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2. Robust Magnetoelectric Coupling in FeTiO3/Ga2O3 Non-van der Waals Heterostructures

Author

Jin, C., Tang, X., Sun, Q., Mu, C., (0000-0003-0074-7588) Krasheninnikov, A., Kou, L., Jin, C., Tang, X., Sun, Q., Mu, C., (0000-0003-0074-7588) Krasheninnikov, A., and Kou, L.

Abstract

Magnetoelectric coupling represents a significant breakthrough for next-generation electronics, offering the ability to achieve nonvolatile magnetic control via electrical means. In this comprehensive investigation, leveraging first-principles calculations, we unveil a robust magnetoelectric coupling within multiferroic heterostructures (HSs) by ingeniously integrating a non-van der Waals (non-vdW) magnetic FeTiO3 monolayer with the ferroelectric (FE) Ga2O3. Diverging from conventional van der Waals (vdW) multiferroic HSs, the magnetic states of the FeTiO3 monolayer can be efficiently toggled between ferromagnetic (FM) and antiferromagnetic (AFM) configurations by reversing the polarization of the Ga2O3 monolayer. This intriguing phenomenon arises from polarization-dependent substantial interlayer electron transfers and the interplay between superexchange and direct-exchange magnetic couplings of the iron atoms. The carrier-mediated interfacial interactions induce crucial shifts in Fermi level positions, decisively imparting distinct electronic characteristics near the Fermi level of composite systems. These novel findings offer exciting prospects for the future of magnetoelectric technology.

Published
2024

3. Quantum spin Hall states in graphene interacting with WS$_2$ or WSe$_2$

Author

Kaloni, T. P., Kou, L., Frauenheim, T., and Schwingenschlögl, U.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In the framework of first-principles calculations, we investigate the structural and electronic properties of graphene in contact with as well as sandwiched between WS$_2$ and WSe$_2$ monolayers. We report the modification of the band characteristics due to the interaction at the interface and demonstrate that the presence of the dichalcogenides results in quantum spin Hall states in the absence of a magnetic field.

Published
2014
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4. Online Knowledge Distillation Based Multiscale Threshold Denoising Networks for Fault Diagnosis of Transmission Systems

Author

Xu, Y, Yan, X, Sun, B, Feng, K, Kou, L, Chen, Y, Li, Y, Chen, H, Tian, E, Ni, Q, Wang, Y, Xu, Y, Yan, X, Sun, B, Feng, K, Kou, L, Chen, Y, Li, Y, Chen, H, Tian, E, Ni, Q, and Wang, Y

Abstract

Convolutional neural networks (CNN) have developed rapidly in recent years, which has greatly promoted the advancement of intelligent fault diagnosis. Most currently available CNN-based diagnostic models are developed under the presumption that the acquired mechanical signals are invulnerable to noise. However, transmission systems usually operate under fluctuating conditions (e.g., variable speed and strong noise scenarios), making the fault-related pulse information in the mechanical signal easily swamped by noise. Therefore, it is challenging for these existing approaches to achieve satisfactory results in industrial scenarios. To deal with this problem, an online knowledge distillation-based multiscale threshold denoising network (OKD-MTDN) is developed in this research work. The main innovations and contributions of this research work include: 1) introducing a novel convolutional module, called the Multiscale Convolutional Module (MCM), alongside a Global Attention Module (GAM), for extracting a range of discriminative features generated from mechanical signals; 2) designing a multi-dilated threshold denoising module (MTDM) to expand the receptive field and filter out interference features; 3) establishing an online knowledge distillation (OKD) algorithm to improve the generalization capability of OKD-MTDN. The hF-MS planetary gearbox dataset and the real-running high-speed rail dataset is utilized to verify the effectiveness of the proposed method. Experimental results show that the developed OKD-MTDN can achieve satisfactory results in various nonstationary scenarios.

Published
2023

6. Robust Magnetoelectric Effect in Decorated Graphene/In2Se3 Heterostructure

Author

Shang, J., Tang, X., Gu, Y., (0000-0003-0074-7588) Krasheninnikov, A., Picozzi, S., Chen, C., Kou, L., Shang, J., Tang, X., Gu, Y., (0000-0003-0074-7588) Krasheninnikov, A., Picozzi, S., Chen, C., and Kou, L.

Abstract

The magnetoelectric effect is a fundamental physical phenomenon that synergizes electric and magnetic degrees of freedom to generate distinct material responses like electrically tuned magnetism, which serves as a key foundation of the emerging field of spintronics. Here, we show by first-principles studies that ferroelectric (FE) polarization of an In2Se3 monolayer can modulate the magnetism of an adjacent transition-metal (TM)-decorated graphene layer via a ferroelectrically induced electronic transition. The TM nonbonding d-orbital shifts downward and hybridizes with carbon-p states near the Fermi level, suppressing the magnetic moment, under one FE polarization, but on reversed FE polarization this TM d-orbital moves upward, restoring the original magnetic moment. This finding of robust magnetoelectric effect in the TM-decorated graphene/In2Se3 heterostructure offers powerful insights and a promising avenue for experimental exploration of ferroelectrically controlled magnetism in two-dimensional (2D) materials.

Published
2021

8. Strain robust spin gapless semiconductors/half-metals in transition metal embedded MoSe2 monolayer

Author

Yang, Q., Kou, L., Hu, X., Wang, Y., Lu, C., (0000-0003-0074-7588) Krasheninnikov, A., Sun, L., Yang, Q., Kou, L., Hu, X., Wang, Y., Lu, C., (0000-0003-0074-7588) Krasheninnikov, A., and Sun, L.

Abstract

The realization of spin gapless semiconductor (SGS) and half-metal (HM) behavior in two-dimensional (2D) transition metal (TM) dichalcogenides is highly desirable for their applications in spintronic devices. Here, using density functional theory calculations, we demonstrate that Fe, Co, Ni substitutional impurities can not only induce magnetism in MoSe2 monolayer, but also convert the semiconducting MoSe2 to SGS/HM system. We also study the effects of mechanical strain on the electronic and magnetic properties of the doped monolayer. We show that for all TM impurities we considered, the system exhibits the robust SGS/HM behavior regardless of biaxial strain values. Moreover, it is found that the magnetic properties of TM–MoSe2 can effectively be tuned under biaxial strain by controlling the spin polarization of the 3d orbitals of Fe, Co, Ni atoms. Our findings offer a new route to designing the SGS/HM properties and modulating magnetic characteristics of the TM–MoSe2 system and may also facilitate the implementation of SGS/HM behavior and realization of spintronic devices based on other 2D materials.

