Your search keyword '"Yanling Yu"' showing total 406 results

1. N-glycosylation of the envelope glycoprotein I is essential for the proliferation and virulence of the duck plague virus

Author

Yaru Ning, Mingshu Wang, Anchun Cheng, Qiao Yang, Bin Tian, Xumin Ou, Di Sun, Yu He, Zhen Wu, Xinxin Zhao, Shaqiu Zhang, Ying Wu, Juan Huang, Yanling Yu, Ling Zhang, Renyong Jia, Mafeng Liu, Dekang Zhu, and Shun Chen

Subjects

Duck plague virus, virulence gene, glycoprotein I, N-glycosylation, pathogenicity, Veterinary medicine, SF600-1100

Abstract

Abstract Duck plague virus (DPV) causes the highly pathogenic duck plague, and the envelope glycoprotein I (gI), as one of the key virulence genes, has not yet had its critical virulence sites identified through screening. This study used reverse genetics technology to target the gI, specifically within the DPV genome. Four DPV mutants with gI N-glycosylation site mutations were designed and constructed, and these mutant strains were successfully rescued. Our results confirmed that three asparagine residues of gI (N69, N78, and N265) are N-glycosylation sites, and western blot analysis substantiated that glycosylation at each predicted N-glycosylation site was compromised. The deglycosylation of gI leads to the protein misfolding and subsequent retention in the endoplasmic reticulum (ER). The subsequent deglycosylated gI is carried into the Golgi apparatus (GM130) in the interaction of gE. Compared to the parental virus, the mutated virus shows a 66.3% reduction in intercellular transmission capability. In ducks, the deglycosylation of gI significantly reduces DPV replication in vivo, thereby weakening the virulence of DPV. This study represents the first successful creation of a weak DPV virus strain by specific mutation at the N-glycosylation site. The findings provide a foundational understanding of DPV pathogenesis and form the basis for developing live attenuated vaccines against the disease.

Published

2024

2. Enrichment of Geobacter on Anode Biofilms from Domestic Wastewater without Posing Anode Potential in Microbial Electrochemical Cells

Author

Ravi Shankar Yadav, Weihua He, Dandan Liang, Chao Li, Yanling Yu, and Yujie Feng

Subjects

microbial electrochemical cells, anodic biofilm enrichment, hydrogen production, electrogenic microorganisms, Microbiology, QR1-502

Abstract

Microbial electrochemical cells (MxCs) offer a sustainable approach for wastewater treatment and energy recovery by harnessing the electroactive properties of microorganisms. This study explores the enrichment of Geobacter species on anode biofilms in single-(S-MxCs) and double-chambered (D-MxCs) MxCs, using domestic wastewater without an external anode potential. Stable current densities were achieved within 10 days for S-MxCs (9.52 ± 0.8 A/m2) and 14 days for D-MxCs (4.28 ± 0.9 A/m2), with S-MxCs showing a superior electrochemical performance. Hydrogen production rates were higher in D-MxCs (14.93 ± 0.66 mmol H2/L/day) compared to S-MxCs (9.46 ± 0.8 mmol H2/L/day), with cumulative production rates of 12.9 ± 1.3 mmol H2/g COD and 6.48 ± 1.4 mmol H2/g COD, respectively. Cyclic voltammetry confirmed enhanced bioelectrocatalytic activity in S-MxCs, while SEM imaging showed denser biofilms on S-MxC anodes. The novelty of this study lies in its demonstration of efficient biofilm development and microbial community resilience under non-potentialized conditions, providing insights that advance the practical application of MxCs in environmental biotechnology.

Published

2024

3. Lean strategy in SMEs: Inventory leanness, operational leanness, and financial performance

Author

Feng Liu, Yanling Yu, Yongchun Fang, Minghao Zhu, Yangyan Shi, and Shufeng (Simon) Xiao

Subjects

Lean strategy, Operational leanness, Inventory leanness, Inverted-U relationship, SMEs, Shipment of goods. Delivery of goods, HF5761-5780

Abstract

Lean strategy, aimed at optimizing resources, minimizing energy usage, and achieving zero waste in the production process, has been increasingly embraced to reduce systemwide costs in manufacturing. However, practitioners in small and medium-sized enterprises (SMEs) often lack the necessary expertize to implement lean strategies successfully. This study systematically examines the impact of lean strategy on the financial performance of Chinese SMEs. Specifically, we categorize lean strategy into two components: inventory leanness and operational leanness. We introduce a novel measure, the empirical production leanness indicator (EPLI), to quantify systematic production practices aimed at waste reduction. Drawing on a large sample of SMEs, our empirical findings suggest that both inventory leanness and operational leanness exhibit an inverted U-shaped relationship with an SME’s financial performance. In conclusion, this study contributes to the lean literature and offers significant practical implications for SMEs seeking to benefit from adopting lean strategies.

Published

2024

4. Multiple functions of the herpesvirus UL14 gene product in viral infection

Author

Jieyu Wan, Mingshu Wang, Anchun Cheng, Wei Zhang, Qiao Yang, Bin Tian, Xumin Ou, Di Sun, Yu He, Xinxin Zhao, Ying Wu, Shaqiu Zhang, Juan Huang, Zhen Wu, Yanling Yu, Ling Zhang, Dekang Zhu, Mafeng Liu, Shun Chen, and Renyong Jia

Subjects

herpesvirus, pUL14, tegument proteins, viral replication, viral infection, Microbiology, QR1-502

Abstract

Herpesviruses are a family of double-stranded DNA viruses with a tegument structure and a genome composed of a single sequence and terminal repeat (TR) sequences. The herpesvirus UL14 gene encodes the protein UL14 (pUL14), which has various subcellular localizations and plays a vital role in regulating immediate–early (IE) gene transcription and expression, influences the intracellular localization patterns of several proteins belonging to the capsid and the DNA packaging machinery, participates in secondary envelopment, and influences viral particle release. Additionally, pUL14 has roles in maintaining cellular homeostasis and preventing apoptosis. This review discusses how pUL14 engages in the life cycle of herpesviruses and provides new ideas for further research on pUL14’s function in viral infection.

Published

2024

5. Current research and future prospects of immunonutrition in gastrointestinal malignancies

Author

Xiaoyan Ma, Beibei Pei, Na Wu, Chen Wang, Yanling Yu, and Wenhui Yang

Subjects

gastrointestinal malignancy, immunonutrition, arginine, glutamine, omega-3 polyunsaturated fatty acids (ω-3PUFAs), Immunologic diseases. Allergy, RC581-607

Abstract

Immune nutrition, as an integral component of nutritional support therapy, has garnered significant attention and research in the treatment of gastrointestinal malignancies. Recent advancements in nutritional formulas containing components such as glutamine, omega-3 polyunsaturated fatty acids, and arginine have led to the development of what is now termed immune nutrition or pharmacological nutrition. These formulations go beyond traditional nutritional support, functioning more like nutritional supplements with pharmacological effects. Patients with gastrointestinal malignancies often experience malnutrition and metabolic disturbances, resulting in immune dysfunction, cytokine dysregulation, and endocrine abnormalities. These issues can compromise intestinal mucosal barrier function, affecting the efficacy and prognosis of anticancer therapies. Recent studies indicate that immune nutrition can modulate specific mechanisms involved in various immune and inflammatory pathways, thereby improving patients’ immune status and treatment outcomes. While optimal patient selection, dosing, and timing of immune nutrition are still under investigation, its potential applications in oncology are promising. This article aims to analyze the existing evidence regarding the therapeutic benefits of immune nutrition in gastrointestinal malignancies, offering insights into its clinical standardization and application.

Published

2024

6. A pH-sensitive, renewable invisible orthodontic aligners coating manipulates antibacterial and in situ remineralization functions to combat enamel demineralization

Author

Qi Qin, Wenhong Yuan, Jiarui Zhang, Yang Gao, and Yanling Yu

Subjects

white spot lesions, zwitterion, antimicrobial properties, remineralization, coating, Biotechnology, TP248.13-248.65

Abstract

During invisalign treatment, as salivary proteins or glycoproteins fill the space between the teeth and the aligners, they can easily adhere to the teeth, forming an acquired cellular film on which bacteria are highly susceptible to colonizing, which in turn leads to the development of enamel white staining lesions (WSLs), one of the major complications of orthodontic treatment. Inhibiting the activity of cariogenic bacteria while promoting the remineralization of demineralized enamel is the key to preventing and treating WSLs. Currently, the drug commonly used in clinical practice for the treatment of WSLs is silver diamine fluoride, which, although it has both antimicrobial and remineralizing effects, suffers from problems such as pulpal irritation and tooth discoloration. In this study, based on the principle of coordination chemistry, copper ions and plant polyphenol tannins were assembled on invisible orthodontic aligners to form a metal–phenol network coating (TA-Cu MPNs), and zwitterionic sulfonamethyldopamine was introduced for bionic mineralization to obtain the multifunctional coating TA-Cu MPNs@ZDS@CaP (TZC). The coating exhibits acid-responsive release of Ca2+ and PO43−, and the decomposed CaP layer can be regenerated by a simple dipping method. The TZC coating strongly inhibits common cariogenic bacteria and their biofilms. In addition, the results of the in vitro mineralization experiment show that TZC-coated invisible orthodontic aligner treatment of demineralized enamel has significant remineralization effects. It is worth mentioning that the constructed coating has a durable antibacterial effect and can meet the service cycle of invisible orthodontic aligners. This study provides theoretical and experimental bases for the prevention or treatment of WSLs in invisible orthodontic treatment.

