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4,758 results on '"Dong, Xia"'

1. Multi-Atlas Brain Network Classification through Consistency Distillation and Complementary Information Fusion

Author

Xu, Jiaxing, Lan, Mengcheng, Dong, Xia, He, Kai, Zhang, Wei, Bian, Qingtian, and Ke, Yiping

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

In the realm of neuroscience, identifying distinctive patterns associated with neurological disorders via brain networks is crucial. Resting-state functional magnetic resonance imaging (fMRI) serves as a primary tool for mapping these networks by correlating blood-oxygen-level-dependent (BOLD) signals across different brain regions, defined as regions of interest (ROIs). Constructing these brain networks involves using atlases to parcellate the brain into ROIs based on various hypotheses of brain division. However, there is no standard atlas for brain network classification, leading to limitations in detecting abnormalities in disorders. Some recent methods have proposed utilizing multiple atlases, but they neglect consistency across atlases and lack ROI-level information exchange. To tackle these limitations, we propose an Atlas-Integrated Distillation and Fusion network (AIDFusion) to improve brain network classification using fMRI data. AIDFusion addresses the challenge of utilizing multiple atlases by employing a disentangle Transformer to filter out inconsistent atlas-specific information and distill distinguishable connections across atlases. It also incorporates subject- and population-level consistency constraints to enhance cross-atlas consistency. Additionally, AIDFusion employs an inter-atlas message-passing mechanism to fuse complementary information across brain regions. Experimental results on four datasets of different diseases demonstrate the effectiveness and efficiency of AIDFusion compared to state-of-the-art methods. A case study illustrates AIDFusion extract patterns that are both interpretable and consistent with established neuroscience findings.

Published
2024

6. Influence of Multiple Repair Welding on Microstructure and Properties of 06Cr19Ni10 Stainless Steel

Author

Qimeng Liu, Jingyu Chang, Yuanzhi Wang, Dong Xia, Jianfei Zhang, Xinlong Guan, Yuwei Zhou, and Bing Yang

Subjects
Multiple repair welding, Heat input, Microstructure, 06Cr19Ni10, Ocean engineering, TC1501-1800, Mechanical engineering and machinery, TJ1-1570
Abstract

Abstract Repair welding technology is widely used in the manufacturing and maintenance of rail transit equipment to repair welding defects. However, repair welding induces modifications in joint performance, and it is necessary to study the microstructure evolution behavior to reveal the reasons. In this study, the effects of multiple repair welding on the microstructure, mechanical, and fatigue properties of 06Cr19Ni10 stainless steel samples were studied. The surface texture and fracture morphology analyses of the samples were conducted by optical microscopy (OM), scanning electron microscopy (SEM), and its equipped backscattered electron diffraction (EBSD) technique. The mechanical and fatigue properties of the samples with different repair welding times were further obtained by hardness, tensile, and fatigue tests. The results show an increase in the grain size and the substructure content in the heat-affected zone (HAZ), and the austenite orientation is changed, attributable to multiple repair welding. Multiple heat inputs result in a significant increase in hardness from 165 HV to 185 HV, a noticeable decrease in tensile strength and elongation, and an upward trend in yield strength. Under the constant stress level, the heat input of multiple repair welding causes a decrease in the fatigue life and significantly reduces toughness in the instantaneous fracture zone of the secondary repair sample.

Published
2024
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7. The role of TERT C228T and KDM6A alterations and TME in NMIBC treated with BCG

Author

Qi-Dong Xia, Jian-Xuan Sun, Zhi-Peng Yao, Jun-Lin Lu, Chen-Qian Liu, Jin-Zhou Xu, Ye An, Meng-Yao Xu, Si-Han Zhang, Xing-Yu Zhong, Na Zeng, Si-Yang Ma, Hao-Dong He, Heng-Long Hu, Jia Hu, Yi Lu, Bing Li, Yao-Bing Chen, Zheng Liu, and Shao-Gang Wang

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract We aimed to investigate the genomic and tumor microenvironmental (TME) profiles in non-muscle invasive bladder cancer (NMIBC) and explore potential predictive markers for Bacillus Calmette–Guérin (BCG) treatment response in high-risk NMIBC patients (according to European Association of Urology (EAU) risk stratification). 40 patients with high-risk NMIBC (cTis-T1N0M0) who underwent en bloc resection followed by BCG instillation were retrospectively enrolled. Surgical samples were subjected to Next Generation Sequencing (NGS) and multiplex immunofluorescence (mIF) assay. Genomic profiling revealed high prevalences of alterations in TERT (55%), KDM6A (32.5%), FGFR3(30%), PIK3CA (30%), TP53(27.5%) and ARID1A (20%). TME analysis showed different proportions of macrophages, NK cells, T cells subsets in tumoral and stromal compartment. Multivariate analysis identified TERT C228T and alteration in KDM6A as two independent factors associated with inferior RFS. The study comprehensively depicted the genomic and TME profiles in NMIBC and identified potential predictive biomarkers for BCG treatment.