Published
2020

12. Enhanced sensitivity of MoSe2 monolayer for gas adsorption induced by electric field

Author

Ai, W., Kou, L., Hu, X., Wang, Y., Krasheninnikov, A., Sun, L., and Shen, X.

Subjects
first-principles calculations, 2D materials
Abstract

According to recent studies, gas sensors based on MoSe2 have better detection performance than graphene-based sensors, especially for N-based gas molecules, but the reason for that is not fully understood at the microscopic level. Here, we investigate the adsorption of CO, CO2, NH3, NO and NO2 gas molecules on MoSe2 monolayer by the density functional theory calculations. Our results reveal that indeed MoSe2 monolayer is more sensitive to adsorption of N-containing gas molecules than C-containing, which can be attributed to the distinct charge transfer between the gas molecules and MoSe2. The conductance was further calculated using the nonequilibrium Green's function (NEGF) formalism. The reduced conductance was found for NH3 and NO2 adsorbed MoSe2, consistent with the high sensitivity of MoSe2 for NH3 and NO2 molecules in the recent experiments. In addition, the adsorption sensitivity can significantly be improved by an external electric field, which implies the controllable gas detection by MoSe2. The magnetic moments of adsorbed NO and NO2 molecules can also be effectively modulated by the field-sensitive charge transfer. Our results not only give microscopic explanations to the recent experiments, but also suggest using MoSe2 as a promising material for controlled gas sensing.

Published
2019

14. Synergistic effect of alloying elements doping and external pressure on the elastic property of Ni3Al: A first-principles study

Author

Li, C, Shang, J, Kou, L, Yue, Z, Li, C, Shang, J, Kou, L, and Yue, Z

Abstract

© 2015 Author(s). In this paper, the basic electronic structures and elastic properties of Ni3Al doping with alloying elements (Re, Cr, and Mo) under different pressures have been investigated using first-principles calculations based on density functional theory. It is shown that both alloying elements and external applied pressure contribute positively to the elastic properties of Ni3Al, and the configurations of the compounds remain almost unchanged. The calculated elastic constants and moduli increase linearly with the pressure increasing from 0 and 40 GPa. Among the alloying elements studied in the present work, Re exhibits the most significant effect compared with the other elements, showing its practical importance. Especially, if both alloying elements doping and pressure effects are considered simultaneously, which has not been considered previously, the studied compounds exhibit an even better elastic property than the simple superposition of the two influences. Such synergistic effect demonstrates promising applications of Ni-based single crystal superalloys in possible extreme mechanical environments.

Published
2015

15. Synergistic effect of alloying elements doping and external pressure on the elastic property of Ni3Al: A first-principles study

Author

Li, C., Shang, J., Kou, L., Yue, Z., Li, C., Shang, J., Kou, L., and Yue, Z.

Abstract

In this paper, the basic electronic structures and elastic properties of Ni3Al doping with alloying elements (Re, Cr, and Mo) under different pressures have been investigated using first-principles calculations based on density functional theory. It is shown that both alloying elements and external applied pressure contribute positively to the elastic properties of Ni3Al, and the configurations of the compounds remain almost unchanged. The calculated elastic constants and moduli increase linearly with the pressure increasing from 0 and 40 GPa. Among the alloying elements studied in the present work, Re exhibits the most significant effect compared with the other elements, showing its practical importance. Especially, if both alloying elements doping and pressure effects are considered simultaneously, which has not been considered previously, the studied compounds exhibit an even better elastic property than the simple superposition of the two influences. Such synergistic effect demonstrates promising applications of Ni-based single crystal superalloys in possible extreme mechanical environments.

Published
2015

22. Antimicrobial Cellulose: Preparation and Application of 5-Methyl-5-Aminomethylhydantoin

Author

AUBURN UNIV AL DEPT OF CHEMISTRY, Kou, L., Liang, J., Worley, S. D., Lee, J., Broughton, R. M., Huang, T. S., AUBURN UNIV AL DEPT OF CHEMISTRY, Kou, L., Liang, J., Worley, S. D., Lee, J., Broughton, R. M., and Huang, T. S.

Abstract

A new N-halamine precursor, 5-methyl-5-aminomethylhydantoin (AH), was synthesized. This N-halamine precursor can be coated onto cotton surfaces with addition of the cross-linking agent butanetetracarboxylic acid (BTCA) and rendered biocidal by exposure to halogen solutions either before or after curing the coating or material. Standard washing tests show that covalently bound AH/BTCA on the cotton swatches can survive repeated washing cycles. After 50 washing cycles, chlorinated cotton swatches had lost 98.7% of oxidative C1+, but after rechlorination, almost 43.5% of C1+ was regained. Biocidal tests indicated that the cotton swatches coated with chlorinated AB/BTCA were effective against Gram positive Staphyloccus aureus and Gram negative Escherichil coli., Submitted for publication in the research Journal of Textiles and Apparel.

Published
2006

23. Synergistic effect of alloying elements doping and external pressure on the elastic property of Ni3Al: A first-principles study.

Author

Li, C., Shang, J., Kou, L., and Yue, Z.

Subjects
ELASTICITY, ELECTRONIC structure, DENSITY functional theory, HEAT resistant alloys, SINGLE crystals
Abstract

In this paper, the basic electronic structures and elastic properties of Ni3Al doping with alloying elements (Re, Cr, and Mo) under different pressures have been investigated using first-principles calculations based on density functional theory. It is shown that both alloying elements and external applied pressure contribute positively to the elastic properties of Ni3Al, and the configurations of the compounds remain almost unchanged. The calculated elastic constants and moduli increase linearly with the pressure increasing from 0 and 40 GPa. Among the alloying elements studied in the present work, Re exhibits the most significant effect compared with the other elements, showing its practical importance. Especially, if both alloying elements doping and pressure effects are considered simultaneously, which has not been considered previously, the studied compounds exhibit an even better elastic property than the simple superposition of the two influences. Such synergistic effect demonstrates promising applications of Ni-based single crystal superalloys in possible extreme mechanical environments. [ABSTRACT FROM AUTHOR]

Published
2015
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28. Evaluation and driving force analysis of ecological environment in low mountain and hilly regions based on optimized ecological index.

