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4. Mechanical stability of homogeneous holographic solids under finite shear strain

Author

Matteo Baggioli, Li Li, Wei-Jia Li, and Hao-Tian Sun

Subjects
Gauge-Gravity Correspondence, Holography and Condensed Matter Physics (AdS/CMT), Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract We study the linear stability of holographic homogeneous solids (HHS) at finite temperature and in presence of a background shear strain by means of a large scale quasi-normal mode analysis which extends beyond the hydrodynamic limit. We find that mechanical instability can arise either as a result of a complex speed of sound — gradient instability — or of a negative diffusion constant. Surprisingly, the simplest HHS models are linearly stable for arbitrarily large values of the background strain. For more complex HHS, the onset of the diffusive instability always precedes that of the gradient instability, which becomes the dominant destabilizing process only above a critical value of the background shear strain. Finally, we observe that the critical strains for the two instabilities approach each other at low temperatures. We conclude by presenting a phase diagram for HHS as a function of temperature and background shear strain which shows interesting similarities with the physics of superfluids in presence of background superfluid velocity.

Published
2024
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5. An aqueous magnesium-ion hybrid supercapacitor operated at −50 °C

Author

Guoshen Yang, Gangrui Qu, Chi Fang, Jie Deng, Xianqi Xu, Yinghao Xie, Tian Sun, Yachao Zhu, Jiaxin Zheng, and Hang Zhou

Subjects
Low-concentration aqueous electrolyte, Anti-freezing property, Magnesium-ion hybrid supercapacitor, High energy density, Renewable energy sources, TJ807-830, Ecology, QH540-549.5
Abstract

The recent advances in aqueous magnesium-ion hybrid supercapacitor (MHSC) have attracted great attention as it brings together the benefits of high energy density, high power density, and synchronously addresses cost and safety issues. However, the freeze of aqueous electrolytes discourages aqueous MHSC from operating at low-temperature conditions. Here, a low-concentration aqueous solution of 4 mol L−1 Mg(ClO4)2 is devised for its low freezing point (−67 °C) and ultra-high ionic conductivity (3.37 mS cm−1 at −50 °C). Both physical characterizations and computational simulations revealed that the Mg(ClO4)2 can effectively disrupt the original hydrogen bond network among water molecules via transmuting the electrolyte structure, thus yielding a low freezing point. Thus, the Mg(ClO4)2 electrolytes endue aqueous MHSC with a wider temperature operation range (−50 °C–25 °C) and a higher energy density of 103.9 Wh kg−1 at 3.68 kW kg−1 over commonly used magnesium salts (i.e., MgSO4 and Mg(NO3)2) electrolytes. Furthermore, a quasi-solid-state MHSC based on polyacrylamide-based hydrogel electrolyte holds superior low-temperature performance, excellent flexibility, and high safety. This work pioneers a convenient, cheap, and eco-friendly tactic to procure low-temperature aqueous magnesium-ion energy storage device.

Published
2024
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7. Stereo and LiDAR Loosely Coupled SLAM Constrained Ground Detection

Author

Tian Sun, Lei Cheng, Ting Zhang, Xiaoping Yuan, Yanzheng Zhao, and Yong Liu

Subjects
pose optimization, simultaneous localization and mapping, point cloud, 3D reconstruction, sensor fusion, Chemical technology, TP1-1185
Abstract

In many robotic applications, creating a map is crucial, and 3D maps provide a method for estimating the positions of other objects or obstacles. Most of the previous research processes 3D point clouds through projection-based or voxel-based models, but both approaches have certain limitations. This paper proposes a hybrid localization and mapping method using stereo vision and LiDAR. Unlike the traditional single-sensor systems, we construct a pose optimization model by matching ground information between LiDAR maps and visual images. We use stereo vision to extract ground information and fuse it with LiDAR tensor voting data to establish coplanarity constraints. Pose optimization is achieved through a graph-based optimization algorithm and a local window optimization method. The proposed method is evaluated using the KITTI dataset and compared against the ORB-SLAM3, F-LOAM, LOAM, and LeGO-LOAM methods. Additionally, we generate 3D point cloud maps for the corresponding sequences and high-definition point cloud maps of the streets in sequence 00. The experimental results demonstrate significant improvements in trajectory accuracy and robustness, enabling the construction of clear, dense 3D maps.

Published
2024
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8. Advancements in the study of acute lung injury resulting from intestinal ischemia/reperfusion

Author

Shihua Lv, Xudong Zhao, Can Ma, Dengming Zhao, Tian Sun, Wenchao Fu, Yuting Wei, and Wenzhi Li

Subjects
intestinal ischemia/reperfusion, acute lung injury, animal models and evaluation indicators, pathophysiological mechanism, treatment strategy, Medicine (General), R5-920
Abstract

Intestinal ischemia/reperfusion is a prevalent pathological process that can result in intestinal dysfunction, bacterial translocation, energy metabolism disturbances, and subsequent harm to distal tissues and organs via the circulatory system. Acute lung injury frequently arises as a complication of intestinal ischemia/reperfusion, exhibiting early onset and a grim prognosis. Without appropriate preventative measures and efficacious interventions, this condition may progress to acute respiratory distress syndrome and elevate mortality rates. Nonetheless, the precise mechanisms and efficacious treatments remain elusive. This paper synthesizes recent research models and pertinent injury evaluation criteria within the realm of acute lung injury induced by intestinal ischemia/reperfusion. The objective is to investigate the roles of pathophysiological mechanisms like oxidative stress, inflammatory response, apoptosis, ferroptosis, and pyroptosis; and to assess the strengths and limitations of current therapeutic approaches for acute lung injury stemming from intestinal ischemia/reperfusion. The goal is to elucidate potential targets for enhancing recovery rates, identify suitable treatment modalities, and offer insights for translating fundamental research into clinical applications.