Published
2024
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8. Effect of Near-Freezing Temperature Storage on Delaying Postharvest Lignification of Dendrocalamus brandisii Shoots

Author

YANG Shuanghe, SHEN Hui, LUO Haibo, SU Huosheng, ZOU Qin, YU Yuanhe, CHEN Yanan, YU Yuanshan, HU Tenggen, DONG Xia, YU Lijuan

Subjects
bamboo shoots, near-freezing temperature storage, lignification, transcriptome, postharvest, Food processing and manufacture, TP368-456
Abstract

In this study, the regulatory effect of near-freezing temperature (NFT) storage on postharvest lignification of Dendrocalamus brandisii shoots was evaluated. Samples stored at room temperature and 4 ℃ served as controls. Respiratory intensity, mass loss rate, hardness, H2O2 content, lignin content, and the activities and gene expression of key enzymes involved in lignin synthesis were measured during storage. The results showed that compared with the controls, NFT storage significantly inhibited the increase of respiration intensity, mass loss, hardness, H2O2 content and lignin content in D. brandisii shoots, and delayed the increase of phenylalanine ammonia-lyase (PAL), cinnamyl alcohol dehydrogenase (CAD), cinnamate 4-hydroxylase (C4H), and peroxidase (POD) activities. Transcriptomic analysis showed that 33 genes members in PAL, 4CL, HCT, CCR, and CAD families were down-regulated and 25 gene members were up-regulated. Correlation analysis revealed that most physiological indexes and the activities and gene expression of key enzymes involved in lignin synthesis were significantly and positively correlated with the lignin content. In conclusion, NFT storage could effectively suppress the lignification of D. brandisii shoots during storage by regulating the respiratory intensity, mass loss rate, hardness, H2O2 content, lignin content, and key enzyme activities and gene expression related to lignin synthesis.

Published
2024
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9. Understanding the mechanisms behind the antibacterial activity of magnesium hydroxide nanoparticles against sulfate-reducing bacteria in sediments

Author

Dong Xia, Xiaoyu Shi, Kai Chen, Aimin Hao, and Yasushi Iseri

Subjects
Antibacterial activity, Magnesium hydroxide nanoparticle, Mechanism, Sediment, Sulfate-reducing bacteria, Medicine, Science
Abstract

Abstract Nanomaterials, with their small size, surface characteristics, and antibacterial properties, are extensively employed across environmental, energy, biomedical, agricultural, and other industries. This study examined the antibacterial efficacy of magnesium hydroxide (Mg(OH)2) nanoparticles (NPs) against sulfate-reducing bacteria (SRB) within sediments. The inhibitory effects of two types of Mg(OH)2 NPs with distinct particle sizes (20.3 and 29.6 nm) and concentrations (0–10.0 mg/mL) were examined under optimal treatment conditions. The antibacterial mechanisms of Mg(OH)2 NPs through direct contact and dissolution effects were determined. The results revealed a correlation between the concentration, particle size, and inhibitory activity, with the smallest NPs (20.3 nm) at the highest concentration (10.0 mg/mL) substantially reducing SRB counts from 8.77 ± 0.18 to 6.48 ± 0.13 log10 colony forming units/mL after 6 h treatment. Treatment with high concentrations of Mg(OH)2 NPs induced cellular damage, reduced intracellular lactate dehydrogenase activity, and elevated intracellular catalase activity and H2O2 content, suggesting that the contact effect of NPs stimulated SRB. This leads to oxidative stress response and structural damage to the cell membrane, which has emerged as the primary driver of the antibacterial action of Mg(OH)2 NPs. This study presents a novel nanomaterial that can inhibit and control SRB in natural sedimentary environments.

Published
2024
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10. Circadian disruption promotes the neurotoxicity of oligomeric alpha-synuclein in mice

Author

Jin-Bao Zhang, Xiao-Jie Wan, Wen-Xiang Duan, Xue-Qin Dai, Dong Xia, Xiang Fu, Li-Fang Hu, Fen Wang, and Chun-Feng Liu

Subjects
Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Circadian disruption often arises prior to the onset of typical motor deficits in patients with Parkinson’s disease (PD). It remains unclear whether such a prevalent non-motor manifestation would contribute to the progression of PD. Diffusible oligomeric alpha-synuclein (O-αSyn) is perceived as the most toxic and rapid-transmitted species in the early stages of PD. Exploring the factors that influence the spread and toxicity of O-αSyn should be helpful for developing effective interventions for the disease. The aim of this study was to explore the effects of circadian disruption on PD pathology and parkinsonism-like behaviors in a novel mouse model induced by O-αSyn. We discovered that O-αSyn could enter the brain rapidly following intranasal administration, resulting in the formation of nitrated-αSyn pathology and non-motor symptoms of the mice. Meanwhile, circadian disruption exacerbated the burden of nitrated-αSyn pathology and accelerated the loss of dopaminergic neurons in O-αSyn-treated mice. Subsequent experiments demonstrated that circadian disruption might act via promoting nitrative stress and neuroinflammation. These findings could highlight the circadian rhythms as a potential diagnostic and therapeutic target in early-stage PD.

Published
2024
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11. Trends in focal therapy for localized prostate cancer: a bibliometric analysis from 2014 to 2023

Author

Zhi-Yu Xia, Si-Han Zhang, Jian-Xuan Sun, Shao-Gang Wang, and Qi-Dong Xia

Subjects
Focal therapy, Prostate cancer, High-intensity focused ultrasound, Cryotherapy, Irreversible electroporation, Bibliometric analysis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Focal therapy, a minimally invasive strategy for localized prostate cancer, has been widely employed in the targeted treatment of localized prostate cancer in recent years. We analyzed 1312 relevant papers from the last decade using Web of Science Core Collection data. Our analysis covered countries, institutions, journals, authors, keywords, and references to offer a multifaceted perspective on the development of this field. The U.S. led in publications, contributing over half of the top 10 institutions. Emberton, M from University College London was the most published and cited author. “EUROPEAN UROLOGY” was the top journal by impact factor in 2022. Analysis of references and keywords suggests the prevalence of brachytherapy-related research, while high-intensity focused ultrasound (HIFU), cryotherapy, and irreversible electroporation (IRE) are emerging as new research focuses. Consequently, more high-quality evidence is necessary to evaluate the long-term effectiveness and safety of these novel therapeutic methods.