Published

2024

7. Carboxymethyl chitosan stabilized AuNPs/ACP nanohybrids in enamel white spot lesions

Author

Xiaohua Chen, Hengyu Liu, Qianqian Zhang, Xuehua Chen, Lihui Wang, Yanling Yu, and Yuanping Hao

Subjects

carboxymethyl chitosan, gold nanoparticles, amorphous calcium phosphate, antimicrobial, remineralization, white spot lesions, Biotechnology, TP248.13-248.65

Abstract

Acidic bacterial biofilms-associated enamel white spot lesions (WSLs) are one of the hallmarks of early caries, causing demineralization and decomposition of dental hard tissues. Therefore, to effectively prevent and treat WSLs, it is important to inhibit the activity of cariogenic bacteria while promoting the remineralization of demineralized enamel. Amorphous calcium phosphate (ACP) favors hard tissue remineralization due to its biological activity and ability to release large amounts of Ca2+ and PO43-. However, ACP-based biomineralization technology is not effective due to its lack of antimicrobial properties. Here, carboxymethyl chitosan (CMCS) was employed as a reducing agent and stabilizer, and dual-functional nanohybrids CMCS/AuNPs/ACP with biofilm resistance and mineralization properties were successfully synthesized. The addition of AuNPs enhances the antimicrobial activity and participates in regulating the formation of hydroxyapatite (HAp). The nanohybrids exhibited significant destructive effects against cariogenic bacteria and their biofilms and showed bactericidal activity under bacteria-induced acidic conditions. More importantly, this nanohybrids showed superior results in promoting the remineralization of demineralized enamel, compared to fluoride and CMCS/ACP in vitro. The CMCS/AuNPs/ACP nanohybrids not only reverse the cariogenic microenvironment at the microbial level, but also promote self-repairing of enamel WSLs regarding the microstructure. The present work offers a theoretical and experimental basis for using the CMCS/AuNPs/ACP nanohybrids as a potential dual-functional agent for the clinical treatment of enamel WSLs.

Published

2024

8. Rheological evaluation of paving asphalt binder containing bio-oil from rice straw pyrolysis

Author

Jie Zhou, Zejiao Dong, Liping Cao, Lingwen Li, Yanling Yu, Zhiwei Sun, Tao Zhou, and Zhao Chen

Subjects

Bio-asphalt, Rice straw, Rheological evaluation, Fast pyrolysis, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The conversion of rice straw to bio-oil for substituting asphalt paving materials not only contributes to sustainable development in construction industry, but is also beneficial for resource recovery in agriculture. In this study, rice straw was pyrolyzed to produce bio-oil by using fluidized bed, and the influences of key pyrolysis conditions on product distribution were investigated. Bio-asphalt was prepared by high-speed mixing of pyrolysis bio-oil and petroleum asphalt, and comprehensively evaluated through rheological tests and continuous grading of performance grade (PG). Moreover, microscopic characterization was conducted to further explore the mechanism of bio-oil modification of asphalt. The test results indicate that the yield of bio-oil first rises and then drops with the increase of pyrolysis temperature. As the gas flow rate increases and the biomass particle size decreases, the bio-oil yield shows an increasing trend. The bio-asphalt containing bio-oil from lower pyrolysis temperatures has stronger rutting resistance and lower temperature susceptibility. As the pyrolysis temperature rises, the resistances of bio-asphalt to fatigue and thermal cracking are enhanced. According to continuous PG grading, the widest safe working temperature range is obtained at 450 ℃. Compared to base asphalt, bio-asphalt has superior fatigue and low-temperature performances at high pyrolysis temperatures. Additionally, it can be known from Fourier transform infrared spectroscopy that the modification of petroleum asphalt by bio-oil is a physical fusion process.

Published

2024

9. Characteristics of the a sequence of the duck Plague virus genome and specific cleavage of the viral genome based on the a sequence

Author

Qiao Yang, Yaya Feng, Yuanxin Zhang, Mingshu Wang, Renyong Jia, Dekang Zhu, Shun Chen, Mafeng Liu, Xinxin Zhao, Ying Wu, Shaqiu Zhang, Bin Tian, Xumin Ou, Sai Mao, Juan Huang, Qun Gao, Di Sun, Zhen Wu, Yu He, Ling Zhang, Yanling Yu, and Anchun Cheng

Subjects

Duck plague virus, a sequence, cleavage and packaging of viral genome, TaqMan dual qRT‒PCR, Veterinary medicine, SF600-1100

Abstract

Abstract During the replication process, the herpesvirus genome forms the head-to-tail linked concatemeric genome, which is then cleaved and packaged into the capsid. The cleavage and packing process is carried out by the terminase complex, which specifically recognizes and cleaves the concatemeric genome. This process is governed by a cis-acting sequence in the genome, named the a sequence. The a sequence and genome cleavage have been described in some herpesviruses, but it remains unclear in duck plague virus. In this study, we analysed the location, composition, and conservation of a sequence in the duck plague virus genome. The structure of the DPV genome has an a sequence of (DR4)m-(DR2)n-pac1-S termini (32 bp)-L termini (32 bp)-pac2, and the length is 841 bp. Direct repeat (DR) sequences are conserved in different DPV strains, but the number of DR copies is inconsistent. Additionally, the typical DR1 sequence was not found in the DPV a sequence. The Pac1 and pac2 motifs are relatively conserved between DPV and other herpesviruses. Cleavage of the DPV concatemeric genome was detected, and the results showed that the DPV genome can form a concatemer and is cleaved into a monomer at a specific site. We also established a sensitive method, TaqMan dual qRT‒PCR, to analyse genome cleavage. The ratio of concatemer to total viral genome was decreased during the replication process. These results will be critical for understanding the process of DPV genome cleavage, and the application of TaqMan dual qRT‒PCR will greatly facilitate more in-depth research.

Published

2024

10. Duck plague virus Us3 regulates the expression of pUL48

Author

Tong Zhou, Peilin Ruan, Mingshu Wang, Anchun Cheng, Wei Zhang, Bin Tian, Qiao Yang, Xumin Ou, Di Sun, Yu He, Zhen Wu, Shaqiu Zhang, Juan Huang, Ying Wu, Xin-Xin Zhao, Yanling Yu, Ling Zhang, Dekang Zhu, Shun Chen, Mafeng Liu, and Renyong Jia

Subjects

duck plague virus, Us3, pUL48, Animal culture, SF1-1100

Abstract

ABSTRACT: Duck plague (DP) is one of the contagious diseases caused by Duck plague virus (DPV), which is a serious threat to the development of duck farming. Us3 is a PKA-like protein kinase in alphaherpesvirus, which can regulate the biological functions of many viral proteins, but whether Us3 regulates pUL48 protein has not been reported. In this paper, Western Blot, qRT-PCR, dual luciferase reporter system and Co-IP were used to investigate the relationship between pUL48 and Us3. The results showed that: 1) pUL48 interacted with Us3 at 138-256aa through its DBD region. 2) Us3 enhanced the protein expression of pUL48 in a dose-dependent manner. 3) Us3 promoted the mRNA level of pUL48 by activating its promoter activity. 4) Us3 inhibited the transcriptional activation function of pUL48. The results can provide scientific data for perfecting and supplementing the function of alpha herpesvirus Us3 and pUL48.