Published
2024
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9. Room Temperature Ionic Liquid Capping Layer for High Efficiency FAPbI3 Perovskite Solar Cells with Long‐Term Stability

Author

Qiang Lou, Xinxin Xu, Xueqing Lv, Zhengjie Xu, Tian Sun, Liwen Qiu, Tingting Dai, Erjun Zhou, Guijun Li, Tong Chen, Yen‐Hung Lin, and Hang Zhou

Subjects
ionic liquid, passivation, perovskite, solar cells, stability, Science
Abstract

Abstract Ionic liquid salts (ILs) are generally recognized as additives in perovskite precursor solutions to enhance the efficiency and stability of solar cells. However, the success of ILs incorporation as additives is highly dependent on the precursor formulation and perovskite crystallization process, posing challenges for industrial‐scale implementation. In this study, a room‐temperature spin‐coated IL, n‐butylamine acetate (BAAc), is identified as an ideal passivation agent for formamidinium lead iodide (FAPbI3) films. Compared with other passivation methods, the room‐temperature BAAc capping layer (BAAc RT) demonstrates more uniform and thorough passivation of surface defects in the FAPbI3 perovskite. Additionally, it provides better energy level alignment for hole extraction. As a result, the champion n–i–p perovskite solar cell with a BAAc capping layer exhibits a power conversion efficiency (PCE) of 24.76%, with an open‐circuit voltage (Voc) of 1.19 V, and a Voc loss of ≈330 mV. The PCE of the perovskite mini‐module with BAAc RT reaches 20.47%, showcasing the effectiveness and viability of this method for manufacturing large‐area perovskite solar cells. Moreover, the BAAc passivation layer also improves the long‐term stability of unencapsulated FAPbI3 perovskite solar cells, enabling a T80 lifetime of 3500 h when stored at 35% relative humidity at room temperature in an air atmosphere.

Published
2024
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10. Visible to mid-infrared giant in-plane optical anisotropy in ternary van der Waals crystals

Author

Yanze Feng, Runkun Chen, Junbo He, Liujian Qi, Yanan Zhang, Tian Sun, Xudan Zhu, Weiming Liu, Weiliang Ma, Wanfu Shen, Chunguang Hu, Xiaojuan Sun, Dabing Li, Rongjun Zhang, Peining Li, and Shaojuan Li

Subjects
Science
Abstract

Abstract Birefringence is at the heart of photonic applications. Layered van der Waals materials inherently support considerable out-of-plane birefringence. However, funnelling light into their small nanoscale area parallel to its out-of-plane optical axis remains challenging. Thus far, the lack of large in-plane birefringence has been a major roadblock hindering their applications. Here, we introduce the presence of broadband, low-loss, giant birefringence in a biaxial van der Waals materials Ta2NiS5, spanning an ultrawide-band from visible to mid-infrared wavelengths of 0.3–16 μm. The in-plane birefringence Δn ≈ 2 and 0.5 in the visible and mid-infrared ranges is one of the highest among van der Waals materials known to date. Meanwhile, the real-space propagating waveguide modes in Ta2NiS5 show strong in-plane anisotropy with a long propagation length (>20 μm) in the mid-infrared range. Our work may promote next-generation broadband and ultracompact integrated photonics based on van der Waals materials.

Published
2023
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14. Cell mediated ECM-degradation as an emerging tool for anti-fibrotic strategy

Author

Peng Zhao, Tian Sun, Cheng Lyu, Kaini Liang, and Yanan Du

Subjects
Fibrosis, Extracellular matrix, Degradation, Matrix metalloproteinases, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Abstract Investigation into the role of cells with respect to extracellular matrix (ECM) remodeling is still in its infancy. Particularly, ECM degradation is an indispensable process during the recovery from fibrosis. Cells with ECM degradation ability due to the secretion of various matrix metalloproteinases (MMPs) have emerged as novel contributors to the treatment of fibrotic diseases. In this review, we focus on the ECM degradation ability of cells associated with the repertoire of MMPs that facilitate the attenuation of fibrosis through the inhibition of ECM deposition. Besides, innovative approaches to engineering and characterizing cells with degradation ability, as well as elucidating the mechanism of the ECM degradation, are also illustrated. Studies conducted to date on the use of cell-based degradation for therapeutic purposes to combat fibrosis are summarized. Finally, we discuss the therapeutic potential of cells with high degradation ability, hoping to bridge the gap between benchside research and bedside applications in treating fibrotic diseases.

Published
2023
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15. Breaking rotations without violating the KSS viscosity bound

Author

Matteo Baggioli, Sera Cremonini, Laura Early, Li Li, and Hao-Tian Sun

Subjects
AdS-CFT Correspondence, Gauge-Gravity Correspondence, Holography and Hydrodynamics, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Abstract We revisit the computation of the shear viscosity to entropy ratio in a holographic p-wave superfluid model, focusing on the role of rotational symmetry breaking. We study the interplay between explicit and spontaneous symmetry breaking and derive a simple horizon formula for η/s, which is valid also in the presence of explicit breaking of rotations and is in perfect agreement with the numerical data. We observe that a source which explicitly breaks rotational invariance suppresses the value of η/s in the broken phase, competing against the effects of spontaneous symmetry breaking. However, η/s always reaches a constant value in the limit of zero temperature, which is never smaller than the Kovtun-Son-Starinets (KSS) bound, 1/4π. This behavior appears to be in contrast with previous holographic anisotropic models which found a power-law vanishing of η/s at small temperature. This difference is shown to arise from the properties of the near-horizon geometry in the extremal limit. Thus, our construction shows that the breaking of rotations itself does not necessarily imply a violation of the KSS bound.