Published
2024
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12. Edge Magnetoplasmon Dispersion and Time-Resolved Plasmon Transport in a Quantum Anomalous Hall Insulator

Author

Martinez, Luis A., Qiu, Gang, Deng, Peng, Zhang, Peng, Ray, Keith G., Tai, Lixuan, Wei, Ming-Tso, He, Haoran, Wang, Kang L., DuBois, Jonathan L, and Qu, Dong-Xia

Subjects
Condensed Matter - Materials Science
Abstract

A quantum anomalous Hall (QAH) insulator breaks reciprocity by combining magnetic polarization and spin-orbit coupling to generate a unidirectional transmission of signals in the absence of an external magnetic field. Such behavior makes QAH materials a good platform for the innovation of circulator technologies. However, it remains elusive as to how the wavelength of the chiral edge plasmon relates to its frequency and how the plasmon wave packet is excited in the time domain in a QAH insulator. Here, we investigate the edge magnetoplasmon (EMP) resonances in Cr-(Bi,Sb)$_2$Te$_3$ by frequency and time domain measurements. From disk shaped samples with various dimensions, we obtain the dispersion relation of EMPs and extract the drift velocity of the chiral edge state. From the time-resolved transport measurements, we identify the velocity of the plasmon wave packet and observe a transition from the edge to bulk transport at an elevated temperature. We show that the frequency and time domain measurements are well modeled by loss from the microwave induced dissipative channels in the bulk area. Our results demonstrate that the EMP decay rate can be significantly reduced by applying a low microwave power and fabricating devices of larger diameter $\ge100~\mu$m. In a $R=125~\mu$m sample, a non-reciprocity of 20 dB has been realized at 1.3 GHz, shining light on using QAH insulators to develop on-chip non-reciprocal devices.

Published
2023

17. Efficacy of Qingpeng ointment (a Tibetan medicine) for acute gouty arthritis: a multi-center, randomized, double-blind, placebo-controlled trial

Author

Shang, Ya-xi, Wei, Shu-feng, Yang, Ke-peng, Liu, Yuan, Wei, Su, Dong, Xia, Wang, Xin-chang, Xie, Zhi-min, Fang, Ru-lu, Liang, Li-na, Li, Xiu-feng, Xu, Lei, Chen, Mu-zhi, Zhang, Kai-xian, Huang, Ji-yong, Wang, Le, Yang, You-guo, Liao, Hong-li, Xing, Gui-e, Zheng, Yu-ping, Li, Xiao-fen, Lin, Jing-lian, Shi, Cheng-qian, Zeng, Yong-ping, Mo, Li-dan, Sun, Fan, Li, Xiao-peng, Zhang, Zhuo, Chen, Kai, He, Zhao-chun, and Liu, Jian-ping

Published
2024
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18. Genome-wide variation study and inter-tissue communication analysis unveil regulatory mechanisms of egg-laying performance in chickens

Author

Dandan Wang, Lizhi Tan, Yihao Zhi, Lina Bu, Yangyang Wang, Zhang Wang, Yulong Guo, Weihua Tian, Chunlin Xu, Donghua Li, Zhuanjian Li, Ruirui Jiang, Ruili Han, Guoxi Li, Yongqiang Wang, Dong Xia, Yadong Tian, Ian C. Dunn, Xiaoxiang Hu, Hong Li, Yiqiang Zhao, Xiangtao Kang, and Xiaojun Liu

Subjects
Science
Abstract

Abstract Egg-laying performance is of great economic importance in poultry, but the underlying genetic mechanisms are still elusive. In this work, we conduct a multi-omics and multi-tissue integrative study in hens with distinct egg production, to detect the hub candidate genes and construct hub molecular networks contributing to egg-laying phenotypic differences. We identifiy three hub candidate genes as egg-laying facilitators: TFPI2, which promotes the GnRH secretion in hypothalamic neuron cells; CAMK2D, which promotes the FSHβ and LHβ secretion in pituitary cells; and OSTN, which promotes granulosa cell proliferation and the synthesis of sex steroid hormones. We reveal key endocrine factors involving egg production by inter-tissue crosstalk analysis, and demonstrate that both a hepatokine, APOA4, and an adipokine, ANGPTL2, could increase egg production by inter-tissue communication with hypothalamic-pituitary-ovarian axis. Together, These results reveal the molecular mechanisms of multi-tissue coordinative regulation of chicken egg-laying performance and provide key insights to avian reproductive regulation.

Published
2024
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19. GBA-AAV mitigates sleep disruptions and motor deficits in mice with REM sleep behavior disorder

Author

Ying Chen, Wei-Ye Xie, Dong Xia, Mu-Tian Zhang, Yan-Rui Sun, Wen-Xiang Duan, Yun Shen, Fen Wang, Wei-Min Qu, Zhi-Li Huang, and Chun-Feng Liu

