion Batteries.

Author

Song, Zelai, Li, Weifeng, Gao, Zhenhai, Chen, Yupeng, Wang, Deping, and Chen, Siyan

Subjects
LITHIUM-ion batteries, LIQUID alloys, ELECTRODES, SELF-healing materials, FIREPROOFING agents, LIQUID metals
Abstract

Lithium‐ion batteries (LIBs) are currently the predominant energy storage power source. However, the urgent issues of enhancing electrochemical performance, prolonging lifetime, preventing thermal runaway‐caused fires, and intelligent application are obstacles to their applications. Herein, bio‐inspired electrodes owning spatiotemporal management of self‐healing, fast ion transport, fire‐extinguishing, thermoresponsive switching, recycling, and flexibility are overviewed comprehensively, showing great promising potentials in practical application due to the significantly enhanced durability and thermal safety of LIBs. Taking advantage of the self‐healing core–shell structures, binders, capsules, or liquid metal alloys, these electrodes can maintain the mechanical integrity during the lithiation–delithiation cycling. After the incorporation of fire‐extinguishing binders, current collectors, or capsules, flame retardants can be released spatiotemporally during thermal runaway to ensure safety. Thermoresponsive switching electrodes are also constructed though adding thermally responsive components, which can rapidly switch LIB off under abnormal conditions and resume their functions quickly when normal operating conditions return. Finally, the challenges of bio‐inspired electrode designs are presented to optimize the spatiotemporal management of LIBs. It is anticipated that the proposed electrodes with spatiotemporal management will not only promote industrial application, but also strengthen the fundamental research of bionics in energy storage. [ABSTRACT FROM AUTHOR]

Published
2024
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