Published
2023
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17. Digital economy and carbon emission: The coupling effects of the economy in Qinghai region of China

Author

Tian Sun, Kaisheng Di, and Qiumei Shi

Subjects
Carbon dafeng, Digital economy, Regional economic development, Impact mechanism study, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

This study provides an in-depth analysis of the complex relationship between the digital economy and carbon emissions, fully drawing on essential principles of environmental economics, coupled economics, and sustainable development theory. Focusing on the Qinghai region in the western province of China, the study employs highly sophisticated methods such as multiple regression analysis and system dynamics modeling to reveal the multidimensional coupling effects between digital economy development and carbon emission dynamics. The study's results clearly show that in the Qinghai region of China, the booming growth of the digital economy is related to carbon emissions. Of particular interest, the study finds that this relationship exhibits a high degree of complexity and non-linearity and evolves gradually over time. Initially, the rapid expansion of the digital economy, accompanied by high energy consumption and increased carbon emissions, posed a significant challenge to environmental protection. However, a clear inverted “U''-shaped relationship has emerged as the digital economy evolves. This key inflection point signals a shift in the landscape as the digital economy begins to deliver some ecological benefits, potentially reducing the trend of carbon emissions in the future. The findings of this study go beyond simple causality and reveal a complex and evolving dynamic relationship between the digital economy and carbon emissions. Through such insights, this study provides a solid academic foundation and carefully constructs actionable policy recommendations to drive sustainable development. These insights apply to the Qinghai region of China and provide valuable references and lessons for other areas facing similar challenges.

Published
2024
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18. Satisfactory degradation of tetracycline by a pH-universal CoFe-LDH/MoS2 heterojunction catalyst in Fenton process

Author

Meng Wang, Xiaoyu Li, Yanrui Su, Jiaoge Wu, Tian Sun, Xuan Xu, Faying Fan, Yufei Zhao, and Wa Gao

Subjects
Inorganic chemistry, Applied chemistry, Pollution, Science
Abstract

Summary: Fenton or Fenton-like reactions have been widely used in various fields, including solar energy conversion to generate hydroxyl radicals, environmental remediation, biology, and life science. However, the slow Fe3+/Fe2+ cycle and narrow applicable pH range still present significant challenges. Here, a heterostructured CoFe-layered double hydroxide/MoS2 nanocomposite (CoFe-LDH/MoS2) was prepared via simple electrostatic interactions. The heterostructure establishes a robust interfacial contact, leading to an abundance of exposed Mo6+ sites. Consequently, the developed CoFe-LDH/MoS2+H2O2 system exhibited superior performance in the degradation of tetracycline (>85%) within 60 min across a wide pH range from acidic to basic. Moreover, the CoFe-LDH/MoS2 heterojunction catalysts exhibited exceptional resistance to common anions and efficiently degraded various organic pollutants. The mechanism study verified that the CoFe-LDH/MoS2 had high efficiency in producing 1O2 and ‧OH to degrade various organic pollutants. The present study will serve as a foundation for creating efficient catalyst systems for related environmental remediation.

Published
2024
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19. Thermal and mechanical characteristics of a thermal pile in permafrost regions

Author

Yun-Hu Shang, Fu-Jun Niu, Kun Yuan, Tian Sun, and Li-Bo Wu

Subjects
Pile foundation, Cold energy, Two-phase closed thermosyphon, Freezing strength, Permafrost regions, Meteorology. Climatology, QC851-999, Social sciences (General), H1-99
Abstract

Cast-in-place pile foundations are widely used in permafrost regions to support buildings. The stability of cast-in-place pile foundations is highly sensitive to permafrost thermal regime changes. Permafrost degradation caused by climate change is increasing the disaster risk of cast-in-place pile foundations. However, proactive cooling methods for cast-in-place pile foundations are seldom reported. The cold energy produced by two-phase closed thermosyphons (TPCTs) can efficiently prevent the permafrost thermal regime from being disturbed by engineering activities and climate change. TPCTs were installed in a concrete pile forming a thermal pile. Then, a model experiment was conducted to explore the thermal regime, influence scope, dissipation process of cold energy, and freezing strength of the thermal pile. The results indicated that the thermal pile may significantly cool the foundation soil. Most of cold energy produced by the thermal pile dissipated during the warm period, and the cooling scope of the thermal pile can cover the area within a 40 cm (twice the pile diameter) radius around the pile. Additionally, the TPCTs can significantly improve freezing strength between the thermal pile and frozen soil. The lesson learned from this study can provide a new approach to control the thermal regime of cast-in-place pile foundation in permafrost, which was of valuable to the construction of pile foundations in cold regions.

Published
2023
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24. Construction of an acute myeloid leukemia prognostic model based on m6A-related efferocytosis-related genes

Author

Ying Wang, Ting Bin, Jing Tang, Xiao-Jun Xu, Chao Lin, Bo Lu, and Tian-Tian Sun

Subjects
acute myeloid leukemia, N6-methyladenosine, efferocytosis, prognostic risk model, bioinformatics, drug prediction, Immunologic diseases. Allergy, RC581-607
Abstract

BackgroundOne of the most prevalent hematological system cancers is acute myeloid leukemia (AML). Efferocytosis-related genes (ERGs) and N6-methyladenosine (m6A) have an important significance in the progression of cancer, and the metastasis of tumors.MethodsThe AML-related data were collected from The Cancer Genome Atlas (TCGA; TCGA-AML) database and Gene Expression Omnibus (GEO; GSE9476, GSE71014, and GSE13159) database. The “limma” R package and Venn diagram were adopted to identify differentially expressed ERGs (DE-ERGs). The m6A related-DE-ERGs were obtained by Spearman analysis. Subsequently, univariate Cox and Least Absolute Shrinkage and Selection Operator (LASSO) were used to construct an m6A related-ERGs risk signature for AML patients. The possibility of immunotherapy for AML was explored. The pRRophetic package was adopted to calculate the IC50 of drugs for the treatment of AML. Finally, the expression of characterized genes was validated by quantitative reverse transcription-PCR (qRT-PCR).ResultsBased on m6A related-DE-ERGs, a prognostic model with four characteristic genes (UCP2, DOCK1, SLC14A1, and SLC25A1) was constructed. The risk score of model was significantly associated with the immune microenvironment of AML, with four immune cell types, 14 immune checkpoints, 20 HLA family genes and, immunophenoscore (IPS) all showing differences between the high- and low-risk groups. A total of 56 drugs were predicted to differ between the two groups, of which Erlotinib, Dasatinib, BI.2536, and bortezomib have been reported to be associated with AML treatment. The qRT-PCR results showed that the expression trends of DOCK1, SLC14A1 and SLC25A1 were consistent with the bioinformatics analysis.ConclusionIn summary, 4 m6A related- ERGs were identified and the corresponding prognostic model was constructed for AML patients. This prognostic model effectively stratified the risk of AML patients.