Author

Wang X, Wang X, Jin X, Kou L, and Hou Y

Subjects
China, Conservation of Natural Resources, Remote Sensing Technology, Environmental Monitoring methods, Ecology, Ecosystem
Abstract

In low mountain and hilly regions, vegetation cover is higher and plant growth has an accumulative effect, sequestering carbon more strongly. The traditional remote sensing based ecological index (RSEI) lacks the consideration of vegetation productivity, and using it to evaluate ecological environment in low mountain and hilly regions will be biased. In this study, the vegetation productivity was introduced to construct a natural remote sensing based ecological index (NRSEI) that responds to the low mountain and hilly regions, as an example of Gaizhou City, China. Additionally, this study explored the spatiotemporal evolution of ecological environment quality from 2014 to 2020 and quantified the influences of factors. The results show that the first principal component (PC1) increased from 56 to 67% to 65-87% and considered the accumulation process in the ecosystem. NRSEI was more valid. From 2014 to 2020, the quality of the ecological environment generally declined and then increased. The area with "Excellent" increased from 23 to 38%. The quality of ecosystems in the west, northwest, and south deteriorated significantly, a distribution pattern of "high in the center, low in the north and south". Landuse and topographic conditions dominate the impacts on the ecosystem in the context of social, economic and policy influences. The interactions of the factors were two-factor enhancement that together affect the ecological environment. The results contribute to the development of urban conservation policies in low mountain and hilly regions., (© 2024. The Author(s).)

Published
2024
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29. Stable triangle: nanomedicine-based synergistic application of phototherapy and immunotherapy for tumor treatment.

Author

Cai W, Sun T, Qiu C, Sheng H, Chen R, Xie C, Kou L, and Yao Q

Subjects
Humans, Combined Modality Therapy, Animals, Drug Delivery Systems methods, Nanoparticle Drug Delivery System chemistry, Immunotherapy methods, Neoplasms therapy, Nanomedicine methods, Phototherapy methods
Abstract

In recent decades, cancer has posed a challenging obstacle that humans strive to overcome. While phototherapy and immunotherapy are two emerging therapies compared to traditional methods, they each have their advantages and limitations. These limitations include easy metastasis and recurrence, low response rates, and strong side effects. To address these issues, researchers have increasingly focused on combining these two therapies by utilizing a nano-drug delivery system due to its superior targeting effect and high drug loading rate, yielding remarkable results. The combination therapy demonstrates enhanced response efficiency and effectiveness, leading to a preparation that is highly targeted, responsive, and with low recurrence rates. This paper reviews several main mechanisms of anti-tumor effects observed in combination therapy based on the nano-drug delivery system over the last five years. Furthermore, the challenges and future prospects of this combination therapy are also discussed., (© 2024. The Author(s).)

Published
2024
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30. Comprehensive comorbidity assessment for the ECOPD: a long-term multi-centre retrospective study.

Author

Lian H, Kou L, Han X, Rui Z, Dong S, Zhang X, Zhao L, Yue Q, Hou X, and Cai B

Subjects
Humans, Male, Female, Retrospective Studies, Aged, Middle Aged, China epidemiology, Disease Progression, Hospital Costs statistics & numerical data, Logistic Models, Risk Factors, Aged, 80 and over, Pulmonary Disease, Chronic Obstructive epidemiology, Comorbidity, Patient Readmission statistics & numerical data, Length of Stay statistics & numerical data
Abstract

Background: Exacerbation of chronic obstructive pulmonary disease (ECOPD) results in severe adverse outcomes and mortality. It is often associated with increased local and systemic inflammation. However, individual susceptibility to exacerbations remains largely unknown. Our study aimed to investigate the association between comorbidities and exacerbation outcomes., Methods: We included patients with the primary discharge diagnosis of exacerbation for more 10 years in China. Data on all comorbidities were collected and analysed to determine the impact of the comorbidities on 1-year exacerbation readmission, length of hospital stay, and hospital cost. Univariable and multivariable logistic regression analyses were performed, and predictive models were developed., Results: This extensive investigation evaluated a total of 15,708 individuals from five prominent locations in China, revealing notable variations in the prevalence of comorbidities and healthcare expenses among different regions. The study shows that there is a high rate of readmission within one year, namely 15.8%. The most common conditions among readmitted patients are hypertension (38.6%), ischemic heart disease (16.9%), and diabetes mellitus (16.6%). An extensive multivariable study revealed that age, gender, and particular comorbidities such as malnutrition and hyperlipidemia are important factors that can significantly predict greater readmission rates, longer hospital stays or increased healthcare costs. The multivariable models show a moderate to good ability to predict patient outcomes, with concordance index ranging from 0.701 to 0.752. This suggests that targeted interventions in these areas could improve patient outcomes and make better use of healthcare resources., Conclusions: The results regarding the association between severe exacerbations and systemic disease status support the integration of systematic evaluation of comorbidities into the management of exacerbations and the intensification of treatment of important comorbidities as a appropriate measure for prevention of further exacerbations. Our models also provide a novel tool for clinicians to determine the risk of the 1-year recurrence of severe ECOPD in hospitalised patients., (© 2024. The Author(s).)

Published
2024
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31. Enhancing retention and permeation of rapamycin for osteoarthritis therapy using a two-stage drug delivery system.

Author

Lin G, Huang H, Sun M, He Z, Li S, Liang X, Yan Y, Qiu C, Li S, Zhao X, Zhu W, Kou L, and Chen R

Abstract

Osteoarthritis (OA) remains a challenging degenerative joint disease, largely associated with chondrocyte apoptosis during its development. Preserving chondrocytes stands as a promising strategy for OA treatment. Rapamycin (RP) exhibits chondrocyte protection by fostering autophagy. Nevertheless, the swift clearance of intra-articular injections and the dense cartilage extracellular matrix (ECM) hinder RP from effectively reaching chondrocytes. Herein, we developed a "two-stage" drug delivery system (RP@PEG-PA@P-Lipo). This system comprises primary nanoparticles (P-Lipo), liposomes modified with a collagen II targeting peptide (WYRGRLC), and secondary nanoparticles (RP@PEG-PA), PEG-modified PAMAM encapsulating rapamycin (RP). RP@PEG-PA@P-Lipo demonstrates adherence to the cartilage surface with WYRGRLC, substantially prolonging retention within the joint cavity. Subsequently, released RP@PEG-PA can effectively penetrate the cartilage and deliver RP to chondrocytes through small size and charge-driven forces. In vitro and in vivo experiments corroborate its notable therapeutic effects on OA. This study holds promise in offering a novel approach for clinical drug delivery and OA treatment., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published
2024
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32. Photothermal nanocomposite reactivate "immune-hot" for triple-negative breast cancer treatment via glutamine metabolism reprograming.