Published

2024

11. High-Efficiency Hydrogen Recovery from Corn Straw Hydrolysate Using Functional Bacteria and Negative Pressure with Microbial Electrolysis Cells

Author

Ravi Shankar Yadav, Weihua He, Dandan Liang, Chao Li, Yanling Yu, Kamran Ayaz, and Yujie Feng

Subjects

microbial electrolysis cells, bioenergy production, negative pressure, functional anode bio-community, corn straw hydrolysate, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

This study attempts to overcome the challenges associated with the degradation of complex organic substances like corn straw hydrolysate in hydrogen recovery by strategically enriching functional microbial communities in single-chamber cubic microbial electrolysis cells (MECs). We applied negative pressure, using acetate or xylose as electron donors, to mitigate the hydrogen sink issues caused by methanogens. This innovative method significantly enhanced MEC performance. MECs enriched with xylose demonstrated superior performance, achieving a hydrogen production rate 3.5 times higher than that achieved by those enriched with acetate. Under negative pressure, hydrogen production in N-XyHy10 reached 0.912 ± 0.08 LH2/L MEC/D, which was 6.7 times higher than in the passive-pressure MECs (XyHy10). This advancement also resulted in substantial increases in current density (73%), energy efficiency (800%), and overall energy efficiency (540%) compared with MECs operated under passive pressure with 10% hydrolysate feed. The enrichment of polysaccharide-degrading bacteria such as Citrobacter and Pseudomonas under negative pressure underscores the potential for their industrial application in harnessing complex organic substrates for bioenergy production in single-chamber MECs. This is a promising approach to scaling up bioenergy recovery processes. The findings of this research study contribute significantly to the field by demonstrating the efficacy of negative pressure in enhancing microbial activity and energy recovery, thereby offering a promising strategy for improving bioenergy production efficiency in industries.

Published

2024

12. A novel live attenuated duck Tembusu virus vaccine targeting N7 methyltransferase protects ducklings against pathogenic strains

Author

Xuedong Wu, Shanzhi Huang, Mingshu Wang, Shun Chen, Mafeng Liu, Dekang Zhu, Xinxin Zhao, Ying Wu, Qiao Yang, Shaqiu Zhang, Juan Huang, Xumin Ou, Ling Zhang, Yunya Liu, Yanling Yu, Qun Gao, Sai Mao, Di Sun, Bin Tian, Zhongqiong Yin, Bo Jing, Anchun Cheng, and Renyong Jia

Subjects

DTMUV, live attenuated vaccine, N7-methyltransferase, immunogenicity, immunoprotection, Veterinary medicine, SF600-1100

Abstract

Abstract Duck Tembusu virus (DTMUV), an emerging pathogenic flavivirus, causes markedly decreased egg production in laying duck and neurological dysfunction and death in ducklings. Vaccination is currently the most effective means for prevention and control of DTMUV. In previous study, we have found that methyltransferase (MTase) defective DTMUV is attenuated and induces a higher innate immunity. However, it is not clear whether MTase-deficient DTMUV can be used as a live attenuated vaccine (LAV). In this study, we investigated the immunogenicity and immunoprotection of N7-MTase defective recombinant DTMUV K61A, K182A and E218A in ducklings. These three mutants were highly attenuated in both virulence and proliferation in ducklings but still immunogenic. Furthermore, a single-dose immunization with K61A, K182A or E218A could induce robust T cell responses and humoral immune responses, which could protect ducks from the challenge of a lethal-dose of DTMUV-CQW1. Together, this study provides an ideal strategy to design LAVs for DTMUV by targeting N7-MTase without changing the antigen composition. This attenuated strategy targeting N7-MTase may apply to other flaviviruses.

Published

2023

13. Application of an Antibacterial Coating Layer via Amine-Terminated Hyperbranched Zirconium–Polysiloxane for Stainless Steel Orthodontic Brackets

Author

Yaxin Qu, Xinwei Lu, Tingting Zhu, Jie Yu, Zhe Zhang, Yu Sun, Yuanping Hao, Yuanfei Wang, and Yanling Yu

Subjects

Biotechnology, TP248.13-248.65

Abstract

The massive growth of various microorganisms on the orthodontic bracket can form plaques and cause diseases. A novel amine-terminated hyperbranched zirconium–polysiloxane (HPZP) antimicrobial coating was developed for an orthodontic stainless steel tank (SST). After synthesizing HPZP and HPZP-Ag coatings, their structures were characterized by nuclear magnetic resonance spectroscopy, scanning electron microscopy, thickness measurement, contact angle detection, mechanical stability testing, and corrosion testing. The cell toxicity of the two coatings to human gingival fibroblasts (hGFs) and human oral keratinocytes (hOKs) was detected by cell counting kit eight assays, and SST, HPZP@SST, and HPZP-Ag@SST were cocultured with Staphylococcus aureus, Escherichia coli, and Streptococcus mutans for 24 hr to detect the antibacterial properties of the coatings, respectively. The results show that the coatings are about 10 μm, and the water contact angle of HPZP coating is significantly higher than that of HPZP-Ag coating (P

Published

2024

14. DHAV 3CD targets IRF7 and RIG-I proteins to block the type I interferon upstream signaling pathway

Author

Xiaoyan Xia, Anchun Cheng, Mingshu Wang, Xumin Ou, Di Sun, Shaqiu Zhang, Sai Mao, Qiao Yang, Bin Tian, Ying Wu, Juan Huang, Qun Gao, Renyong Jia, Shun Chen, Mafeng Liu, Xin-Xin Zhao, Dekang Zhu, Yanling Yu, and Ling Zhang

Subjects

Duck hepatitis a virus, 3CD protein, interferon regulatory factor 7, retinoic acid-inducible gene I, interaction, immune evasion, Veterinary medicine, SF600-1100

Abstract

Abstract Duck hepatitis A virus type 1 (DHAV-1) is an acute, highly lethal infectious agent that infects ducklings and causes up to 95% mortality in ducklings up to 1 week of age, posing a significant economic threat to the duck farming industry. Previous studies have found that the proteolytic enzyme 3 C encoded by DHAV-1 can inhibit the IRF7 protein from blocking the upstream signaling pathway of the type I interferon to promote viral replication. However, there are still few studies on the mechanism of DHAV-1 in immune evasion. Here, we demonstrate that the DHAV-1 3CD protein can interact with IRF7 protein and reduce IRF7 protein expression without directly affecting IRF7 protein nuclear translocation. Further studies showed that the 3CD protein could reduce the expression of RIG-I protein without affecting its transcription level. Furthermore, we found that the 3CD protein interacted with the N-terminal structural domain of RIG-I protein, interfered with the interaction between RIG-I and MAVS, and degraded RIG-I protein through the proteasomal degradation pathway, thereby inhibiting its mediated antiviral innate immunity to promote DHAV-1 replication. These data suggest a novel immune evasion mechanism of DHAV-1 mediated by the 3CD protein, and the results of this experiment are expected to improve the understanding of the biological functions of the viral precursor protein and provide scientific data to elucidate the mechanism of DHAV-1 infection and pathogenesis.

Published

2023

15. Regulation of alphaherpesvirus protein via post-translational phosphorylation

Author

Tong Zhou, Mingshu Wang, Anchun Cheng, Qiao Yang, Bin Tian, Ying Wu, Renyong Jia, Shun Chen, Mafeng Liu, Xin-Xin Zhao, Xuming Ou, Sai Mao, Di Sun, Shaqiu Zhang, Dekang Zhu, Juan Huang, Qun Gao, Yanling Yu, and Ling Zhang

Subjects

Alphaherpesvirus, viral proteins, protein kinases, phosphorylated proteins, phosphorylation modification, Veterinary medicine, SF600-1100

Abstract

Abstract An alphaherpesvirus carries dozens of viral proteins in the envelope, tegument and capsid structure, and each protein plays an indispensable role in virus adsorption, invasion, uncoating and release. After infecting the host, a virus eliminates unfavourable factors via multiple mechanisms to escape or suppress the attack of the host immune system. Post-translational modification of proteins, especially phosphorylation, regulates changes in protein conformation and biological activity through a series of complex mechanisms. Many viruses have evolved mechanisms to leverage host phosphorylation systems to regulate viral protein activity and establish a suitable cellular environment for efficient viral replication and virulence. In this paper, viral protein kinases and the regulation of viral protein function mediated via the phosphorylation of alphaherpesvirus proteins are described. In addition, this paper provides new ideas for further research into the role played by the post-translational modification of viral proteins in the virus life cycle, which will be helpful for understanding the mechanisms of viral infection of a host and may lead to new directions of antiviral treatment.