Published
2023
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28. The influence of calculation error of hourly marine meteorological parameter on building energy consumption calculation

Author

Dalong Liu, Tian Sun, Yufei Han, and Xiuying Yan

Subjects
Building energy efficiency, Oceanic climate, Meteorological parameters, Interpolation method, Calculation error, Dynamic energy simulation, Architecture, NA1-9428
Abstract

The ocean is a crucial area for future economic development. The marine environment has high energy-efficient and ecological requirements for building construction. Meteorological parameters are the key basis for the analysis and design of building energy efficiency. The lack of meteorological parameters for energy efficiency, particularly hourly data, under oceanic climatic conditions is a universal problem. The appropriate calculation methods of hourly meteorological parameters under oceanic climatic conditions are explored in this study. The impact of the calculation errors of the hourly meteorological parameters on building energy consumption is also analyzed. Three key meteorological parameters are selected: temperature, humidity, and wind speed. Five hourly calculations methods, including linear interpolation, cubic spline interpolation, pieceated three-Hermite interpolation, Akima interpolation, and radial basis function interpolation, are selected to calculate the error of the difference method, with Xiamen, Haikou, and Sanya as the locations of meteorological research. Appropriate interpolation methods are selected for the three parameters, and the seasonal and regional characteristics of the errors of each parameter are compared. Different interpolation methods should be selected for different meteorological parameters in different seasons. The error data of the three parameters of different magnitudes are constructed. A quantitative relationship between the sum of squares due to error of the three meteorological parameters and the rate of change of cooling energy consumption is established. The hourly calculation errors of meteorological parameters have an important impact on the calculation of dynamic energy consumption. The energy consumption differences caused by the errors of different parameters are significant. Obvious regional and seasonal differences also exist. This research strengthens the research foundation of building energy consumption calculation under oceanic climate conditions.

Published
2022
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29. S1PR1 induces metabolic reprogramming of ceramide in vascular endothelial cells, affecting hepatocellular carcinoma angiogenesis and progression

Author

Xuehong Wang, Zhidong Qiu, Wei Dong, Zebin Yang, Junnan Wang, Hailiang Xu, Tian Sun, Zhaoquan Huang, and Junfei Jin

Subjects
Cytology, QH573-671
Abstract

Abstract Angiogenesis is a fundamental process underlying the occurrence, growth and metastasis of hepatocellular carcinoma (HCC), a prevalent tumour type with an extremely poor prognosis due to abundant vasculature. However, the underlying mechanism of angiogenesis in HCC remains largely unknown. Herein, we found that sphingosine-1-phosphate receptor 1 (S1PR1) plays an important role in HCC angiogenesis. S1PR1 was found to be selectively and highly expressed in the blood vessels of HCC tissues compared with those of paratumour tissues. Functionally, high expression of S1PR1 in endothelial cells (ECs) promoted angiogenesis and progression of HCC in vitro and in vivo. Mechanistically, proangiogenic factors (S1P, IL-6, VEGFA) in conditioned medium from HCC cells induced the upregulation of S1PR1 in ECs via the phosphorylation of STAT3 at Y705. Further study also revealed that S1PR1 promotes angiogenesis by decreasing ceramide levels via CerS3 downregulation. Interestingly, we demonstrated that S1PR1 downregulates CerS3 by inducing CerS6 translocation into the nucleus to inhibit CerS3 at the transcriptional level in ECs. In addition, we found that a high concentration of Lenvatinib significantly downregulated the expression of S1PR1 and obviously enhanced S1PR1 knockdown-mediated angiogenesis inhibition, indicating that S1PR1 may be a target by which Lenvatinib combats angiogenesis in HCC. Thus, S1PR1 may be an important target for suppressing angiogenesis in HCC, and inhibiting S1PR1 is a promising approach to antitumor therapy in HCC.

Published
2022
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33. GBA1-dependent membrane glucosylceramide reprogramming promotes liver cancer metastasis via activation of the Wnt/β-catenin signalling pathway

Author

Zhidong Qiu, Xuehong Wang, Zebin Yang, Sicong Liao, Wei Dong, Tian Sun, Huixian Wu, Qinqin Zhang, Zhixiong Pan, Sin Man Lam, Guanghou Shui, and Junfei Jin

Subjects
Cytology, QH573-671
Abstract

Abstract The effect of glucosylceramide (GlcCer) reprogramming on liver cancer metastasis remains poorly understood. In this study, we demonstrated that the protein expression of GBA1, which catalyses the conversion of GlcCer to ceramide, was downregulated in liver cancer tissue. A clinical relevance analysis revealed that low expression of GBA1 was associated with the metastatic potential of liver cancer cells. Furthermore, loss- and gain-of-function studies confirmed that low expression of GBA1 promoted metastasis of liver cancer both in vitro and in vivo. Mechanistic studies indicated that low expression of GBA1 enhanced the metastatic ability of liver cancer by promoting the epithelial-mesenchymal transition (EMT), in which Wnt signalling pathway is involved. In the plasma membrane (PM), GBA1-dependent GlcCer reprogramming increased LRP6 location in the PM leading to an interaction between GlcCer and LRP6, subsequently promoting LRP6 phosphorylation at Ser1490, and finally activating the Wnt/β-catenin signalling pathway. To our knowledge, this is the first time to be found that GlcCer interacted with a protein. In addition, the results of mass spectrometry indicated that GlcCer d18:1/18:0 was the most notably increased studied species in the PM when GBA1 was downregulated, suggesting that GlcCer d18:1/18:0 may be the major functional lipid that promotes GBA1-dependent liver cancer metastasis. Thus, GBA1-mediated GlcCer reprogramming in the PM promotes metastasis of liver cancer via activation of the Wnt/β-catenin signalling pathway, upregulation of GBA1 may be a potential therapeutic strategy to combat liver cancer metastasis.