Author

Cheng Y, Hou Y, Ye Z, Qiu C, Li S, Li L, Lin Y, Chen N, Yao Y, Jiang Z, Zhu W, Wu F, Zhang Y, Kou L, and Chen R

Abstract

Herein, a photothermal nanocomposite PAI@CB839 nanoparticles (NPs) was constructed to perform a heat-immune therapy for triple-negative breast cancer (TNBC). Firstly, a photothermal agent animated IR780 was modified on a mPEG-NH 2 using 4,4'-dicarboxylazobenzene as a linker. The synthesized PAI exhibited superior photothermal efficiency of the IR780 even after assembling in water. As a functional carrier, PAI was used to load and deliver the glutaminase inhibitor CB839 to tumor tissue. In the hypoxic environment of tumor cells, the azo bond would break, triggering the release of cargo. Upon irradiation, the outstanding photothermal properties of IR780 resulted in tumor cell damage. This process could promote immunogenic cell death and program tumor to "immune-hot" condition. Concurrently, CB839 strengthened the antitumor immune response by remodulating the immunosuppressive TME through disturbing Glu abnormal metabolism, which further inhibited TNBC growth and metastasis. In conclusion, PAI@CB839 NPs exhibited great antitumor efficiency, which pave a new way for TNBC therapeutic regimen development., Competing Interests: Declaration of Competing Interest The authors declare that no conflict of interest., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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33. MicroRNA-199a-5p attenuates blood-brain barrier disruption following ischemic stroke by regulating PI3K/Akt signaling pathway.

Author

Ni G, Kou L, Duan C, Meng R, and Wang P

Subjects
Animals, Male, Rats, Infarction, Middle Cerebral Artery metabolism, Infarction, Middle Cerebral Artery genetics, Infarction, Middle Cerebral Artery pathology, Apoptosis, Vascular Endothelial Growth Factor A metabolism, Vascular Endothelial Growth Factor A genetics, Brain Ischemia metabolism, Brain Ischemia genetics, Brain Ischemia pathology, MicroRNAs genetics, MicroRNAs metabolism, Blood-Brain Barrier metabolism, Proto-Oncogene Proteins c-akt metabolism, Signal Transduction, Rats, Sprague-Dawley, Ischemic Stroke metabolism, Ischemic Stroke genetics, Ischemic Stroke pathology, Phosphatidylinositol 3-Kinases metabolism
Abstract

Objective: To explore whether miR-199a-5p regulated BBB integrity through PI3K/Akt pathway after ischemia stroke., Methods: Adult male Sprague-Dawley rats with permanent middle cerebral artery occlusion(MCAO) were used in experiment. The Ludmila Belayev 12-point scoring was used to measure the neurological function of MCAO rats. The Evans Blue Stain, immunofluorescence staining, western-blotting and RT-PCR were performed to evaluate the effects of miR-199a-5p mimic on BBB integrity in rats following MCAO., Results: The result suggested that miR-199a-5p mimic treatment possessed the potential to boost proprioception and motor activity of MCAO rats. MiR-199a-5p decreased the expression of PIK3R2 after MCAO, activated Akt signaling pathway, and increased the expression of Claudin-5 and VEGF in the ischemic penumbra. Furthermore, miR-199a-5p alleviated inflammation after cerebral ischemia. BBB leakage and neurocyte apoptosis were cut down in MCAO rats treated with miR-199a-5p mimic., Conclusions: MiR-199a-5p mimic decreased the expression of PIK3R2 and activated Akt signaling pathway after ischemia stroke, reduced the expression of inflammatory cytokines, and attenuated BBB disruption after ischemic stroke., Competing Interests: All authors declare that they have no conflicts of interest to report., (Copyright: © 2024 Ni et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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34. The mechanism and consequences of amyloid-β modulating thiamine pyrophosphokinase-1 expression in microglia.

Author

Cheng X, Zhao R, Qiu H, Song P, Kou L, Sang S, Xia Y, Cai W, Jin B, Huang Q, Yuan P, and Zhong C

Abstract

Ample studies attribute cognitive decline in Alzheimer's disease to amyloid-β deposition 1-6 . However, brain amyloid-β accumulation that saturates years before the manifestation of clinical symptoms is dissociated with cognitive decline of the disease 7 . It is unknown how these two processes are mechanistically linked. In this and our accompanied study, we report that thiamine pyrophosphokinase-1 (TPK) deficiency plays essential roles in both processes via distinct mechanisms. Here we describe that diminished microglia Tpk controls the propagation of amyloid-β plaques. In APP/PS1 transgenic mice, microglia showed elevated Tpk expression at 2-month-old, but reduction in a plaque-centric manner at 8-month-old. Interestingly, lipopolysaccharide, but not amyloid-β, induceed Tpk reduction in cultured microglia. Tpk reduction led to microglia dysfunction, showing volatile motility but reduced phagocytosis and weak response to focal tissue injury, with accumulation of intracellular lipid droplets and abnormal mitochrondria. In Alzheimer's disease mice, microglia-specific knockout of Tpk caused diminished plaque coverage, exacerbated plaque burden and synaptic loss. However, increased plaques were not accompanied by the development of neurofibrillary tangles or brain atrophy, in contrast to the phenotype described in our accompanied paper with neuronal Tpk deletion. In conclusion, plaque-induced inflammation reduces Tpk in microglia, selectively exacerbating the spread of amyloid pathology.

Published
2024
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35. Supramolecular nanoparticle loaded with bilirubin enhances cartilage protection and alleviates osteoarthritis via modulating oxidative stress and inflammatory responses.

Author

Zhao X, Huang H, Jiang X, Zheng S, Qiu C, Cheng Y, Lin Y, Wang Y, Yan Y, Di X, Hu M, Zhu W, Wu F, Shi X, Chen R, and Kou L

Abstract

Osteoarthritis (OA) is a chronic inflammation that gradually leads to cartilage degradation. Prolonged chondrocyte oxidative stress contributes to the development of diseases, including chondrocyte apoptosis, cartilage matrix degradation, and aggravation of articular cartilage damage. Bilirubin (BR) possesses strong antioxidant properties by scavenging reactive oxygen species (ROS) and potent protection effects against inflammation. However, its insolubility and short half-life limit its clinical use. Therefore, we developed a supramolecular system of ε-polylysine (EPL) conjugated by β-cyclodextrin (β-CD) on the side chain, and bilirubin was loaded via host-guest interactions, which resulted in the self-assemble of this system into bilirubin-loaded polylysine-β-cyclodextrin nanoparticle (PB) with improving solubility while reducing toxicity and prolonging medication action time. To explore PB's potential pharmacological mechanisms on OA, we established in vitro and in vivo OA models. PB exerted ROS-scavenging proficiency and anti-apoptotic effects on rat chondrocytes by activating the Nrf2-HO-1/GPX4 signaling pathway. Additionally, PB reprogrammed the cartilage microenvironment by regulating the NF-κB signaling pathway to maintain chondrocyte function. Animal experiments further confirmed that PB had excellent scavenging ability for ROS and inflammatory factors related to charge adsorption with cartilage as well as long retention ability. Together, this work suggests that PB has superior protective abilities with beneficial effects on OA, indicating its great potential for intervention therapy targeting chondrocytes., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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36. High catalytic activity and abundant active sites in M 2 C 12 monolayer for nitrogen reduction reaction.