Published

2022

16. Secretory pathways and multiple functions of nonstructural protein 1 in flavivirus infection

Author

Senzhao Zhang, Yu He, Zhen Wu, Mingshu Wang, Renyong Jia, Dekang Zhu, Mafeng Liu, Xinxin Zhao, Qiao Yang, Ying Wu, Shaqiu Zhang, Juan Huang, Xumin Ou, Qun Gao, Di Sun, Ling Zhang, Yanling Yu, Shun Chen, and Anchun Cheng

Subjects

flavivirus, nonstructural protein 1, structure, secretory pathways, immune evasion, pathogenesis, Immunologic diseases. Allergy, RC581-607

Abstract

The genus Flavivirus contains a wide variety of viruses that cause severe disease in humans, including dengue virus, yellow fever virus, Zika virus, West Nile virus, Japanese encephalitis virus and tick-borne encephalitis virus. Nonstructural protein 1 (NS1) is a glycoprotein that encodes a 352-amino-acid polypeptide and has a molecular weight of 46–55 kDa depending on its glycosylation status. NS1 is highly conserved among multiple flaviviruses and occurs in distinct forms, including a dimeric form within the endoplasmic reticulum, a cell-associated form on the plasma membrane, or a secreted hexameric form (sNS1) trafficked to the extracellular matrix. Intracellular dimeric NS1 interacts with other NSs to participate in viral replication and virion maturation, while extracellular sNS1 plays a critical role in immune evasion, flavivirus pathogenesis and interactions with natural vectors. In this review, we provide an overview of recent research progress on flavivirus NS1, including research on the structural details, the secretory pathways in mammalian and mosquito cells and the multiple functions in viral replication, immune evasion, pathogenesis and interaction with natural hosts, drawing together the previous data to determine the properties of this protein.

Published

2023

17. The DHAV-1 protein VP1 interacts with PI3KC3 to induce autophagy through the PI3KC3 complex

Author

Juan Li, Mingshu Wang, Shan Zhou, Anchun Cheng, Xuming Ou, Di Sun, Ying Wu, Qiao Yang, Qun Gao, Juan Huang, Bin Tian, Sai Mao, Shaqiu Zhang, Xinxin Zhao, Renyong Jia, Mafeng Liu, Dekang Zhu, Shun Chen, Yunya Liu, Yanling Yu, Ling Zhang, and Leichang Pan

Subjects

Duck hepatitis A virus type 1, VP1, autophagy, PI3KC3, Beclin1, Veterinary medicine, SF600-1100

Abstract

Abstract Duck hepatitis A virus type 1 (DHAV-1) is one of the main pathogens responsible for death in ducklings. Autophagy is a catabolic process that maintains cellular homeostasis, and the PI3KC3 protein plays an important role in the initiation of autophagy. DHAV-1 infection induces autophagy in duck embryo fibroblasts (DEFs) but the molecular mechanism between it and autophagy has not been reported. First, we determined that DHAV-1 infection induces autophagy in DEFs and that autophagy induction is dependent on the integrity of viral proteins by infecting DEFs with UV-inactivated or heat-inactivated DHAV-1. Then, in experiments using the pharmacological autophagy inducer rapamycin and the autophagy inhibitor chloroquine, autophagy inhibition was shown to reduce intracellular and extracellular DHAV-1 genome copies and viral titres. These results suggest that autophagy activated by DHAV-1 infection in DEFs affects DHAV-1 proliferation and extracellular release. Next, we screened the autophagy-inducing effects of the DHAV-1 structural proteins VP0, VP3, and VP1 and found that all DHAV-1 structural proteins could induce autophagy in DEFs but not the full autophagic flux. Finally, we found that VP1 promotes protein expression of PI3KC3 and Beclin1 by western blot experiments and that VP1 interacts with PI3KC3 by co-immunoprecipitation experiments; moreover, 3-MA-induced knockdown of PI3KC3 inhibited VP1 protein-induced autophagy in DEFs. In conclusion, the DHAV-1 structural protein VP1 regulates the PI3KC3 complex by interacting with PI3KC3 to induce autophagy in DEFs.

Published

2022

18. A signature of immune-related gene pairs (IRGPs) for risk stratification and prognosis of oral cancer patients

Author

Yanling Yu, Jing Tian, Yanni Hou, Xinxin Zhang, Linhua Li, Peifu Cong, Lei Ji, and Xuri Wang

Subjects

Oral cancer, Immunotherapy, Prognosis, Biomarker, Immune infiltration, Surgery, RD1-811, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background With low response to present immunotherapy, it is imperative to identify new immune-related biomarkers for more effective immunotherapies for oral cancer. Methods RNA profiles for 390 oral cancer patients and 32 normal samples were downloaded from The Cancer Genome Atlas (TCGA) database and differentially expressed genes (DEGs) were analyzed. Immune genesets from ImmPort repository were overlapped with DEGs. After implementing univariate Cox analysis and the least absolute shrinkage and selection operator (LASSO) Cox regression analysis, key immune-related gene pairs (IRGPs) among the overlapped DEGs for predicting the survival risk were obtained. Then, the cutoff of risk score was calculated by the receiver operating characteristic (ROC) curve to stratify oral cancer patients into high and low-risk groups. Multivariate Cox analysis was used to analyze independent prognostic indicators for oral cancer. Besides, infiltration of immune cells, functional annotation, and mutation analysis of IRGPs were conducted. Biological functions correlated with IRGPs were enriched by Gene Set Enrichment Analysis (GSEA) method. Results We identified 698 differentially expressed genes (DEGs) in response to oral cancer. 17 IRGPs among the DEGs were identified and integrated into a risk score model. Patients in the high-risk group have a significantly worse prognosis than those in the low-risk group in both training (P

Published

2022

19. Duck hepatitis A virus type 1 mediates cell cycle arrest in the S phase

Author

Yuanzhi Liu, Yanglin Li, Mingshu Wang, Anchun Cheng, Xumin Ou, Sai Mao, Di Sun, Ying Wu, Qiao Yang, Renyong Jia, Bin Tian, Shaqiu Zhang, Dekang Zhu, Shun Chen, Mafeng Liu, Xinxin Zhao, Juan Huang, Qun Gao, Yanling Yu, and Ling Zhang

Subjects

Duck hepatitis A virus type 1, Cell cycle, S phase, Non-structural protein 3D, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Duck hepatitis A virus type 1 (DHAV-1) is one of the most serious pathogens endangering the duck industry. However, there are few studies on the regulation of the cell cycle by DHAV-1. Methods In this study, flow cytometry was applied to analyze the effect of DHAV-1 infection on the cell cycle of duck embryo fibroblasts (DEFs). Subsequently, we analyzed the effects of cell cycle phases on DHAV-1 replication by real-time reverse transcriptase quantitative PCR (real-time RT-qPCR). Results Flow cytometry data analysis found that DEFs in the S phase increased by 25.85% and 54.21% at 24 h and 48 h after DHAV-1 infection, respectively. The levels of viral RNA detected by real-time RT-qPCR were higher in the DEFs with synchronization in the S phase or G0/G1 phase than in the control group. However, there was no difference in viral copy number between the G2/M phase arrest and control groups. In addition, non-structural protein 3D of DHAV-1 significantly increased cells in the S phase, indicating that 3D protein is one of the reasons for the cell cycle arrest in the S phase. Conclusions In summary, DHAV-1 infection induces the cell cycle arrest of DEFs in the S phase. Both S phase and G0/G1 phase synchronization facilitate the replication of DHAV-1, and 3D protein is one of the reasons for the S phase arrest.

Published

2022

20. Duck plague virus UL41 protein inhibits RIG-I/MDA5-mediated duck IFN-β production via mRNA degradation activity

Author

Tianqiong He, Mingshu Wang, Anchun Cheng, Qiao Yang, Ying Wu, Renyong Jia, Shun Chen, Dekang Zhu, Mafeng Liu, Xinxin Zhao, Shaqiu Zhang, Juan Huang, Bin Tian, Xumin Ou, Sai Mao, Di Sun, Qun Gao, Yanling Yu, Ling Zhang, and Yunya Liu

Subjects

DPV, UL41 protein, IFN-β, RLRs, mRNA, innate immune response, Veterinary medicine, SF600-1100

Abstract

Abstract Retinoic acid-inducible gene I (RIG-I)-like receptors (RLRs) are cytosolic pattern recognition receptors that initiate innate antiviral immunity. Recent reports found that duck RLRs significantly restrict duck plague virus (DPV) infection. However, the molecular mechanism by which DPV evades immune responses is unknown. In this study, we first found that the DPV UL41 protein inhibited duck interferon-β (IFN-β) production mediated by RIG-I and melanoma differentiation-associated gene 5 (MDA5) by broadly downregulating the mRNA levels of important adaptor molecules, such as RIG-I, MDA5, mitochondrial antiviral signalling protein (MAVS), stimulator of interferon gene (STING), TANK-binding kinase 1 (TBK1), and interferon regulatory factor (IRF) 7. The conserved sites of the UL41 protein, E229, D231, and D232, were responsible for this activity. Furthermore, the DPV CHv-BAC-ΔUL41 mutant virus induced more duck IFN-β and IFN-stimulated genes (Mx, OASL) production in duck embryo fibroblasts (DEFs) than DPV CHv-BAC parent virus. Our findings provide insights into the molecular mechanism underlying DPV immune evasion.