Published
2022
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36. Spatial occurrence and sources of PAHs in sediments drive the ecological and health risk of Taihu Lake in China

Author

Xiulu Lang, Xinghua He, Yanhua Wang, Xi Chen, Mingli Zhang, Zihan Zhao, and Tian Sun

Subjects
Medicine, Science
Abstract

Abstract To study the spatial occurrence, sources, and ecological risks of 16 PAHs, surface sediments had been collected from seven major areas of Taihu Lake, China in April 2021. Results showed that the concentrations of ∑16PAHs varied between 1381.48 and 4682.16 ng g−1, and the contents of BghiP in each sample were the highest. The PAHs concentrations in the sediments near the lakeshore were much higher than those in the central area of the lake. The sedimentary ∑16PAHs were mainly composed of molecular-weight monomers and 4-ring PAHs showed superiority (35.69–45.02%). According to the ratio of PAH monomer, the sedimentary PAHs in Taihu Lake were dominantly derived from the combustion. Through the biological toxicity assessment and the BaP equivalent (BaPE), great biological risks of PAHs monomers i.e. DahA and IcdP were found. Both concentrations of ∑16PAHs and dominant 4–6-ring monomers accompanied by carcinogenic risks in many areas of Taihu Lake increased. It is necessary to strengthen monitoring and take measures to control the input of organic pollutants.

Published
2022
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37. Semi-closed synthesis of nitrogen and oxygen Co-doped mesoporous carbon for selective aqueous oxidation

Author

Chen Xing, Daihui Yang, Yan Zhang, Tian Sun, Junfei Duan, Hussein A. Younus, and Shiguo Zhang

Subjects
Semi-closed carbonization, Nitrogen and oxygen doping, Mesoporous carbon, Metal-free catalyst, Selective aqueous oxidation, Renewable energy sources, TJ807-830, Ecology, QH540-549.5
Abstract

Heteroatom-doped meso/micro-porous carbon materials are conventionally produced by harsh carbonization under an inert atmosphere involving specific precursors, hard/soft templates, and heteroatom-containing agents. Herein, we report a facile synthesis of N and O co-doped meso/micro-porous carbon (NOMC) by template-free carbonization of a small-molecule precursor in a semi-closed system. The semi-closed carbonizaiton process yields hydrophilic NOMCs with large surface area in a high yield. The porous structure as well as the elemental composition of NOMCs can be modulated by changing the holding time at a particular temperature. NOMCs as metal-free heterogeneous catalysts can selectively oxidize benzyl alcohol and its derivatives into aldehydes/ketones with > 85% conversion in aqueous solution, which is much higher than that of the control sample obtained in tube furnace (21% conversion), mainly due to their high N content, high percentage of pyridinic N, and large surface area. The presence of O-containing moieties also helps to improve the hydrophilicity and dispersion ability of catalysts and thus facilitates the mass transfer process during aqueous oxidation. The NOMC catalysts also dispayed excellent activity for a wide range of substrates with a selectivity of > 99%.

Published
2022
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38. Midkine ameliorates LPS-induced apoptosis of airway smooth muscle cells via the Notch2 pathway

Author

Qi-Feng Huang, Bo Wang, Yu-Qing Weng, Tang Deng, Li-Hua Li, Jin Qian, Qi Li, Kai-Wen Lin, Dong-Mei Sun, Shuang-Qin Xu, Hang-Fei Wang, Xin-Xin Wu, Yuan-Tian Sun, and Xiao-Ran Liu

Subjects
acute lung injury, airway smooth muscle cells, midkine, notch2, lipopolysaccharide, Arctic medicine. Tropical medicine, RC955-962, Biology (General), QH301-705.5
Abstract

Objective: To evaluate the effect of midkine on lipopolysaccharide (LPS)-induced airway smooth muscle cells (ASMCs). Methods: LPS-stimulated acute lung injury model was used to analyze the effect of midkine on ASMCs in vitro. Recombinant midkine and midkine siRNA were used to investigate the role of Notch2 signaling pathway. Cell proliferation was assessed using Cell Counting Kit-8 assay. Additionally, apoptosis was measured by flow cytometry and protein and mRNA expression of midkine and Notch2 was assessed by Western blotting and qPCR, respectively. Immunofluorescence analysis was also conducted. Results: LPS increased the mRNA and protein expression of midkine and Notch2. Midkine silencing reduced LPS-induced midkine and Notch2 expression. In addition, midkine silencing further reduced the viability and increased apoptosis of ASMCs induced by LPS, which was attenuated by recombinant midkine. Conclusions: The midkine/Notch2 signaling pathway plays a regulatory role in ASMC proliferation and apoptosis in airway inflammation.