Author

Li SL, Chen Y, Tian G, Kou L, Qiao L, Zhao Y, and Gan LY

Abstract

Developing highly efficient single-atom catalysts (SACs) for the nitrogen reduction reaction (NRR) to ammonia production has garnered significant attention in the scientific community. However, achieving high activity and selectivity remains challenging due to the lack of innate activity in most existing catalysts or insufficient active site density. This study delves into the potential of M 2 C 12 materials (M = Cr, Ir, Mn, Mo, Os, Re, Rh, Ru, W, Fe, Cu, and Ti) with high transition metal coverage as SACs for NRR using first-principles calculations. Among these materials, Os 2 C 12 exhibited superior catalytic activity for NRR, with a low overpotential of 0.39 V and an Os coverage of up to 72.53 wt%. To further boost its catalytic activity, a nonmetal (NM) atom doping (NM = B, N, O, and S) and C vacancy modification were explored in Os 2 C 12 . It is found that the introduction of O enables exceptional catalytic activity, selectivity, and stability, with an even lower overpotential of 0.07 V. Incorporating the O atom disrupted the charge balance of its coordinating C atoms, effectively increasing the positive charge density of the Os-d-orbit-related electronic structure. This promoted strong d-π* coupling between Os and N 2 H, enhancing N 2 H adsorption and facilitating NRR processes. This comprehensive study provides valuable insights into NRR catalyst design for sustainable ammonia production and offers a reference for exploring alternative materials in other catalytic reactions., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Inc.)

Published
2024
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37. Public Behavior and Emotion Correlation Mining Driven by Aspect From News Corpus.

Author

Wang X, Chang Y, Kou L, Luo X, and Zhang H

Abstract

Emotion motivates behavior. Investigating the correlation between behavior and emotion, an often overlooked perspective, plays a significant role in uncovering the underlying motives behind behaviors and the intrinsic cause-effects of social events. This article proposes a methodology for mining the correlation between public behavior and emotion using daily news data. Initially, aspect-emotion-reaction (A-E-R) triplets are extracted and generalized, encompassing both explicit and implicit patterns. Then, a knowledge representation model based on hypothetical context (KRHC) with a self-reflection mechanism is proposed to uncover implicit relationships between emotion and behavior through attention mechanisms. By combining rule-based methods for explicit relationships and deep learning for implicit ones, an understanding of emotion-behavior patterns is achieved. In this study, the behaviors are divided into three categories of prosocial, antisocial, and normal behaviors with ten secondary types. Seven categories of emotions are adopted. The proposed deep learning model KRHC is validated on A-E-R datasets and public KINSHIP datasets. The experiment results are concluded; for example, when "fear", "sad", and "surprise" emotions appear, it drives behavior "panic" with most probability. These findings could provide insights for both human-computer interaction and public safety management applications.

Published
2024
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39. Associations of dietary pattern, insulin resistance and risk of developing metabolic syndrome among Chinese population.

Author

Kou L, Sun J, Wu P, Cheng Z, Zhou P, Li N, Cheng L, Xu P, Xue Y, Tian J, and Chen W

Subjects
Humans, Female, Male, Middle Aged, China epidemiology, Adult, Risk Factors, Aged, Nutrition Surveys, Feeding Behavior, Dietary Patterns, East Asian People, Metabolic Syndrome epidemiology, Insulin Resistance, Diet adverse effects
Abstract

Evidence regarding the role of dietary patterns in metabolic syndrome (MetS) is limited. The mechanistic links between dietary patterns, insulin resistance, and MetS are not fully understood. This study aimed to evaluate the associations between dietary patterns and the risk of MetS in a Chinese population using a longitudinal design. Data from the China Health and Nutrition Survey, a nationally representative survey, were analyzed. MetS cases were identified based on biomarker data collected in 2009. Factor analysis was employed to identify dietary patterns, while logistic regression models were utilized to examine the association between dietary patterns and MetS. Mediation models were applied to assess multiple mediation effects. Two dietary patterns were revealed by factor analysis. Participants in the higher quartiles of the traditional Chinese dietary pattern had lower odds of MetS than those in the lowest quartile (Q1) (OR = 0.58, 95%CI: 0.48, 0.69 for Q4; OR = 0.75, 95%CI: 0.63, 0.89 for Q3). Conversely, participants in the higher quartiles of the modern Chinese dietary pattern had higher odds of MetS compared to those in the lowest quartile (Q1) (OR = 1.40, 95%CI: 1.17, 1.68 for Q4; OR = 1.27, 95%CI: 1.06, 1.52 for Q3). Significant associations between dietary patterns and MetS were mediated by insulin resistance. Therefore, dietary patterns in Chinese adults are associated with MetS, and these associations appear to be mediated through insulin resistance. These findings underscore the critical role of dietary patterns in the development of MetS and establish a foundation for culturally tailored dietary interventions aimed at reducing rates the prevalence of MetS among Chinese adults., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Kou et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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40. Potential roles of IL-38, among other inflammation-related biomarkers, in predicting post-percutaneous coronary intervention cardiovascular events.

Author

Kou L, Yang N, Dong B, and Qin Q

Abstract

Percutaneous coronary intervention (PCI), as a relatively rapid and effective minimally invasive treatment for coronary heart disease (CHD), can effectively relieve coronary artery stenosis and restore myocardial perfusion. However, the occurrence of major adverse cardiovascular events (MACE) is a significant challenge for post PCI care. To better understand risk/benefit indicators and provide post PCI MACE prediction, 408 patients with CHD who had undergone PCI treatment from 2018 to 2021 in Tianjin Chest hospital were retrospectively studied for their clinical characteristics in relation with the MACE occurrence during a 12-month follow-up. In the study, 194 patients had MACE and 214 patients remained MACE-free. Using uni- and multivariate regression analyses, we have shown that smoking history, elevated serum C-reactive protein levels (hs-CRP), and high haemoglobin levels A1c (HbA1c) are all independent risk factors for MACE after PCI. Furthermore, we have discovered that the serum level of IL-38, one of the latest members identified in the IL-1 cytokine family, is another predictive factor and is reversely related to the occurrence of MACE. The serum level of IL-38 alone is capable of predicting non-MACE occurrence in subcategorized patients with abnormal levels of hs-CRP and/or HbA1c., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (© 2024 Kou, Yang, Dong and Qin.)

Published
2024
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41. Photosynthesis regulates tillering bud elongation and nitrogen-use efficiency via sugar-induced NGR5 in rice.