Subjects
Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Sleep disturbances, including rapid eye movement sleep behavior disorder (RBD), excessive daytime sleepiness, and insomnia, are common non-motor manifestations of Parkinson’s disease (PD). Little is known about the underlying mechanisms, partly due to the inability of current rodent models to adequately mimic the human PD sleep phenotype. Clinically, increasing studies have reported that variants of the glucocerebrosidase gene (GBA) increase the risk of PD. Here, we developed a mouse model characterized by sleep–wakefulness by injecting α-synuclein preformed fibronectin (PFF) into the sublaterodorsal tegmental nucleus (SLD) of GBA L444P mutant mice and investigated the role of the GBA L444P variant in the transition from rapid eye movement sleep behavior disorder to PD. Initially, we analyzed spectral correlates of REM and NREM sleep in GBA L444P mutant mice. Importantly, EEG power spectral analysis revealed that GBA L444P mutation mice exhibited reduced delta power during non-rapid eye movement (NREM) sleep and increased theta power (8.2–10 Hz) in active rapid eye movement (REM) sleep phases. Our study revealed that GBA L444P-mutant mice, after receiving PFF injections, exhibited increased sleep fragmentation, significant motor and cognitive dysfunctions, and loss of dopaminergic neurons in the substantia nigra. Furthermore, the over-expression of GBA-AAV partially improved these sleep disturbances and motor and cognitive impairments. In conclusion, we present the initial evidence that the GBA L444P mutant mouse serves as an essential tool in understanding the complex sleep disturbances associated with PD. This model further provides insights into potential therapeutic approaches, particularly concerning α-synuclein accumulation and its subsequent pathological consequences.

Published
2024
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20. Remodeling of intestinal bacterial community and metabolome of Dezhou donkey induced by corn silage

Author

Yujie Sha, Jiafeng Yu, Dong Xia, Yan Zhang, Jian Liu, and Huisong Wang

Subjects
Dezhou donkey, Bacterial community, Metabolome, Corn silage, Medicine, Science
Abstract

Abstract Corn silage can usually improve the growth performance and the meat quality of ruminants, and subsequently increase the economic benefits of farming. However, little is known about the effects of corn silage on donkeys. This experiment investigated the effects of corn silage on the weight gain, gut microbiota and metabolites of Dezhou donkeys. A total of 24 Dezhou donkeys, sourced from the same farm and exhibiting similar age and average body weight, were utilized in this experiment. The donkeys were allocated into two groups: a control group receiving a basic diet and a test group receiving a basic diet supplemented with 30% corn silage. Each group comprised 12 donkeys, evenly distributed by sex (6 males and 6 females). The experiment lasted for 100 days. Results showed that dietary supplementation with corn silage significantly (P

Published
2024
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21. Root-to-shoot signaling positively mediates source-sink relation in late growth stages in diploid and tetraploid wheat

Author

Asfa Batool, Shi-Sheng Li, Dong-Xia Yue, Fazal Ullah, Ling Zhao, Zheng-Guo Cheng, Chao Wang, Hai-Xia Duan, Guang-Chao Lv, Zeeshan ul Haq, Khalil Ahmed, Yan-Wen Gui, Li Zhu, Yun-Li Xiao, and You-Cai Xiong

Subjects
Abscisic acid, Non-hydraulic signaling, Source-sink relations, Cytokinin, Primitive wheat, Yield formation, Botany, QK1-989
Abstract

Abstract Non-hydraulic root source signaling (nHRS) is a unique positive response to soil drying in the regulation of plant growth and development. However, it is unclear how the nHRS mediates the tradeoff between source and sink at the late growth stages and its adaptive mechanisms in primitive wheat. To address this issue, a root-splitting design was made by inserting solid partition in the middle of the pot culture to induce the occurrence of nHRS using four wheat cultivars (MO1 and MO4, diploid; DM22 and DM31, tetraploid) as materials. Three water treatments were designed as 1) both halves watered (CK), 2) holistic root system watered then droughted (FS), 3) one-half of the root system watered and half droughted (PS). FS and PS were designed to compare the role of the full root system and split root system to induce nHRS. Leaves samples were collected during booting and anthesis to compare the role of nHRS at both growth stages. The data indicated that under PS treatment, ABA concentration was significantly higher than FS and CK, demonstrating the induction of nHRS in split root design and nHRS decreased cytokinin (ZR) levels, particularly in the PS treatment. Soluble sugar and proline accumulation were higher in the anthesis stage as compared to the booting stage. POD activity was higher at anthesis, while CAT was higher at the booting stage. Increased ABA (nHRS) correlated with source-sink relationships and metabolic rate (i.e., leaf) connecting other stress signals. Biomass density showed superior resource acquisition and utilization capabilities in both FS and PS treatment as compared to CK in all plants. Our findings indicate that nHRS-induced alterations in phytohormones and their effect on source-sink relations were allied with the growth stages in primitive wheat.

Published
2024
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22. Phase-Slip Lines and Anomalous Josephson Effects in a Tungsten Clusters-Topological Insulator Microbridge

Author

Qu, Dong-Xia, Cuozzo, Joseph J., Teslich, Nick E., Ray, Keith G., Dai, Zurong, Li, Tian T., Chapline, George F., DuBois, Jonathan L., and Rossi, Enrico

Subjects
Condensed Matter - Superconductivity
Abstract

Superconducting topological systems formed by a strong 3D topological insulator (TI) in proximity to a conventional $s$-wave superconductor (SC) have been intensely studied as they may host Majorana zero modes. However, there are limited experimental realizations of TI-SC systems in which robust superconducting pairing is induced on the surface states of the TI and a topological superconducting state is established. Here, we fabricate a novel TI-SC system by depositing, via focused ion beam, tungsten (W) nanoscale clusters on the surface of TI Bi$_{0.91}$Sb$_{0.09}$. We find that the resulting heterostructure supports phase-slip lines that act as effective Josephson junctions. We probe the response of the system to microwave radiation. We find that for some ac frequencies, and powers, the resulting Shapiro steps' structure of the voltage-current characteristic exhibits a missing first step and an unexpectedly wide second Shapiro step. The theoretical analysis of the measurements shows that the unusual Shapiro response arises from the interplay between a static Josephson junction and a dynamic one, and allows us to identify the conditions under which the missing first step can be attributed to the topological nature of the Josephson junctions formed by the phase-slip lines. Our results suggest a new approach to induce superconductivity in a TI, a novel route to realizing highly-transparent topological Josephson junctions, and show how the response of superconducting systems to microwave radiation can be used to infer the dynamics of phase-slip lines.