Published
2022
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39. Stellate ganglion block potentially ameliorates postoperative cognitive decline in aged rats by regulating the neuroendocrine response to stress

Author

Xijin Deng, Tian Sun, Dengming Zhao, Si Ri Gu Leng Sana, and Wenzhi Li

Subjects
Postoperative cognitive dysfunction, Stellate ganglion block, Neuroendocrine stress response, Autonomic nervous system, HPA axis, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Background: Postoperative cognitive dysfunction (POCD) is a common postoperative complication in elderly patients. The strong stress response causing by surgical trauma can induce POCD. We hypothesized that stellate ganglion block (SGB) can provide the neuroprotection to POCD by regulating the neuroendocrine response. Methods: Sprague-Dawley male rats, 18–20 months old and weighing 550–650 g were assigned into four groups: sham surgery group (Sham), sham surgery + saline group (Sham + NS), surgery group (Surgery), and surgery + SGB group (Surgery + SGB). The change of body weight, heart rate variability analysis, behavior testing, neuronal damage, inflammatory response, neuroendocrine hormone level were evaluated by their corresponding methods. Results: The results showed that SGB can reduce the number of both types of errors in the postoperative eight-arm maze assay, attenuate neural structural damage, inhibit neuroapoptosis, suppress inflammatory responses, increase the release of neurotrophic factors, accelerate postoperative weight recovery, and promote postoperative recovery in rats. Most importantly, SGB reduced the level of neuroendocrine hormone of TH, Cyp11b1, CRH, and SGB also activated dorsal motor nucleus of vagus (detected by c-fos immunohistochemistry). Conclusions: Our findings indicated that SGB could be a neuroprotective therapy for the cognitive dysfunction induced by exploratory laparotomy model of POCD, which might be attributable for balancing the autonomic nervous system, regulating hypothalamic-pituitary-adrenal (HPA) axis system.

Published
2023
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40. Scar‐Degrading Endothelial Cells as a Treatment for Advanced Liver Fibrosis

Author

Peng Zhao, Tian Sun, Cheng Lyu, Kaini Liang, Yudi Niu, Yuying Zhang, Chenhui Cao, Canhong Xiang, and Yanan Du

Subjects
extracellular matrix degradation, high‐throughput screening system, liver fibrosis, liver sinusoidal endothelial cells, Science
Abstract

Abstract Deposition of extracellular matrix (ECM) in the liver is an important feature of liver cirrhosis. Recovery from liver cirrhosis is physiologically challenging, partially due to the ECM in scar tissue showing resistance to cell‐mediated degradation by secreted matrix metalloproteinases (MMPs). Here, a cell‐mediated ECM‐degradation screening system (CEDSS) in vitro is constructed for high‐throughput searching for cells with tremendous degradation ability. ECM‐degrading liver sinusoidal endothelial cells (dLSECs) are screened using CEDSS, which exhibit 17 times the ability to degrade collagen when compared to other cells. The degradation ability of dLSECs is mediated by the upregulation of MMP9. In particular, mRNA expression of MMP9 shows an 833‐fold increase in dLSECs compared to normal endothelial cells (nLSECs), and MMP9 is regulated by transcription factor c‐Fos. In vivo, single intrasplenic injection of dLSECs alleviates advanced liver fibrosis in mice, while intraperitoneal administration of liver‐targeting peptide‐modified dLSECs shows enhanced fibrosis‐targeting effects. Degradative human umbilical vein endothelial cells (dHUVECs) prove their enhanced potential of clinical translation. Together, these results highlight the potential of ECM‐degrading endothelial cells in alleviating advanced liver fibrosis, thus providing remarkable insights in the development of ECM‐targeting therapeutics.

Published
2023
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41. Investigation on unfrozen water content models of freezing soils

Author

Jun Bi, Guoxu Wang, Zhijian Wu, Haiyan Wen, Yingmin Zhang, Gaochao Lin, and Tian Sun

Subjects
unfrozen water content, subzero temperature, freezing soils, models, evaluation, Science
Abstract

Unfrozen water content is a significant hydro-thermal property in numerical modeling in cold regions. Although numerous models have been developed to mimic the variation of unfrozen water content with subzero temperature, comprehensive evaluation of unfrozen water content models is scarce. This study collected a total of 29 models and divided them into four categories, namely, theoretical models, soil water characteristic curve (SWCC)-based models, empirical models, and estimation models. These models were evaluated with 1278 experimental points from 16 studies covering multiple soil types, including 24 clays, 18 silty clays, 7 silts, 19 sands, and 10 sandstones. Root mean square error and average deviations were applied to judge the performance of these models. Most unfrozen water content models can well simulate the relationship between unfrozen water content and subzero temperature. Among the aforementioned four categories of unfrozen water content models, Lizhm et al. model, Fredlund and Xing (C=1)-Wen model, Kozlowski empirical model, and Kozlowski estimation model performed best in their respective categories. Compared to the rest three categories, estimation models can be applied to predict the variation of unfrozen water content with subzero temperature by some easy-to-obtain soil physical parameters and provide guidance for the development of unfrozen water content models.

Published
2023
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42. Dissecting Heterogeneity Reveals a Unique BAMBIhighMFGE8high Subpopulation of Human UC‐MSCs

Author

Hongwei Chen, Xin Wen, Shanshan Liu, Tian Sun, Hua Song, Fang Wang, Jiayue Xu, Yueyang Zhang, Yuanjin Zhao, Jia Yu, and Lingyun Sun

Subjects
BAMBIhighMFGE8high umbilical cord‐derived mesenchymal stem cells, differentiation, heterogeneity, mesenchymal stem cells, systemic lupus erythematosus, Science
Abstract

Abstract Mixed human umbilical cord‐derived mesenchymal stem cells (UC‐MSCs) are widely applied in clinical trials to treat various diseases due to their multipotent differentiation potential and immune regulatory activities. However, the lack of a clear understanding of their heterogeneity hampers their application to precisely treat diseases. Moreover, few studies have experimentally authenticated the functions of so‐called UC‐MSC subpopulations classified from scRNA‐seq samples. Here, this work draws a large‐scale single‐cell transcriptomic atlas and identified three clusters (C1, C2, and C3), representing the primed, intermediate, and stem statuses individually. The C1 and C3 clusters feature higher expression of cytokines and stemness markers, respectively. Surprisingly, further experimental assays reveal that the BAMBIhighMFGE8high C1 subgroup has a unique phenotype, distinct transcriptomic profile, and limited adipogenic differentiation potential but compromised immunosuppressive activity in vitro and in vivo in lupus mice. Thus, this work is helpful to clarify the nature of human UC‐MSCs and to choose optimal MSC types to treat specific diseases in the future.