Published

2022

21. Specific DNAzymes cleave the 300–618 nt of 5′UTR to inhibit DHAV-1 translation and replication

Author

Yanglin Li, Ling Wei, Anchun Cheng, Mingshu Wang, Xumin Ou, Sai Mao, Bin Tian, Qiao Yang, Ying Wu, Shaqiu Zhang, Juan Huang, Qun Gao, Di Sun, Xinxin Zhao, Renyong Jia, Mafeng Liu, Dekang Zhu, Shun Chen, Yanling Yu, Ling Zhang, and Leichang Pan

Subjects

duck hepatitis A virus type 1, the 300–618 nt of 5′UTR, DNAzyme, DZ454, cleavage, inhibition, Microbiology, QR1-502

Abstract

DNAzymes effectively inhibit the expression of viral genes. Duck hepatitis A virus type-1 (DHAV-1) genomic RNA carries an internal ribosome entry site (IRES). The IRES initiates the translation of DHAV-1 via a mechanism that differs from that of cap-dependent translation. Therefore, it is an attractive target for the treatment of DHAV-1. In this study, we designed 6 DNAzymes (Dzs) specifically targeting 300–618 nt sequence in the DHAV-1 5′untranslated region (UTR; a predicted IRES-like element). In the presence of divalent metal ions, three designed DNAzymes (DZ369, DZ454, and DZ514) efficiently cleaved the 300–618 nt sequence of the DHAV-1 5′UTR RNA. The activity of the Dzs was particularly dependent on Mg2+ ions. Subsequently, the translation inhibitory activity of these Dzs was determined by western blotting experiments. The Dzs effectively inhibited the translation mediated by the 300–618 nt of DHAV-1 5′UTR in duck embryo fibroblasts (DEFs). Importantly, DZ454 showed the strongest inhibitory effect, and its inhibition was time and dose dependent. However, none of the Dzs showed significant inhibition of cap-dependent translation. These results suggest that these Dzs show specificity for target RNA. Moreover, DZ454 inhibited the replication of DHAV-1. In conclusion, the designed DNAzymes can be used as inhibitors of DHAV-1 RNA translation and replication, providing new insights useful for the development of anti-DHAV-1 drugs.

Published

2022

22. Duck plague virus US3 protein kinase phosphorylates UL47 and regulates the subcellular localization of UL47

Author

Liyao Deng, Jieyu Wan, Anchun Cheng, Mingshu Wang, Bin Tian, Ying Wu, Qiao Yang, Xumin Ou, Sai Mao, Di Sun, Shaqiu Zhang, Dekang Zhu, Renyong Jia, Shun Chen, Mafeng Liu, Xinxin Zhao, Juan Huang, Qun Gao, Yanling Yu, Ling Zhang, and Leichang Pan

Subjects

duck plague virus, US3, UL47, phosphorylation, subcellular localization, Microbiology, QR1-502

Abstract

Duck plague virus (DPV) belongs to the alphaherpesvirinae and causes high morbidity and mortality in waterfowl. UL47 is a large abundant structural protein in DPV, which means that UL47 protein plays an important role in virus replication. US3 protein, as a viral protein kinase in alphaherpesviruses, has been reported to be critical for DPV virion assembly. In this study, we over-expressed UL47 and US3 proteins and found that DPV UL47 protein was a phosphorylated substrate of US3 protein, which interacted and co-localized with US3 protein in the cytoplasm. US3-regulated phosphorylation of UL47 was important for the cytoplasmic localization of UL47 because non-phosphorylated UL47 was localized in the nucleus. The six sites of UL47 at Thr29, Ser30, Ser42, Thr47, Ser161, and Thr775 were identified as the phosphorylation targets of US3 protein. In vivo, UL47 phosphorylation was also detected but not in ΔUS3-infected cells. US3 protein promoted the cytoplasmic localization of UL47 at the late stage of infection, and the lack of US3 protein caused a delay in UL47 translocation to the cytoplasm. These results enhance our understanding of the functions of US3 during DPV infection and provide some references for DPV assembly.

Published

2022

23. The substitution at residue 218 of the NS5 protein methyltransferase domain of Tembusu virus impairs viral replication and translation and may triggers RIG-I-like receptor signaling

Author

Xuedong Wu, Yuhong Pan, Juan Huang, Shanzhi Huang, Mingshu Wang, Shun Chen, Mafeng Liu, Dekang Zhu, Xinxin Zhao, Ying Wu, Qiao Yang, Shaqiu Zhang, Xumin Ou, Ling Zhang, Yunya Liu, Yanling Yu, Qun Gao, Sai Mao, Di Sun, Bin Tian, Zhongqiong Yin, Bo Jing, Anchun Cheng, and Renyong Jia

Subjects

TMUV, MTase domain, replication, translation, RIG-I-like receptor signaling, Animal culture, SF1-1100

Abstract

ABSTRACT: Flavivirus RNA cap-methylation plays an important role in viral infection, proliferation, and escape from innate immunity. The methyltransferase (MTase) of the flavivirus NS5 protein catalyzes viral RNA methylation. The E218 amino acid of the NS5 protein MTase domain is one of the active sites of flavivirus methyltransferase. In flaviviruses, the E218A mutation abolished 2’-O methylation activity and significantly reduced N-7 methylation activity. Tembusu virus (TMUV, genus Flavivirus) was a pathogen that caused neurological symptoms in ducklings and decreased egg production in laying ducks. In this study, we focused on a comprehensive understanding of the effects of the E218A mutation on TMUV characteristics and the host immune response. E218A mutation reduced TMUV replication and proliferation, but did not affect viral adsorption and entry. Based on a TMUV replicon system, we found that the E218A mutation impaired viral translation. In addition, E218A mutant virus might be more readily recognized by RIG-I-like receptors to activate the corresponding antiviral immune signaling than WT virus. Together, our data suggest that the E218A mutation of TMUV MTase domain impairs viral replication and translation and may activates RIG-I-like receptor signaling, ultimately leading to a reduction in viral proliferation.

Published

2022

24. Cross-sectional study of gender differences in physical activity-related injuries amongst Chinese college students majoring in rehabilitation

Author

Yanling Yu, Xian Li, Wangwang Yan, Beibei Feng, Jiadan Yu, and Yuling Wang

Subjects

exercise, sports injury, risk-taking behaviours, injury incidence, young adults, Public aspects of medicine, RA1-1270

Abstract

The main objective of the paper was to explore the potential risk factors for physical activity-related injuries (PARI) amongst college students majoring in rehabilitation and to analyse gender differences. A random whole group sampling method was used to recruit freshmen to seniors aged 15–25 years from over 90 universities in China that offer rehabilitation. The total number of people included was 6,032, of which 1,989 were male and 4,043 were female. The underlying risk factors for PARI of different genders were assessed using a structured self-management questionnaire including sociodemographic characteristics, physical activity levels, risk-taking and protective behaviors, and PARI. Totally 6,032 questionnaires were obtained for final analysis, with 792 total number of injured persons (415 males, 377 females), the sum of the cumulative frequency of injuries to injured persons is 1,607 (881 males, 726 females) and a PARI risk of 0.27 (males: 0.44, females: 0.18; p < 0.001; sum of the cumulative frequency of injuries/total number of people surveyed/year). For male and female students, participation in sports teams, having a high level of PA as well as with antisocial behavior were risk factors for developing PARI. Regarding female students, regional differences was associated with elevated odds to suffer from PARI. The prevalence rates of PARI vary between male and female students. The research subjects were university students in rehabilitation. Compared to general college students, rehabilitation students have a certain knowledge base related to injuries, which defines the specificity and research value of this subjects. This study provides guidance for reducing PARI in students in rehabilitation and may provide a basis for developing future injury prevention mechanisms for university students in general.