Published
2022

23. Design, synthesis and biological evaluation of dual inhibitors targeting AR/AR-Vs and PARP1 in castration resistant prostate cancer therapy

Author

Si-Han Zhang, Yaowu Su, Mengzhu Zheng, Na Zeng, Jian-Xuan Sun, Jin-Zhou Xu, Chen-Qian Liu, Shao-Gang Wang, Yirong Zhou, and Qi-Dong Xia

Subjects
Castration resistant prostate cancer, Dual inhibitor, Androgen receptor, Androgen receptor splice variant, PARP1, Antitumor efficacy, Therapeutics. Pharmacology, RM1-950
Abstract

The combination of androgen signaling inhibitors and PARP inhibitors has shown promising results in clinical trials for the treatment of castration-resistant prostate cancer (CRPC). Multi-target inhibitors can inhibit tumors through different pathways, addressing the limitations of traditional single target inhibitors. We designed and synthesized dual inhibitors targeting AR/AR-Vs and PARP1 using a pharmacophore hybridization strategy. The most potent compound, II-3, inhibits AR/AR-Vs signaling and induces DNA damage by inhibiting PARP1. The IC50 values of II-3 in the castration-resistant prostate cancer cell lines 22RV1 and C4–2 are 4.38 ± 0.56 µM, and 3.44 ± 0.63 µM, respectively. II-3 not only suppresses the proliferation and migration of 22RV1 and C4–2 cells, but also promotes their apoptosis. Intraperitoneal injection of II-3 effectively inhibits tumor growth in 22RV1 xenograft nude mice without evident drug-induced toxicity. Overall, a series of novel dual inhibitors targeting AR/AR-Vs and PARP1 were designed and synthesized, and meanwhile the in vivo and in vitro effects were comprehensively explored, which provided a potential new therapeutic strategy for CRPC.

Published
2024
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24. Recent breakthroughs in innovative elements, multidimensional enhancements, derived technologies, and novel applications of PROTACs

Author

Si-Han Zhang, Na Zeng, Jin-Zhou Xu, Chen-Qian Liu, Meng-Yao Xu, Jian-Xuan Sun, Ye An, Xing-Yu Zhong, Lin-Tao Miao, Shao-Gang Wang, and Qi-Dong Xia

Subjects
PROTACs, Element innovation, Drug delivery, Spatiotemporal control, Targeting chimeras, Novel application, Therapeutics. Pharmacology, RM1-950
Abstract

Proteolysis Targeting Chimera (PROTAC) is an emerging and evolving technology based on targeted protein degradation (TPD). Small molecule PROTACs have shown great efficacy in degrading disease-specific proteins in preclinical and clinical studies, but also showed various limitations. In recent years, new technologies and advances in TPD have provided additional optimized strategies based on conventional PROTACs that can overcome the shortcomings of conventional PROTACs in terms of undruggable targets, bioavailability, tissue-specificity, spatiotemporal control, and degradation scope. In addition, some designs of special targeting chimeras and applications based on multidisciplinary science have shed light on novel therapeutic modalities and drug design. However, each improvement has its own advantages, disadvantages and application conditions. In this review, we summarize the exploration of PROTAC elements, depict a landscape of improvements and derived concepts of PROTACs, and expect to provide perspectives for technological innovations, combinations and applications in future targeting chimera design.

Published
2024
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25. Multi-omics analysis reveals regime shifts in the gastrointestinal ecosystem in chickens following anticoccidial vaccination and Eimeria tenella challenge

Author

Po-Yu Liu, Janie Liaw, Francesca Soutter, José Jaramillo Ortiz, Fiona M. Tomley, Dirk Werling, Ozan Gundogdu, Damer P. Blake, and Dong Xia

Subjects
Eimeria, yeast-based anticoccidial vaccine, gut microbiota, metabolome, multi-omics, Microbiology, QR1-502
Abstract

ABSTRACT Coccidiosis, caused by Eimeria parasites, significantly impacts poultry farm economics and animal welfare. Beyond its direct impact on health, Eimeria infection disrupts enteric microbial populations leading to dysbiosis and increases vulnerability to secondary diseases such as necrotic enteritis, caused by Clostridium perfringens. The impact of Eimeria infection or anticoccidial vaccination on host gastrointestinal phenotypes and enteric microbiota remains understudied. In this study, the metabolomic profiles and microbiota composition of chicken caecal tissue and contents were evaluated concurrently during a controlled experimental vaccination and challenge trial. Cobb500 broilers were vaccinated with a Saccharomyces cerevisiae-vectored anticoccidial vaccine and challenged with 15,000 Eimeria tenella oocysts. Assessment of caecal pathology and quantification of parasite load revealed correlations with alterations to caecal microbiota and caecal metabolome linked to infection and vaccination status. Infection heightened microbiota richness with increases in potentially pathogenic species, while vaccination elevated beneficial Bifidobacterium. Using a multi-omics factor analysis, data on caecal microbiota and metabolome were integrated and distinct profiles for healthy, infected, and recovering chickens were identified. Healthy and recovering chickens exhibited higher vitamin B metabolism linked to short-chain fatty acid-producing bacteria, whereas essential amino acid and cell membrane lipid metabolisms were prominent in infected and vaccinated chickens. Notably, vaccinated chickens showed distinct metabolites related to the enrichment of sphingolipids, important components of nerve cells and cell membranes. Our integrated multi-omics model revealed latent biomarkers indicative of vaccination and infection status, offering potential tools for diagnosing infection, monitoring vaccination efficacy, and guiding the development of novel treatments or controls.IMPORTANCEAdvances in anticoccidial vaccines have garnered significant attention in poultry health management. However, the intricacies of vaccine-induced alterations in the chicken gut microbiome and its subsequent impact on host metabolism remain inadequately explored. This study delves into the metabolic and microbiotic shifts in chickens post-vaccination, employing a multi-omics integration analysis. Our findings highlight a notable synergy between the microbiome composition and host-microbe interacted metabolic pathways in vaccinated chickens, differentiating them from infected or non-vaccinated cohorts. These insights pave the way for more targeted and efficient approaches in poultry disease control, enhancing both the efficacy of vaccines and the overall health of poultry populations.