Published
2023
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45. Ustekinumab trough concentration affects clinical and endoscopic outcomes in patients with refractory Crohn’s disease: a Chinese real-world study

Author

Jia-yin Yao, Min Zhang, Wei Wang, Xiang Peng, Jun-zhang Zhao, Tao Liu, Zhi-wei Li, Hai-tian Sun, Pinjin Hu, and Min Zhi

Subjects
Crohn’s disease, Ustekinumab, Trough concentration, Clinical remission, Endoscopic remission, Therapeutic drug monitoring, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Abstract Background Ustekinumab (UST), a newly-used biologic targeting p40 subunit of IL12 and IL23 in China, exerts a confirmed therapeutic effect on the induction and maintenance therapies for refractory Crohn’s disease (CD). Therapeutic drug monitoring based on trough and antibody concentration is of core importance when treating patients who lose response to UST. We aimed to analyze the UST exposure–response relationship in CD treatment in the real-world setting. Methods We retrospectively enrolled patients with CD who received UST between March 1, 2020 and May 31, 2021, at the inflammatory bowel disease (IBD) center of the Sun Yat-Sun Affiliated Sixth Hospital. Baseline characteristic information, biomarker examination, clinical outcomes determined by the Crohn’s disease activity index (CDAI), and endoscopic outcomes evaluated using a simple endoscopic score for Crohn’s disease (SES-CD) at week 16/20 were collected. The optimal UST cut-off trough concentration was identified using receiver operating characteristic curve (ROC) analysis. Results Nineteen eligible patients were included in the study, the mean age was 29.1 ± 9.1 years and the mean disease duration was 5.5 ± 4.7 years. At the initiation of the study, 89.5% of the patients had been exposed to prior biologics, 42.1% had previous CD-related surgeries, and 52.6% had perianal diseases. At week 16/20 after the UST initiation, clinical response, clinical remission, endoscopic response, and endoscopic remission were 89.5%, 84.2%, 42.2%, and 73.7%, respectively. The cut-off optimal trough concentration for UST was 1.12 μg/mL, as determined by the ROC with an area under the curve (AUC) of 0.78, sensitivity of 87.5%, and specificity of 72.7%. Patients with a UST trough concentration > 1.12 μg/mL had a significantly higher rate of endoscopic remission than those without (70.0% vs. 11.1%, P = 0.02). Conclusions UST is an effective therapeutic option for refractory CD treatment. A UST trough concentration above 1.12 μg/mL was associated with endoscopic remission at week 16/20 after UST initiation. Trial registration This study was approved and retrospectively registered by the Ethics Committee of Sun Yat-Sen University (2021ZSLYEC-066, March 29, 2021) and the Clinical Trial Registry (NCT04923100, June 10, 2021).

Published
2021
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46. Predicting the distribution of plant associations under climate change: A case study on Larix gmelinii in China

Author

Chen Chen, Xi‐juan Zhang, Ji‐zhong Wan, Fei‐fei Gao, Shu‐sheng Yuan, Tian‐tian Sun, Zhen‐dong Ni, and Jing‐hua Yu

Subjects
climate change, Larix gmelinii associations, Maxent, spatial distribution, temperature, Ecology, QH540-549.5
Abstract

Abstract Association is the basic unit of plant community classification. Exploring the distribution of plant associations can help improve our understanding of biodiversity conservation. Different associations depend on different habitats and studying the association level is important for ecological restoration, regional ecological protection, regulating the ecological balance, and maintaining biodiversity. However, previous studies have only focused on suitable distribution areas for species and not on the distribution of plant associations. Larix gmelinii is a sensitive and abundant species that occurs along the southern margin of the Eurasian boreal forests, and its distribution is closely related to permafrost. In this study, 420 original plots of L. gmelinii forests were investigated. We used a Maxent model and the ArcGIS software to project the potential geographical distribution of L. gmelinii associations in the future (by 2050 and 2070) according to the climate scenarios RCP 2.6, RCP 4.5, and RCP 8.5. We used the multi‐classification logistic regression analysis method to obtain the response of the suitable area change for the L. gmelinii alliance and associations to climate change under different climate scenarios. Results revealed that temperature is the most crucial factor affecting the distribution of L. gmelinii forests and most of its associations under different climate scenarios. Suitable areas for each association type are shrinking by varying degrees, especially due to habitat loss at high altitudes in special terrains. Different L. gmelinii associations should have different management measures based on the site conditions, composition structure, growth, development, and renewal succession trends. Subsequent research should consider data on biological factors to obtain more accurate prediction results.

Published
2022
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47. Identifying key genes in CD4+ T cells of systemic lupus erythematosus by integrated bioinformatics analysis

Author

Zutong Li, Zhilong Wang, Tian Sun, Shanshan Liu, Shuai Ding, and Lingyun Sun

Subjects
systemic lupus erythematosus, CD4+ T cells, disease activity, weighted gene co-expression network analysis, biomarker, type I interferon, Genetics, QH426-470
Abstract