Published

2022

25. Comparison of yield and relative costs of different screening algorithms for tuberculosis in active case-finding: a cross-section study

Author

Fei Zhao, Canyou Zhang, Chongguang Yang, Yinyin Xia, Jin Xing, Guolong Zhang, Lin Xu, Xiaomeng Wang, Wei Lu, Jianwei Li, Feiying Liu, Dingwen Lin, Jianlin Wu, Xin Shen, Shuangyi Hou, Yanling Yu, Dongmei Hu, Chunyi Fu, Lixia Wang, Jun Cheng, and Hui Zhang

Subjects

Tuberculosis, Cost-effectiveness, Active case-finding, Screening, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Part of tuberculosis (TB) patients were missed if symptomatic screening was based on the main TB likely symptoms. This study conducted to compare the yield and relative costs of different TB screening algorithms in active case-finding in the whole population in China. Methods The study population was screened based on the TB likely symptoms through a face-to-face interview in selected 27 communities from 10 counties of 10 provinces in China. If the individuals had any of the enhanced TB likely symptoms, both chest X-ray and sputum tests were carried out for them furtherly. We used the McNemar test to analyze the difference in TB detection among four algorithms in active case-finding. Of four algorithms, two were from WHO recommendations including 1a/1c, one from China National Tuberculosis Program, and one from this study with the enhanced TB likely symptoms. Furthermore, a two-way ANOVA analysis was performed to analyze the cost difference in the performance of active case-finding adjusted by different demographic and health characteristics among different algorithms. Results Algorithm with the enhanced TB likely symptoms defined in this study could increase the yield of TB detection in active case-finding, compared with algorithms recommended by WHO (p

Published

2021

26. Effect of opposing needling on motor cortex excitability in healthy participants and in patients with post-stroke hemiplegia: study protocol for a single-blind, randomised controlled trial

Author

Mindong Xu, Yinyu Zi, Jianlu Wu, Nenggui Xu, Liming Lu, Jiahui Liu, Yanling Yu, Haofeng Mo, Weifeng Wen, Xiaorong Tang, Wenjuan Fan, Yu Zhang, Churong Liu, Wei Yi, and Lin Wang

Subjects

Opposing needling, Stroke, Post-stroke hemiplegia, Transcranial magnetic stimulation, Resting motor threshold, Motor-evoked potential, Medicine (General), R5-920

Abstract

Abstract Background Opposing needling has an obvious curative effect in the treatment of post-stroke hemiplegia; however, the mechanism of the opposing needling in the treatment of post-stroke hemiplegia is still not clear. The purpose of this study is to investigate the effect of opposing needling on the excitability of primary motor cortex (M1) of healthy participants and patients with post-stroke hemiplegia, which may provide insight into the mechanisms of opposing needling in treating post-stroke hemiplegia. Methods This will be a single-blind, randomised, sham-controlled trial in which 80 healthy participants and 40 patients with post-stroke hemiplegia will be recruited. Healthy participants will be randomised 1:1:1:1 to the 2-Hz, 50-Hz, 100-Hz, and sham electroacupuncture groups. Patients with post-stroke hemiplegia will be randomised 1:1 to the opposing needling or conventional treatment groups. The M1 will be located in all groups by using neuroimaging-based navigation. The stimulator coil of transcranial magnetic stimulation (TMS) will be moved over the left and right M1 in order to identify the TMS hotspot, followed by a recording of resting motor thresholds (RMTs) and motor-evoked potentials (MEPs) of the thenar muscles induced by TMS before and after the intervention. The primary outcome measure will be the percent change in the RMTs of the thenar muscles at baseline and after the intervention. The secondary outcome measures will be the amplitude (μV) and latency (ms) of the MEPs of the thenar muscles at baseline and after the intervention. Discussion The aim of this trial is to explore the effect of opposing needling on the excitability of M1 of healthy participants and patients with post-stroke hemiplegia. Trial registration Chinese Clinical Trial Registry ChiCTR1900028138 . Registered on 13 December 2019.

Published

2021

27. Evaluation of safety and immunogenicity of duck-plague virus gC/gE double gene deletion

Author

Peilin Ruan, Xin Feng, Anchun Cheng, Mingshu Wang, Wei Zhang, Ying Wu, Qiao Yang, Bin Tian, Xuming Ou, Di Sun, Shaqiu Zhang, Sai Mao, Dekang Zhu, Renyong Jia, Shun Chen, Mafeng Liu, Xin-Xin Zhao, Juan Huang, Qun Gao, Yanling Yu, Ling Zhang, and Leichang Pan

Subjects

duck plague, gC, gE, gene deletion, immunogenicity, vaccine, Immunologic diseases. Allergy, RC581-607

Abstract

Duck plague caused by duck plague virus (DPV) is a highly contagious disease that can cause serious morbidity and death in waterfowl such as ducks and geese, and bring huge economic losses to the duck industry. In this study, on the basis of the duck plague virus gC gene deletion strain CHv-ΔgC, based on the duck plague virus bacterial artificial chromosome (BAC) platform in our laboratory, the gE gene was knocked out using the traceless deletion technology to obtain gC/gE double gene deletion candidate vaccine strain CHv-ΔgC/gE. The double gene deletion strain (CHv-ΔgC/gE) constructed in this study has greatly weakened virulence, no pathogenicity to ducks, and stable genetic characteristics in vitro and in vivo. Ducks immunized with CHv-ΔgC/gE can produce neutralizing antibodies and ELISA antibody levels comparable to those of commercial duck plague attenuated vaccine immunization, and can resist 100 LD50 CHv challenge of ducks, with good immune protection effect. It has the potential to be further developed into duck plague gC/gE double gene deletion, marked attenuated vaccine.

Published

2022

28. Duck Plague Virus Negatively Regulates IFN Signaling to Promote Virus Proliferation via JNK Signaling Pathway

Author

Liping Wu, Bin Tian, Mingshu Wang, Anchun Cheng, Renyong Jia, Dekang Zhu, Mafeng Liu, Qiao Yang, Ying Wu, Juan Huang, XinXin Zhao, Shun Chen, Shaqiu Zhang, Xumin Ou, Sai Mao, Qun Gao, Di Sun, Yanling Yu, Ling Zhang, and LeiCHang Pan

Subjects

duck plague virus, duck monocytes/macrophages, RNA-seq, signal transduction pathway, JNK signaling pathway, Immunologic diseases. Allergy, RC581-607

Abstract

Duck plague virus (DPV), a member of the alphaherpesvirus subfamily, can cause severe damage and immunosuppression in ducks and geese in China. Since lacking an available cell model, the antiviral signal transduction pathways induction and regulation mechanisms related to DPV infection in duck cells are still enigmatic. Our previous study developed a monocyte/macrophages cell model, which has been applied to study innate immunity with DPV. In the present study, we compared and analyzed transcriptome associated with the DPV infection of CHv (virulent strain) and CHa (avirulent strain) at 48hpi based on the duck monocyte/macrophages cell model and RNA-seq technology. Differentially expressed genes (DEGs) analysis showed 2,909 and 2,438 genes altered in CHv and CHa infected cells compared with control cells. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analysis showed that the DEGs were mainly involved in biological processes such as metabolic pathways, viral infectious diseases, immune system, and signal transduction. The CHv and CHa virus differentially regulated MAPK, NF-κB, and IFN signaling pathways based on transcriptome sequencing data and RT-qPCR results. The JNK inhibitor SP600125 enhanced the IFN signaling, but potentially reduced the VSV and DPV titers in the cell culture supernatant, indicating that JNK negatively regulates the IFN pathway and the inflammatory pathway to promote virus proliferation. The research results may provide promising information to understand the pathogenesis of DPV and provide a novel mechanism by which DPV modulates antiviral signaling and facilitate virus proliferation through hijacking the JNK pathway, which provides a new means for the prevention and control of DPV infection.

Published

2022

29. The role of SOCS proteins in the development of virus- induced hepatocellular carcinoma

Author

Jinyan Xie, Mingshu Wang, Anchun Cheng, Renyong Jia, Dekang Zhu, Mafeng Liu, Shun Chen, XinXin Zhao, Qiao Yang, Ying Wu, Shaqiu Zhang, Qihui Luo, Yin Wang, Zhiwen Xu, Zhengli Chen, Ling Zhu, Yunya Liu, Yanling Yu, Ling Zhang, and Xiaoyue Chen

Subjects

SOCS, Hepatocellular carcinoma, Cytokine, JAK-STAT signaling pathway, Hepatitis virus, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Liver cancer has become one of the most common cancers and has a high mortality rate. Hepatocellular carcinoma is one of the most common liver cancers, and its occurrence and development process are associated with chronic hepatitis B virus (HBV) and hepatitis C virus (HCV) infections. Main body The serious consequences of chronic hepatitis virus infections are related to the viral invasion strategy. Furthermore, the viral escape mechanism has evolved during long-term struggles with the host. Studies have increasingly shown that suppressor of cytokine signaling (SOCS) proteins participate in the viral escape process. SOCS proteins play an important role in regulating cytokine signaling, particularly the Janus kinase-signal transducer and activator of transcription (JAK-STAT) signaling pathway. Cytokines stimulate the expression of SOCS proteins, in turn, SOCS proteins inhibit cytokine signaling by blocking the JAK-STAT signaling pathway, thereby achieving homeostasis. By utilizing SOCS proteins, chronic hepatitis virus infection may destroy the host’s antiviral responses to achieve persistent infection. Conclusions This review provides recent knowledge regarding the role of SOCS proteins during chronic hepatitis virus infection and provides some new ideas for the future treatment of chronic hepatitis.