Published
2024
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26. Knowledge mapping of telemedicine in urology in the past 20 years: A bibliometric analysis (2004–2024)

Author

Na Zeng, Mei-Cheng Liu, Xing-Yu Zhong, Shao-Gang Wang, and Qi-Dong Xia

Subjects
Computer applications to medicine. Medical informatics, R858-859.7
Abstract

Telemedicine refers to the process of utilizing communication technologies to exchange disease information, perform surgery and educate care providers remotely, breaking through the distance limit and promoting the health of individuals and communities. The fifth-generation (5G) technology and the COVID-19 pandemic have greatly boosted studies on the application of telemedicine in urology. In this study, we conduct a comprehensive overview of the knowledge structure and research hotspots of telemedicine in urology through bibliometrics. We searched publications related to telemedicine in urology from 2004 to 2024 on the Web of Science Core Collection (WoSCC) database. VOSviewer, CiteSpace and R package “bibliometrix” were employed in this bibliometric analysis. A total of 1,357 articles from 97 countries and 2,628 institutions were included. The number of annual publications on telemedicine in urology witnessed a steady increase in the last two decades. Duke University was the top research institution. Urology was the most popular journal, and Journal of Medical Internet Research was the most co-cited journal. Clarissa Diamantidis and Chad Ellimoottil published the most papers, and Boyd Viers was co-cited most frequently. Effectiveness evaluation of telemonitoring, cost–benefit analysis of teleconsultation and exploration of telesurgery are three main research hotspots. As the first bibliometric analysis of research on telemedicine in urology, this study reviews research progress and highlights frontiers and trending topics, offering valuable insights for future studies.

Published
2024
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27. Comparison of soil quality assessment methods for different vegetation eco-restoration techniques at engineering disturbed areas

Author

Bingqin Zhao, Ruzhang Gao, Xingfeng Zhang, Lu Xia, Lun Zhang, Dong Xia, Daxiang Liu, Zhenyao Xia, and Wennian Xu

Subjects
Engineering disturbed areas, Vegetation eco-restoration, Soil quality indicators, Methods comparison, Medicine, Biology (General), QH301-705.5
Abstract

Scientific assessment of soil quality is the foundation of sustainable vegetation eco-restoration in engineering disturbed areas. This study aimed to find a qualitative and comprehensive method for assessing soil quality after vegetation eco-restoration in engineering disturbed areas. Sixteen soil indicators were used at six vegetation eco-restoration sites as the potential soil indicators. A minimum data set (MDS) and revised minimum data set (RMDS) were determined by principal component analysis. Six soil quality indices (SQIs) of varying scoring functions based on different data sets were employed in this study. Significant positive correlations were observed among all six SQIs, indicating that the effects of different vegetation eco-restoration measures on soil quality could be quantified by all six SQIs. The SQI values of the vegetation concrete eco-restoration slope (VC), frame beam filling soil slope (FB), thick layer base material spraying slope (TB), and external-soil spray seeding slope (SS) were all significantly higher than the SQI value of the abandoned slag slope (AS). It is noteworthy that the SQIs of the VC and TB sites were also significantly higher than the SQI of the natural forest (NF) site. These results indicate that the application of artificial remediation measures can significantly improve the soil quality of the disturbed area at the Xiangjiaba hydropower station. The results of this study also indicate that the SQI-NLRM method is a practical and accurate quantitative tool for soil quality assessment and is recommended for evaluating soil quality under various vegetation eco-restoration techniques in disturbance areas at the Xiangjiaba hydropower station and in other areas with similar habitat characteristics.

Published
2024
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30. Large-scale statistical analysis of Mycobacterium tuberculosis genome sequences identifies compensatory mutations associated with multi-drug resistance

Author

Nina Billows, Jody Phelan, Dong Xia, Yonghong Peng, Taane G. Clark, and Yu-Mei Chang

Subjects
Medicine, Science
Abstract

Abstract Tuberculosis (TB), caused by Mycobacterium tuberculosis, has a significant impact on global health worldwide. The development of multi-drug resistant strains that are resistant to the first-line drugs isoniazid and rifampicin threatens public health security. Rifampicin and isoniazid resistance are largely underpinned by mutations in rpoB and katG respectively and are associated with fitness costs. Compensatory mutations are considered to alleviate these fitness costs and have been observed in rpoC/rpoA (rifampicin) and oxyR’-ahpC (isoniazid). We developed a framework (CompMut-TB) to detect compensatory mutations from whole genome sequences from a large dataset comprised of 18,396 M . tuberculosis samples. We performed association analysis (Fisher’s exact tests) to identify pairs of mutations that are associated with drug-resistance, followed by mediation analysis to identify complementary or full mediators of drug-resistance. The analyses revealed several potential mutations in rpoC (N = 47), rpoA (N = 4), and oxyR’-ahpC (N = 7) that were considered either ‘highly likely’ or ‘likely’ to confer compensatory effects on drug-resistance, including mutations that have previously been reported and validated. Overall, we have developed the CompMut-TB framework which can assist with identifying compensatory mutations which is important for more precise genome-based profiling of drug-resistant TB strains and to further understanding of the evolutionary mechanisms that underpin drug-resistance.