Author

Wen R, Zhu M, Yu J, Kou L, Ahmad S, Wei X, Jiao G, Hu S, Sheng Z, Zhao F, Tang S, Shao G, Yu H, and Hu P

Subjects
Sucrose metabolism, Sucrose pharmacology, Sugars metabolism, Mutation genetics, Genes, Plant, Phenotype, Plant Leaves drug effects, Plant Leaves metabolism, Plant Leaves growth & development, Plant Shoots growth & development, Plant Shoots drug effects, Plant Shoots metabolism, Oryza genetics, Oryza growth & development, Oryza drug effects, Oryza metabolism, Photosynthesis drug effects, Nitrogen metabolism, Nitrogen pharmacology, Plant Proteins metabolism, Plant Proteins genetics, Gene Expression Regulation, Plant drug effects
Abstract

Rice tillering is one of the most important agronomical traits largely determining grain yield. Photosynthesis and nitrogen availability are two important factors affecting rice tiller bud elongation; however, underlying mechanism and their cross-talk is poorly understood. Here, we used map-based cloning, transcriptome profiling, phenotypic analysis, and molecular genetics to understand the roles of the Decreased Tiller Number 1 (DTN1) gene that encodes the fructose-1,6-bisphosphate aldolase and involves in photosynthesis required for light-induced axillary bud elongation in rice. Deficiency of DTN1 results in the reduced photosynthetic rate and decreased contents of sucrose and other sugars in both leaves and axillary buds, and the reduced tiller number in dtn1 mutant could be partially rescued by exogenous sucrose treatment. Furthermore, we found that the expression of nitrogen-mediated tiller growth response 5 (NGR5) was remarkably decreased in shoot base of dtn1-2, which can be activated by sucrose treatment. Overexpression of NGR5 in the dtn1-2 could partially rescue the reduced tiller number, and the tiller number of dtn1-2 was insensitive to nitrogen supply. This work demonstrated that the sugar level regulated by photosynthesis and DTN1 could positively regulate NGR5 expression, which coordinates the cross-talk between carbon and nitrate to control tiller bud outgrowth in rice., (© 2024 The Authors. New Phytologist © 2024 New Phytologist Foundation.)

Published
2024
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42. A ternary system of meloxicam with matching hydrophilic polymer and cyclodextrin for improved stability in liquid preprations.

Author

Li S, Kou L, Qin Y, Wang Y, Sun Y, He Z, and Liu X

Abstract

The purpose of the study is to investigate the effect of ternary systems consisting of meloxicam with cyclodextrins (HP-β-CD or SBE-β-CD) and different polymers (HA, HPMC and PVP) on the stability of meloxicam. The t 0.9 values of meloxicam were determined within all the aforementioned systems and the influence of various polymers on the alteration in meloxicam's stability was evaluated. All three polymers altered the stability of meloxicam to varying degrees, with the extent of the effect being related to hydrophilicity, concentration of components, and the interaction of the newly formed ternary system. Among them, meloxicam demonstrated its highest degree of stabilization within the ternary system formed by SBE-β-CD&HPMC and HP-β-CD&HA. We characterized the ternary system of meloxicam using differential scanning calorimetry (DSC), X-ray diffraction, and scanning electron microscopy analysis, which determined the presence of ternary system inclusions. In addition, we investigated the optimized prescription of eye drops of meloxicam using the ternary system and further determined that the ternary system improved the stability of the drug in liquid formulations., Competing Interests: The authors have no relevant financial or non-financial interests to disclose., (This journal is © The Royal Society of Chemistry.)

Published
2024
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43. EⅡB Mutation Reduces the Pathogenicity of Listeria monocytogenes by Negatively Regulating Biofilm Formation Ability, Infective Capacity, and Virulence Gene Expression.

Author

Liu C, Qian R, Shi W, Kou L, Wang J, Ma X, Ren H, Gao S, and Ren J

Abstract

To explore the role of the membrane permease ⅡB (EⅡB) gene of Listeria pathogenicity island 4 (LIPI-4) in the virulence of Listeria monocytogenes , both an EⅡB deletion strain (∆EⅡB) and a complemented strain were constructed. In vitro experiments demonstrated that EⅡB deletion affected the biofilm formation ability of the wild-type strain (Lm928). Moreover, this deletion decreased the intracellular proliferation abilities of L. monocytogenes . Mice infected with ∆EⅡB survived longer and experienced less weight loss on days 1, 2, and 3 post-infection. The bacterial load in the liver tissue of ∆EⅡB-infected mice was significantly reduced, and a considerable decrease in the blood levels of inflammatory cytokines IL-β, IL-6, IL-10, and TNF-α were observed. Following EⅡB deletion, 65% (13/20) of genes were downregulated, 25% (5/20) were upregulated, and 10% (2/20) showed no change. These findings suggest that EⅡB deletion may reduce both the in vivo and in vitro virulence levels as well as the biofilm formation ability of Lm928 by downregulating the transcription levels of genes associated with virulence and biofilm formation. These findings provide a foundation for further examining the pathogenic mechanisms of LIPI-4 and EⅡB in L. monocytogenes .

Published
2024
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44. Biofilm Formation, Motility, and Virulence of Listeria monocytogenes Are Reduced by Deletion of the Gene lmo0159 , a Novel Listerial LPXTG Surface Protein.

Author

Shi W, Zhang Q, Li H, Du D, Ma X, Wang J, Jiang J, Liu C, Kou L, and Ren J

Abstract

Listeria monocytogenes ( L. monocytogenes ) is a foodborne pathogen that causes listeriosis in humans and other animals. Surface proteins with the LPXTG motif have important roles in the virulence of L. monocytogenes . Lmo0159 is one such protein, but little is known about its role in L. monocytogenes virulence, motility, and biofilm formation. Here, we constructed and characterized a deletion mutant of lmo0159 (∆ lmo0159 ). We analyzed not only the capacity of biofilm formation, motility, attachment, and intracellular growth in different cell types but also LD 50 ; bacterial load in mice's liver, spleen, and brain; expression of virulence genes; and survival time of mice after challenge. The results showed that the cross-linking density of the biofilm of ∆ lmo0159 strain was lower than that of WT by microscopic examination. The expression of biofilm-formation and virulence genes also decreased in the biofilm state. Subsequently, the growth and motility of ∆ lmo0159 in the culture medium were enhanced. Conversely, the growth and motility of L. monocytogenes were attenuated by ∆ lmo0159 at both the cellular and mouse levels. At the cellular level, ∆ lmo0159 reduced plaque size; accelerated scratch healing; and attenuated the efficiency of adhesion, invasion, and intracellular proliferation in swine intestinal epithelial cells (SIEC), RAW264.7, mouse-brain microvascular endothelial cells (mBMEC), and human-brain microvascular endothelial cells (hCMEC/D3). The expression of virulence genes was also inhibited. At the mouse level, the LD 50 of the ∆ lmo0159 strain was 10 0.97 times higher than that of the WT strain. The bacterial load of the ∆ lmo0159 strain in the liver and spleen was lower than that of the WT strain. In a mouse model of intraperitoneal infection, the deletion of the lmo0159 gene significantly prolonged the survival time of the mice, suggesting that the lmo0159 deletion mutant also exhibited reduced virulence. Thus, our study identified lmo0159 as a novel virulence factor among L. monocytogenes LPXTG proteins.