Published

2021

30. The lipopolysaccharide outer core transferase genes pcgD and hptE contribute differently to the virulence of Pasteurella multocida in ducks

Author

Xinxin Zhao, Hui Shen, Sheng Liang, Dekang Zhu, Mingshu Wang, Renyong Jia, Shun Chen, Mafeng Liu, Qiao Yang, Ying Wu, Shaqiu Zhang, Juan Huang, Xumin Ou, Sai Mao, Qun Gao, Ling Zhang, Yunya Liu, Yanling Yu, Leichang Pan, and Anchun Cheng

Subjects

Pasteurella multocida, LPS, Outer core, pcgD, hptE, Virulence, Veterinary medicine, SF600-1100

Abstract

Abstract Fowl cholera caused by Pasteurella multocida exerts a massive economic burden on the poultry industry. Lipopolysaccharide (LPS) is essential for the growth of P. multocida genotype L1 strains in chickens and specific truncations to the full length LPS structure can attenuate bacterial virulence. Here we further dissected the roles of the outer core transferase genes pcgD and hptE in bacterial resistance to duck serum, outer membrane permeability and virulence in ducks. Two P. multocida mutants, ΔpcgD and ΔhptE, were constructed, and silver staining confirmed that they all produced truncated LPS profiles. Inactivation of pcgD or hptE did not affect bacterial susceptibility to duck serum and outer membrane permeability but resulted in attenuated virulence in ducks to some extent. After high-dose inoculation, ΔpcgD showed remarkably reduced colonization levels in the blood and spleen but not in the lung and liver and caused decreased injuries in the spleen and liver compared with the wild-type strain. In contrast, the ΔhptE loads declined only in the blood, and ΔhptE infection caused decreased splenic lesions but also induced severe hepatic lesions. Furthermore, compared with the wild-type strain, ΔpcgD was significantly attenuated upon oral or intramuscular challenge, whereas ΔhptE exhibited reduced virulence only upon oral infection. Therefore, the pcgD deletion caused greater virulence attenuation in ducks, indicating the critical role of pcgD in P. multocida infection establishment and survival.

Published

2021

31. Comparative transcriptomic analysis of the different developmental stages of ovary in red swamp crayfish Procambarus clarkii

Author

Yizhi Zhong, Wenbin Zhao, Zhangsheng Tang, Liming Huang, Xiangxing Zhu, Xiang Liang, Aifen Yan, Zhifa Lu, Yanling Yu, Dongsheng Tang, Dapeng Wang, and Zhuanling Lu

Subjects

Different developmental stages, Molecular mechanisms, Ovary, Procambarus clarkii, Transcriptomics, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The red swamp crayfish Procambarus clarkii is a freshwater species that possesses high adaptability, environmental tolerance, and fecundity. P. clarkii is artificially farmed on a large scale in China. However, the molecular mechanisms of ovarian development in P. clarkii remain largely unknown. In this study, we identified four stages of P. clarkii ovary development, the previtellogenic stage (stage I), early vitellogenic stage (stage II), middle vitellogenic stage (stage III), and mature stage (stage IV) and compared the transcriptomics among these four stages through next-generation sequencing (NGS). Results The total numbers of clean reads of the four stages ranged from 42,013,648 to 62,220,956. A total of 216,444 unigenes were obtained, and the GC content of most unigenes was slightly less than the AT content. Principal Component Analysis (PCA) and Anosim analysis demonstrated that the grouping of these four stages was feasible, and each stage could be distinguished from the others. In the expression pattern analysis, 2301 genes were continuously increase from stage I to stage IV, and 2660 genes were sharply decrease at stage IV compared to stages I-III. By comparing each of the stages at the same time, four clusters of differentially expressed genes (DEGs) were found to be uniquely highly expressed in stage I (136 genes), stage II (43 genes), stage III-IV (49 genes), and stage IV (22 genes), thus exhibiting developmental stage specificity. Moreover, in comparisons between adjacent stages, the number of DEGs between stage III and IV was the highest. GO enrichment analysis demonstrated that nutrient reservoir activity was highest at stage II and that this played a foreshadowing role in ovarian development, and the GO terms of cell, intracellular and organelle participated in the ovary maturation during later stages. In addition, KEGG pathway analysis revealed that the early development of the ovary was mainly associated with the PI3K-Akt signaling pathway and focal adhesion; the middle developmental period was related to apoptosis, lysine biosynthesis, and the NF-kappa B signaling pathway; the late developmental period was involved with the cell cycle and the p53 signaling pathway. Conclusion These transcriptomic data provide insights into the molecular mechanisms of ovarian development in P. clarkii. The results will be helpful for improving the reproduction and development of this aquatic species.

Published

2021

32. Two nuclear localization signals regulate intracellular localization of the duck enteritis virus UL13 protein

Author

Linjiang Yang, Xixia Hu, Anchun Cheng, Mingshu Wang, Renyong Jia, Qiao Yang, Ying Wu, Shun Chen, Mafeng Liu, Dekang Zhu, Xumin Ou, XingJian Wen, Sai Mao, Di Sun, Shaqiu Zhang, Xinxin Zhao, Juan Huang, Qun Gao, Yunya Liu, Yanling Yu, Ling Zhang, Bin Tian, Leichang Pan, and Xiaoyue Chen

Subjects

duck enteritis virus, conserved herpesvirus protein kinase, UL13, NLS, Animal culture, SF1-1100

Abstract

Duck enteritis virus (DEV) multifunctional tegument protein UL13 is predicted to be a conserved herpesvirus protein kinase; however, little is known about its subcellular localization signal. In this study, through transfection of 2 predicted nuclear signals of DEV UL13 fused to enhanced green fluorescent protein, 2 bipartite nuclear localization signals (NLS) were identified. We found that ivermectin blocked the NLS-mediated nuclear import of DEV UL13, showing that the nuclear localization signal of DEV UL13 is a classical importin α- and β-dependent process. We constructed a DEV UL13 mutant strain in which the NLS of DEV UL13 was deleted to explore whether deletion of the NLS affects viral replication. Amino acids 4 to 7 and 90 to 96 were predicted to be NLSs, further proving that nuclear import occurs via a classical importin α- and β-dependent process. We also found that the NLS of pUL13 had no effect on DEV replication in cell culture. Our study enhances the understanding of DEV pUL13. Taken together, these results provide significant information regarding the biological function of pUL13 during DEV infection.

Published

2021

33. Comparative genomics and metabolomics analysis of Riemerella anatipestifer strain CH-1 and CH-2

Author

Jibin Liu, Anchun Cheng, Mingshu Wang, Mafeng Liu, Dekang Zhu, Qiao Yang, Ying Wu, Renyong Jia, Shun Chen, Xinxin Zhao, Shaqiu Zhang, Juan Huang, Xumin Ou, Sai Mao, Qun Gao, Xingjian Wen, Ling Zhang, Yunya Liu, Yanling Yu, Bin Tian, Leichang Pan, Mujeeb Ur Rehman, and Xiaoyue Chen

Subjects

Medicine, Science

Abstract

Abstract Riemerella anatipestifer is a major pathogenic microorganism in poultry causing serositis with significant mortality. Serotype 1 and 2 were most pathogenic, prevalent, and liable over the world. In this study, the intracellular metabolites in R. anatipestifer strains RA-CH-1 (serotype 1) and RA-CH-2 (serotype 2) were identified by gas chromatography-mass spectrometer (GC–MS). The metabolic profiles were performed using hierarchical clustering and partial least squares discriminant analysis (PLS-DA). The results of hierarchical cluster analysis showed that the amounts of the detected metabolites were more abundant in RA-CH-2. RA-CH-1 and RA-CH-2 were separated by the PLS-DA model. 24 potential biomarkers participated in nine metabolisms were contributed predominantly to the separation. Based on the complete genome sequence database and metabolite data, the first large-scale metabolic models of iJL463 (RA-CH-1) and iDZ470 (RA-CH-2) were reconstructed. In addition, we explained the change of purine metabolism combined with the transcriptome and metabolomics data. The study showed that it is possible to detect and differentiate between these two organisms based on their intracellular metabolites using GC–MS. The present research fills a gap in the metabolomics characteristics of R. anatipestifer.