Published
2024
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31. Three-dimensional stability calculation method for high and large composite slopes formed by mining stope and inner dump in adjacent open pits

Author

Zuchao Liang, Dong Wang, Guanghe Li, Guangyu Sun, Mingyu Yu, Dong Xia, and Chunjian Ding

Subjects
Composite slope, Destabilization mechanism, 3D mechanical effect, Three-dimensional stability, Coordinated development distance, Mining engineering. Metallurgy, TN1-997
Abstract

The 2D limit equilibrium method is widely used for slope stability analysis. However, with the advancement of dump engineering, composite slopes often exhibit significant 3D mechanical effects. Consequently, it is of significant importance to develop an effective 3D stability calculation method for composite slopes to enhance the design and stability control of open-pit slope engineering. Using the composite slope formed by the mining stope and inner dump in Baiyinhua No. 1 and No. 2 open-pit coal mine as a case study, this research investigates the failure mode of composite slopes and establishes spatial shape equations for the sliding mass. By integrating the shear resistance and sliding force of each row of microstrip columns onto the bottom surface of the strip corresponding to the main sliding surface, a novel 2D equivalent physical and mechanical parameters analysis method for the strips on the main sliding surface of 3D sliding masses is proposed. Subsequently, a comprehensive 3D stability calculation method for composite slopes is developed, and the quantitative relationship between the coordinated development distance and its 3D stability coefficients is examined. The analysis reveals that the failure mode of the composite slope is characterized by cutting-bedding sliding, with the arc serving as the side interface and the weak layer as the bottom interface, while the destabilization mechanism primarily involves shear failure. The spatial form equation of the sliding mass comprises an ellipsoid and weak plane equation. The analysis revealed that when the coordinated development distance is 1500 m, the error rate between the 3D stability calculation result and the 2D stability calculation result of the composite slope is less than 8%, thereby verifying the proposed analytical method of equivalent physical and mechanical parameters and the 3D stability calculation method for composite slopes. Furthermore, the 3D stability coefficient of the composite slope exhibits an exponential correlation with the coordinated development distance, with the coefficient gradually decreasing as the coordinated development distance increases. These findings provide a theoretical guideline for designing similar slope shape parameters and conducting stability analysis.

Published
2024
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32. Enhanced cellular therapy: revolutionizing adoptive cellular therapy

Author

Meng-Yao Xu, Na Zeng, Chen-Qian Liu, Jian-Xuan Sun, Ye An, Si-Han Zhang, Jin-Zhou Xu, Xing-Yu Zhong, Si-Yang Ma, Hao-Dong He, Jia Hu, Qi-Dong Xia, and Shao-Gang Wang

Subjects
Enhanced cellular therapy, Adoptive cellular therapy, Immunotherapy, Immune checkpoint inhibitor, PROTAC, Oncolytic virus, Diseases of the blood and blood-forming organs, RC633-647.5, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Enhanced cellular therapy has emerged as a novel concept following the basis of cellular therapy. This treatment modality applied drugs or biotechnology to directly enhance or genetically modify cells to enhance the efficacy of adoptive cellular therapy (ACT). Drugs or biotechnology that enhance the killing ability of immune cells include immune checkpoint inhibitors (ICIs) / antibody drugs, small molecule inhibitors, immunomodulatory factors, proteolysis targeting chimera (PROTAC), oncolytic virus (OV), etc. Firstly, overcoming the inhibitory tumor microenvironment (TME) can enhance the efficacy of ACT, which can be achieved by blocking the immune checkpoint. Secondly, cytokines or cytokine receptors can be expressed by genetic engineering or added directly to adoptive cells to enhance the migration and infiltration of adoptive cells to tumor cells. Moreover, multi-antigen chimeric antigen receptors (CARs) can be designed to enhance the specific recognition of tumor cell-related antigens, and OVs can also stimulate antigen release. In addition to inserting suicide genes into adoptive cells, PROTAC technology can be used as a safety switch or degradation agent of immunosuppressive factors to enhance the safety and efficacy of adoptive cells. This article comprehensively summarizes the mechanism, current situation, and clinical application of enhanced cellular therapy, describing potential improvements to adoptive cellular therapy.