Published
2024
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45. Enhancing oocyte in vitro maturation and quality by melatonin/bilirubin cationic nanoparticles: A promising strategy for assisted reproduction techniques.

Author

Xi H, Huang L, Qiu L, Li S, Yan Y, Ding Y, Zhu Y, Wu F, Shi X, Zhao J, Chen R, Yao Q, and Kou L

Abstract

In assisted reproduction techniques, oocytes encounter elevated levels of reactive oxygen species (ROS) during in vitro maturation (IVM). Oxidative stress adversely affects oocyte quality, hampering their maturation, growth, and subsequent development. Thus, mitigating excessive ROS to safeguard less viable oocytes during IVM stands as a viable strategy. Numerous antioxidants have been explored for oocyte IVM, yielding considerable effects; however, several aspects, including solubility, stability, and safety, demand attention and resolution. In this study, we developed nanoparticles by self-assembling endogenous bilirubin and melatonin hormone coated with bilirubin-conjugated glycol chitosan (MB@GBn) to alleviate oxidative stress and enhance oocyte maturation. The optimized MB@GBn exhibited a uniform spherical shape, measuring 128 nm in particle size, with a PDI value of 0.1807 and a surface potential of +11.35 mV. The positively charged potential facilitated nanoparticle adherence to the oocyte surface through electrostatic interaction, allowing for functional action. In vitro studies demonstrated that MB@GB significantly enhanced the maturation of compromised oocytes. Further investigation revealed MB@GB's effectiveness in scavenging ROS, reducing intracellular calcium levels, and suppressing mitochondrial polarization. This study not only offers a novel perspective on nano drug delivery systems for biomedical applications but also presents an innovative strategy for enhancing oocyte IVM., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Authors.)

Published
2024
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46. A trait-based root acquisition-defence-decomposition framework in angiosperm tree species.

Author

Zheng J, Freschet GT, Tedersoo L, Li S, Yan H, Jiang L, Wang H, Ma N, Dai X, Fu X, and Kou L

Subjects
Plant Roots microbiology, Plant Roots metabolism, Mycorrhizae physiology, Symbiosis, Trees microbiology, Trees metabolism, Magnoliopsida microbiology, Magnoliopsida metabolism
Abstract

To adapt to the complex belowground environment, plants make trade-offs between root resource acquisition and defence ability. This includes forming partnerships with different types of root associating microorganisms, such as arbuscular mycorrhizal and ectomycorrhizal fungi. These trade-offs, by mediating root chemistry, exert legacy effects on nutrient release during decomposition, which may, in turn, affect the ability of new roots to re-acquire resources, thereby generating a feedback loop. However, the linkages at the basis of this potential feedback loop remain largely unquantified. Here, we propose a trait-based root 'acquisition-defence-decomposition' conceptual framework and test the strength of relevant linkages across 90 angiosperm tree species. We show that, at the plant species level, the root-fungal symbiosis gradient within the root economics space, root chemical defence (condensed tannins), and root decomposition rate are closely linked, providing support to this framework. Beyond the dichotomy between arbuscular mycorrhizal-dominated versus ectomycorrhizal-dominated systems, we suggest a continuous shift in feedback loops, from 'high arbuscular mycorrhizal symbiosis-low defence-fast decomposition-inorganic nutrition' by evolutionarily ancient taxa to 'high ectomycorrhizal symbiosis-high defence-slow decomposition-organic nutrition' by more modern taxa. This 'acquisition-defence-decomposition' framework provides a foundation for testable hypotheses on multidimensional linkages between species' belowground strategies and ecosystem nutrient cycling in an evolutionary context., (© 2024. The Author(s).)

Published
2024
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47. Chemotherapy resistance in acute myeloid leukemia is associated with decreased anti-tumor immune response through MHC molecule and B7 family members.

Author

Ge J, Yin X, Sun X, Kou L, Xue X, and Ma J

Abstract

Acute myeloid leukemia (AML) remains challenging due to chemotherapeutic drug-resistance (CDR). Aberrant expression B7 family proteins are involved in tumors evasion. We wonder whether B7 family protein alteration in AML CDR further supports tumor escape. Here, we establish AML cytarabine-resistant cell line U937/Ara-C and report on the expression MHC molecule and B7 family member. HLA-ABC was highly expressed similarly on both cell lines. MIC (MHC class I chain related) A/B and B7-H6 was moderately expressed on the surface of U937 and decreased dramatically by U937/Ara-C. In contrast, enhanced expression of B7-H1 and B7-H7 by U937/Ara-C was observed. HLA-DR and other B7 family members including CD80, CD86, B7-DC, B7-H2, B7-H3, B7-H4, and B7-H5 were not detected by both cell lines. Compared co-cultured with U937, peripheral blood mononuclear cells showed a decreased cytotoxicity when incubated with U937/Ara-C, as indicated by decreased levels of granzyme B and perforin production, accompanied with less TNF-α and lactate dehydrogenase secretion. In conclusion, AML CDR further evades the anti-tumor immune response which may through MHC molecule and B7 family members., (© 2024. The Author(s).)

Published
2024
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48. Opsonization Inveigles Macrophages Engulfing Carrier-Free Bilirubin/JPH203 Nanoparticles to Suppress Inflammation for Osteoarthritis Therapy.