Systemic lupus erythematosus (SLE) is a chronic autoimmune disease characterized by excessive activation of T and B lymphocytes and breakdown of immune tolerance to autoantigens. Despite several mechanisms including the genetic alterations and inflammatory responses have been reported, the overall signature genes in CD4+ T cells and how they affect the pathological process of SLE remain to be elucidated. This study aimed to identify the crucial genes, potential biological processes and pathways underlying SLE pathogenesis by integrated bioinformatics. The gene expression profiles of isolated peripheral CD4+ T cells from SLE patients with different disease activity and healthy controls (GSE97263) were analyzed, and 14 co-expression modules were identified using weighted gene co-expression network analysis (WGCNA). Some of these modules showed significantly positive or negative correlations with SLE disease activity, and primarily enriched in the regulation of type I interferon and immune responses. Next, combining time course sequencing (TCseq) with differentially expressed gene (DEG) analysis, crucial genes in lupus CD4+ T cells were revealed, including some interferon signature genes (ISGs). Among these genes, we identified 4 upregulated genes (PLSCR1, IFI35, BATF2 and CLDN5) and 2 downregulated genes (GDF7 and DERL3) as newfound key genes. The elevated genes showed close relationship with the SLE disease activity. In general, our study identified 6 novel biomarkers in CD4+ T cells that might contribute to the diagnosis and treatment of SLE.

Published
2022
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48. Reaction degree of composition B explosive with multi-layered compound structure protection subjected to detonation loading

Author

Jia-yun Liu, Yong-xiang Dong, Xuan-yi An, Ping Ye, Qi-tian Sun, and Qian Gao

Subjects
Reaction degree, Explosive protection, Compound structure, Comprehensive experiment, Military Science
Abstract

The explosive reaction degree and protection from explosions are concerns in the military field. In this work, the reaction degree of the composition B explosive was investigated experimentally. Multi-layered compound structures were used as barriers to weaken the blast loads. A comprehensive experiment using a high-speed camera and image processing techniques, side witness plates, and bottom witness plates was presented. Using the experimental fragment velocities, fragment piercing patterns, and damage characteristics, the reaction degree of the explosive impeded by different multi-layered compound structures could be precisely differentiated. Reaction parameters of the explosive obstructed by compound structures were obtained by theoretical analysis and numerical simulations. Unlike the common method in which the explosive reaction degree is only distinguished based on the initial pressure amplitude transmitted into the explosive, a following shock wave reflected from the side steel casing was also considered. Different detonation growth paths in the explosive formed. Therefore, all these shock wave propagation characteristics must be considered to analyze the explosive response impeded by compound structures.

Published
2021
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49. Evaluating the Impact of Individual and Combined Toxicity of Imidacloprid, Cycloxaprid, and Tebuconazole on Daphnia magna

Author

Yanli Man, Tian Sun, Chi Wu, Xingang Liu, and Mingyuan He

Subjects
ecotoxicity, pesticide mixture, combined toxicity, MIXTOX, risk assessment, Chemical technology, TP1-1185
Abstract

The risks posed by chemicals in the environment are typically assessed on a substance-by-substance basis, often neglecting the effects of mixtures. This may lead to an underestimation of the actual risk. In our study, we investigated the effects of three commonly used pesticides—imidacloprid (IMI), cycloxaprid (CYC), and tebuconazole (TBZ)—both individually and in combination, using various biomarkers to assess their impact on daphnia. Our findings indicated that the order of toxicity, from highest to lowest, was TBZ, IMI, and CYC, as determined by acute toxicity as well as reproduction. The effects of the ITmix (IMI and TBZ) and CTmix (CYC and TBZ) combinations on immobilization and reproduction were evaluated by MIXTOX, revealing a higher risk of immobilization at low concentrations for ITmix. The effect on reproduction differed depending on the ration of pesticides in the mixture, with synergism observed, which may be caused mainly by IMI. However, CTmix showed antagonism for acute toxicity, with the effect on reproduction depending upon the composition of the mixture. The response surface also exhibited a switch between antagonism and synergism. Additionally, the pesticides extended the body length and inhibited the development period. The activities of superoxide dismutase (SOD) and catalase (CAT) content was also significantly induced at different dosage points in both the single and combination groups, indicating changes in the metabolic capabilities of detoxifying enzymes and target site sensitivity. These findings highlight the need for more attention to be focused on the effects of pesticide mixtures.

Published
2023
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50. FOXM1: Functional Roles of FOXM1 in Non-Malignant Diseases

Author

Zhenwang Zhang, Mengxi Li, Tian Sun, Zhengrong Zhang, and Chao Liu

Subjects
fox, FOXM1, diabetes, lung disease, new arthritis, life, Microbiology, QR1-502
Abstract

Forkhead box (FOX) proteins are a wing-like helix family of transcription factors in the DNA-binding region. By mediating the activation and inhibition of transcription and interactions with all kinds of transcriptional co-regulators (MuvB complexes, STAT3, β-catenin, etc.), they play significant roles in carbohydrate and fat metabolism, biological aging and immune regulation, development, and diseases in mammals. Recent studies have focused on translating these essential findings into clinical applications in order to improve quality of life, investigating areas such as diabetes, inflammation, and pulmonary fibrosis, and increase human lifespan. Early studies have shown that forkhead box M1 (FOXM1) functions as a key gene in pathological processes in multiple diseases by regulating genes related to proliferation, the cell cycle, migration, and apoptosis and genes related to diagnosis, therapy, and injury repair. Although FOXM1 has long been studied in relation to human diseases, its role needs to be elaborated on. FOXM1 expression is involved in the development or repair of multiple diseases, including pulmonary fibrosis, pneumonia, diabetes, liver injury repair, adrenal lesions, vascular diseases, brain diseases, arthritis, myasthenia gravis, and psoriasis. The complex mechanisms involve multiple signaling pathways, such as WNT/β-catenin, STAT3/FOXM1/GLUT1, c-Myc/FOXM1, FOXM1/SIRT4/NF-κB, and FOXM1/SEMA3C/NRP2/Hedgehog. This paper reviews the key roles and functions of FOXM1 in kidney, vascular, lung, brain, bone, heart, skin, and blood vessel diseases to elucidate the role of FOXM1 in the development and progression of human non-malignant diseases and makes suggestions for further research.

Published
2023
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