Published
2024
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35. Drivers and Pathways for the Recovery of Critical Metals from Waste‐Printed Circuit Boards

Author

Dong Xia, Carmen Lee, Nicolas M. Charpentier, Yuemin Deng, Qingyu Yan, and Jean‐Christophe P. Gabriel

Subjects
artificial intelligence, catalysts, critical metals, green metallurgy, hyperspectral sensing, waste printed circuit board, Science
Abstract

Abstract The ever‐increasing importance of critical metals (CMs) in modern society underscores their resource security and circularity. Waste‐printed circuit boards (WPCBs) are particularly attractive reservoirs of CMs due to their gamut CM embedding and ubiquitous presence. However, the recovery of most CMs is out of reach from current metal‐centric recycling industries, resulting in a flood loss of refined CMs. Here, 41 types of such spent CMs are identified. To deliver a higher level of CM sustainability, this work provides an insightful overview of paradigm‐shifting pathways for CM recovery from WPCBs that have been developed in recent years. As a crucial starting entropy‐decreasing step, various strategies of metal enrichment are compared, and the deployment of artificial intelligence (AI) and hyperspectral sensing is highlighted. Then, tailored metal recycling schemes are presented for the platinum group, rare earth, and refractory metals, with emphasis on greener metallurgical methods contributing to transforming CMs into marketable products. In addition, due to the vital nexus of CMs between the environment and energy sectors, the upcycling of CMs into electro‐/photo‐chemical catalysts for green fuel synthesis is proposed to extend the recycling chain. Finally, the challenges and outlook on this all‐round upgrading of WPCB recycling are outlined.

Published
2024
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36. Enhancing plant resilience: arbuscular mycorrhizal fungi’s role in alleviating drought stress in vegetation concrete

Author

Shiwei Guo, Lu Xia, Dong Xia, Mingyi Li, Wennian Xu, and Liming Liu

Subjects
vegetation concrete, drought stress, arbuscular mycorrhizal fungi, photosynthetic physiology, antioxidant enzyme activity, osmotic adjustment substances, Plant culture, SB1-1110
Abstract

IntroductionDrought stress usually inhibits plant growth, which may increase the difficulty of greening slopes.MethodsIn this study, we systematically investigated the effects of arbuscular mycorrhizal (AM) fungi on the growth and drought tolerance of two plant species, Festuca elata and Cassia glauca, in a vegetation concrete environment by exogenously inoculating AM fungi and setting three drought levels: well water, moderate drought and severe drought. The results showed that plant growth was significantly inhibited under drought stress; however, AM fungi inoculation significantly promoted plant height, root length, and above- and belowground biomass in these two plant species.ResultsCompared with, those in the CK treatment, the greatest increases in the net photosynthesis rate, stomatal conductance and transpiration rate in the AM treatment group were 36.72%, 210.08%, and 66.41%, respectively. Moreover, inoculation with AM fungi increased plant superoxide dismutase and catalase activities by 4.70–150.73% and 9.10–95.70%, respectively, and reduced leaf malondialdehyde content by 2.79–55.01%, which alleviated the damage caused by oxidative stress. These effects alleviated the damage caused by oxidative stress and increased the content of soluble sugars and soluble proteins in plant leaves by 1.52–65.44% and 4.67–97.54%, respectively, which further increased the drought adaptability of plants. However, inoculation with AM fungi had different effects on different plants.ConclusionIn summary, this study demonstrated that the inoculation of AM fungi in vegetation concrete environments can significantly increase plant growth and drought tolerance. The plants that formed a symbiotic structure with AM fungi had a larger root uptake area, greater water uptake capacity, and greater photosynthesis and gas exchange efficiency. In addition, AM fungi inoculation further increased the drought adaptability of the plants by increasing their antioxidant enzyme activity and regulating their metabolite content. These findings are highly important for promoting plant growth and increasing drought tolerance under drought conditions, especially for potential practical applications in areas such as slope protection, and provide useful references for future ecological engineering and sustainable development.

Published
2024
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46. Characteristics and time points to inhibit ferroptosis in human osteoarthritis

Author

Yangyang Xu, Zhenyu Yang, Tianming Dai, Xiang Xue, Dong Xia, Zhencheng Feng, Jian Huang, Xiaosheng Chen, Shengjie Sun, Jing Zhou, Yunmeng Dai, Jiaqi Zong, Siming Li, and Qingqi Meng

Subjects
Medicine, Science
Abstract

Abstract Ferroptosis is a form of cell death that is triggered by iron-dependent lipid peroxidation and is closely associated with osteoarthritis. The primary interventions for inhibiting ferroptosis in osteoarthritis are anti-lipid peroxidation and iron chelation. The objective of our study is to investigate the characteristics of ferroptosis in osteoarthritis and identify the optimal time points for inhibiting ferroptosis to alleviate disease progression. Ferroptosis-related alterations and markers of OA were analyzed in paired intact and damaged cartilages from OA patients by immunofluorescence, qRT-PCR, mitochondrial membrane potential and immunohistochemistry. We also compared Ferroptosis-related alterations in cartilage of mild, moderate, and severe OA (according to the modified Mankin score). In addition, we compared the effect of Fer-1 on ferroptosis and the protection of chondrocytes by detecting markers of both ferroptosis and OA by immunofluorescence, CCK8 and qRT-PCR. Ferroptosis-related alterations (GPX4 downregulation, ACSL4 upregulation, MDA, LPO accumulation, Mitochondrial membrane potential decreased) in the damaged area cartilage were more severe than those in the intact area and increased with the progression of OA. Compared with mild OA group, the activity of chondrocytes treated with Fer-1 (a ferroptosis inhibitor) was increased, mitochondrial function was improved, and ferroptosis was reduced (GPX4 upregulation, SLC7A11 upregulation, ACSL4 downregulation,), and promoted the expression of COL2A1 and inhibited the expression of MMP13. However, these changes were not observed in moderate and severe OA chondrocytes. Ferroptosis occurs in a region-specific manner and is exacerbated with the progression of human OA cartilage degeneration. Inhibition of ferroptosis might had a therapeutic effect on chondrocytes with mild OA but had no significant therapeutic effect on chondrocytes with moderate to severe OA.

Published
2023
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