Author

Huang H, Zheng S, Wu J, Liang X, Li S, Mao P, He Z, Chen Y, Sun L, Zhao X, Cai A, Wang L, Sheng H, Yao Q, Chen R, Zhao YZ, and Kou L

Subjects
Animals, Rats, Male, Rats, Sprague-Dawley, Osteoarthritis immunology, Osteoarthritis drug therapy, Macrophages immunology, Macrophages drug effects, Macrophages metabolism, Nanoparticles, Disease Models, Animal, Inflammation immunology, Bilirubin pharmacology, Bilirubin metabolism
Abstract

Osteoarthritis (OA) is a chronic inflammatory disease characterized by cartilage destruction, synovitis, and osteophyte formation. Disease-modifying treatments for OA are currently lacking. Because inflammation mediated by an imbalance of M1/M2 macrophages in the synovial cavities contributes to OA progression, regulating the M1 to M2 polarization of macrophages can be a potential therapeutic strategy. Basing on the inherent immune mechanism and pathological environment of OA, an immunoglobulin G-conjugated bilirubin/JPH203 self-assembled nanoparticle (IgG/BRJ) is developed, and its therapeutic potential for OA is evaluated. After intra-articular administration, IgG conjugation facilitates the recognition and engulfment of nanoparticles by the M1 macrophages. The internalized nanoparticles disassemble in response to the increased oxidative stress, and the released bilirubin (BR) and JPH203 scavenge reactive oxygen species (ROS), inhibit the nuclear factor kappa-B pathway, and suppress the activated mammalian target of rapamycin pathway, result in the repolarization of macrophages and enhance M2/M1 ratios. Suppression of the inflammatory environment by IgG/BRJ promotes cartilage protection and repair in an OA rat model, thereby improving therapeutic outcomes. This strategy of opsonization involving M1 macrophages to engulf carrier-free BR/JPH203 nanoparticles to suppress inflammation for OA therapy holds great potential for OA intervention and treatment., (© 2024 The Authors. Advanced Science published by Wiley‐VCH GmbH.)

Published
2024
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49. Insect root feeders incur negative density-dependent damage across plant species in an alpine meadow.

Author

Kou L, Yang N, Yan H, Niklas KJ, and Sun S

Subjects
Animals, Population Density, Plants classification, Biomass, Species Specificity, Plant Roots physiology, Grassland, Herbivory, Insecta physiology
Abstract

Although herbivores are well known to incur positive density-dependent damage and mortality, thereby likely shaping plant community assembly, the response of belowground root feeders to changes in plant density has seldom been addressed. Locally rare plant species (with lower plant biomass per area) are often smaller with shallower roots than common species (with higher plant biomass per area) in competition-intensive grasslands. Likewise, root feeders are often distributed in the upper soil layers. We hypothesized, therefore, that root feeders would incur negative density (biomass)-dependent damage across plant species. To test this hypothesis, we investigated the diversity and abundance of plant and root feeder species in an alpine meadow and determined the diet of the root feeders using metabarcoding. Across all species, root feeder load decreased with increasing aboveground plant biomass, root biomass, and total plant biomass per area, indicating a negative density dependence of damage across plant species. Aboveground plant biomass per area increased with increasing individual plant biomass and root depth per area across species, suggesting that rare plant species were smaller in size and had shallower root systems compared to common plant species. Both root biomass per area and root feeder biomass per area decreased with soil depth, but the root feeder biomass decreased disproportionately faster compared to root biomass with increasing root depth. Root feeder load decreased with increasing root depth but was not correlated with the feeding preference of root feeder species. Moreover, the prediction derived from a random process incorporating vertical distributions of root biomass and root feeder biomass significantly accounted for interspecific variation in root feeder load. In conclusion, the data indicate that root feeders incur negative density-dependent damage across plant species. On this basis, we suggest that manipulative experiments should be conducted to determine the effect of the negative density-dependent damage on plant community structure and that different types of plant-animal interactions should be concurrently examined to fully understand the effect of plant density on overall herbivore damage across plant species., (© 2024 The Ecological Society of America.)

Published
2024
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50. Plasma exosomes impair microglial degradation of α-synuclein through V-ATPase subunit V1G1.

Author

Li Y, Wang Y, Kou L, Yin S, Chi X, Sun Y, Wu J, Jin Z, Zhou Q, Zou W, Wang T, and Xia Y

Subjects
Aged, Animals, Female, Humans, Male, Mice, Middle Aged, Lysosomes metabolism, alpha-Synuclein metabolism, Exosomes metabolism, Mice, Inbred C57BL, Microglia metabolism, Microglia pathology, Parkinson Disease metabolism, Parkinson Disease pathology, Vacuolar Proton-Translocating ATPases metabolism, Vacuolar Proton-Translocating ATPases genetics
Abstract

Introduction: Microglia are the main phagocytes in the brain and can induce neuroinflammation. Moreover, they are critical to alpha-synuclein (α-syn) aggregation and propagation. Plasma exosomes derived from patients diagnosed with Parkinson's disease (PD-exo) reportedly evoked α-syn aggregation and inflammation in microglia. In turn, microglia internalized and released exosomal α-syn, enhancing α-syn propagation. However, the specific mechanism through which PD-exo influences α-syn degradation remains unknown., Methods: Exosomes were extracted from the plasma of patients with PD by differential ultracentrifugation, analyzed using electron microscopy (EM) and nanoparticle flow cytometry, and stereotaxically injected into the unilateral striatum of the mice. Transmission EM was employed to visualize lysosomes and autophagosomes in BV2 cells, and lysosome pH was measured with LysoSensor Yellow/Blue DND-160. Cathepsin B and D, lysosomal-associated membrane protein 1 (LAMP1), ATP6V1G1, tumor susceptibility gene 101 protein, calnexin, α-syn, ionized calcium binding adaptor molecule 1, and NLR family pyrin domain containing 3 were evaluated using quantitative polymerase chain reaction or western blotting, and α-syn, LAMP1, and ATP6V1G1 were also observed by immunofluorescence. Small interfering ribonucleic acid against V1G1 was transfected into BV2 cells and primary microglia using Lipofectamine® 3000. A PD mouse model was established via injection with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) into mice. A lentiviral-mediated strategy to overexpress ATP6V1G1 in the brain of MPTP-treated mice was employed. Motor coordination was assessed using rotarod and pole tests, and neurodegeneration in the mouse substantia nigra and striatum tissues was determined using immunofluorescence histochemical and western blotting of tyrosine hydroxylase., Results: PD-exo decreased the expression of V1G1, responsible for the acidification of intra- and extracellular milieu. This impairment of lysosomal acidification resulted in the accumulation of abnormally swollen lysosomes and decreased lysosomal enzyme activities, impairing lysosomal protein degradation and causing α-syn accumulation. Additionally, V1G1 overexpression conferred the mice neuroprotection during MPTP exposure., Conclusion: Pathogenic protein accumulation is a key feature of PD, and compromised V-type ATPase dysfunction might participate in PD pathogenesis. Moreover, V1G1 overexpression protects against neuronal toxicity in an MPTP-based PD mouse model, which may provide opportunities to develop novel therapeutic interventions for PD treatment., (© 2024 The Authors. CNS Neuroscience & Therapeutics published by John Wiley & Sons Ltd.)

Published
2024
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