Published

2021

34. Research Note: Duck plague virus glycoprotein I influences cell–cell spread and final envelope acquisition

Author

Tian Liu, Mingshu Wang, Anchun Cheng, Renyong Jia, Ying Wu, Qiao Yang, Dekang Zhu, Shun Chen, Mafeng Liu, Xinxin Zhao, Shaqiu Zhang, Juan Huang, Sai Mao, Xumin Ou, Qun Gao, XingJian Wen, Di Sun, Yunya Liu, Yanling Yu, Ling Zhang, Bin Tian, Leichang Pan, and Xiaoyue Chen

Subjects

DPV, gI, viral cell-cell spread, viral final envelopment, Animal culture, SF1-1100

Abstract

To determine the role of glycoprotein I (gI) in duck plague virus (DPV), a gI-deleted mutant (BAC-CHv-ΔgI) and a gI-revertant virus (BAC-CHv-ΔgI Rev) were constructed by using a markerless two-step Red recombination system implemented on the DPV genome cloned into a bacterial artificial chromosome (BAC). Mutants were characterized on duck embryo fibroblast (DEF) cells compared with wild-type virus. BAC-CHv-ΔgI produced viral plaques on DEF cells that were on average approximately 57.2% smaller than those produced by BAC-CHv-ΔgI Rev and wild-type virus. Electron microscopy confirmed that deleting of gI resulted in nucleocapsids accumulated around the cytoplasm vesicles and few of them could complete the final envelopment process. These results clearly indicated that DPV gI plays significant roles in viral cell-cell spread and viral final envelopment process.

Published

2020

35. Prevalence and Associated Factors of Complains on Depression, Anxiety, and Stress in University Students: An Extensive Population-Based Survey in China

Author

Yanling Yu, Wangwang Yan, Jiadan Yu, Yangfan Xu, Dan Wang, and Yuling Wang

Subjects

depression, anxiety, stress, university students, epidemiological investigation, Psychology, BF1-990

Abstract

Mental health issues are becoming increasingly prevalent amongst university students. However, research on the psychological profile of the general university population is relatively limited. Thus, this study analyses the current state of university students’ psychological conditions; the demographic differences in depression, anxiety, and stress and the influencing factors. The objectives are to provide additional appropriate guidance in mental health for university students with different demographic characteristics. A cross-sectional study of 6,032 university students nationwide was conducted from October 2020 to January 2021. A randomized whole-group sampling method was used to select the study participants, and the 21-item Depression, Anxiety, and Stress Scale (DASS) was used. P < 0.05 in the final model were considered statistically significant. The number of university students with no complain of depression, anxiety, or stress was 3,751 (62.2%). The odds of developing complain of depression were higher amongst anxious respondents (AOR = 23.417, 95% CI: 19.706, 27.826) and senior year (AOR = 2.210, 95% CI: 1.657, 2.947) than their counterparts. Students with “myopia” were 1.263 times more likely to be anxious (AOR = 1.263, 95% CI: 1.042–1.530). In terms of “impaired” or not, impaired is defined as any injury, such as sprain, strain, and fracture, “impaired” university students were 1.321 times more likely to be anxious (AOR = 1.321, 95% CI: 1.064–1.641). Furthermore, history of impairment and myopia increased the odds of stress by 1.305 (AOR = 1.305, 95% CI: 1.022–1.667) and 1.305 (AOR = 1.305, 95% CI: 1.012–1.683), respectively. Myopia, physical-activity-related injury (PARI) and irrational eating habits are risk factors for complain of anxiety and stress. Males, upper grades, low parental education, and irrational eating habits are risk factors for complain of depression. Low physical activity levels are also an influential factor for complain of depression. DASS consists of interchangeable risk factors and multiple complains of DASS may coexist.

Published

2022

36. Duck enteritis virus pUL47, as a late structural protein localized in the nucleus, mainly depends on residues 40 to 50 and 768 to 777 and inhibits IFN-β signalling by interacting with STAT1

Author

Tianqiong He, Mingshu Wang, Anchun Cheng, Qiao Yang, Renyong Jia, Ying Wu, Juan Huang, Shun Chen, Xin-Xin Zhao, Mafeng Liu, Dekang Zhu, Shaqiu Zhang, Xuming Ou, Sai Mao, Qun Gao, Di Sun, XinJian Wen, Bin Tian, Yunya Liu, Yanling Yu, Ling Zhang, Leichang Pan, and Xiaoyue Chen

Subjects

DEV, UL47, NLS, localization, IFN-β, STAT1, Veterinary medicine, SF600-1100

Abstract

Abstract Duck enteritis virus (DEV) is a member of the Alphaherpesvirinae subfamily. The characteristics of some DEV genes have been reported. However, information regarding the DEV UL47 gene is limited. In this study, we identified the DEV UL47 gene encoding a late structural protein located in the nucleus of infected cells. We further found that two domains of DEV pUL47, amino acids (aa) 40 to 50 and 768 to 777, could function as nuclear localization sequence (NLS) to guide the nuclear localization of pUL47 and nuclear translocation of heterologous proteins, including enhanced green fluorescent protein (EGFP) and beta-galactosidase (β-Gal). Moreover, pUL47 significantly inhibited polyriboinosinic:polyribocytidylic acid [poly(I:C)]-induced interferon beta (IFN-β) production and downregulated interferon-stimulated gene (ISG) expression, such as Mx and oligoadenylate synthetase-like (OASL), by interacting with signal transducer and activator of transcription-1 (STAT1).

Published

2020

37. The role of host eIF2α in viral infection

Author

Yuanzhi Liu, Mingshu Wang, Anchun Cheng, Qiao Yang, Ying Wu, Renyong Jia, Mafeng Liu, Dekang Zhu, Shun Chen, Shaqiu Zhang, Xin-Xin Zhao, Juan Huang, Sai Mao, Xumin Ou, Qun Gao, Yin Wang, Zhiwen Xu, Zhengli Chen, Ling Zhu, Qihui Luo, Yunya Liu, Yanling Yu, Ling Zhang, Bin Tian, Leichang Pan, Mujeeb Ur Rehman, and Xiaoyue Chen

Subjects

Virus, eIF2α, General translation inhibition, Stress granule, Cell replication cycle, Autophagy/apoptosis, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background eIF2α is a regulatory node that controls protein synthesis initiation by its phosphorylation or dephosphorylation. General control nonderepressible-2 (GCN2), protein kinase R-like endoplasmic reticulum kinase (PERK), double-stranded RNA (dsRNA)-dependent protein kinase (PKR) and heme-regulated inhibitor (HRI) are four kinases that regulate eIF2α phosphorylation. Main body In the viral infection process, dsRNA or viral proteins produced by viral proliferation activate different eIF2α kinases, resulting in eIF2α phosphorylation, which hinders ternary tRNAMet-GTP-eIF2 complex formation and inhibits host or viral protein synthesis. The stalled messenger ribonucleoprotein (mRNP) complex aggregates under viral infection stress to form stress granules (SGs), which encapsulate viral RNA and transcription- and translation-related proteins, thereby limiting virus proliferation. However, many viruses have evolved a corresponding escape mechanism to synthesize their own proteins in the event of host protein synthesis shutdown and SG formation caused by eIF2α phosphorylation, and viruses can block the cell replication cycle through the PERK-eIF2α pathway, providing a favorable environment for their own replication. Subsequently, viruses can induce host cell autophagy or apoptosis through the eIF2α-ATF4-CHOP pathway. Conclusions This review summarizes the role of eIF2α in viral infection to provide a reference for studying the interactions between viruses and hosts.

Published

2020

38. Host shutoff activity of VHS and SOX-like proteins: role in viral survival and immune evasion

Author

Tianqiong He, Mingshu Wang, Anchun Cheng, Qiao Yang, Ying Wu, Renyong Jia, Mafeng Liu, Dekang Zhu, Shun Chen, Shaqiu Zhang, Xin-Xin Zhao, Juan Huang, Di Sun, Sai Mao, Xuming Ou, Yin Wang, Zhiwen Xu, Zhengli Chen, Lin Zhu, Qihui Luo, Yunya Liu, Yanling Yu, Ling Zhang, Bin Tian, Leichang Pan, Mujeeb Ur Rehman, and Xiaoyue Chen

Subjects

Herpesvirus, Host shutoff, VHS, ICP27, SOX, mRNA, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Host shutoff refers to the widespread downregulation of host gene expression and has emerged as a key process that facilitates the reallocation of cellular resources for viral replication and evasion of host antiviral immune responses. Main body The Herpesviridae family uses a number of proteins that are responsible for host shutoff by directly targeting messenger RNA (mRNA), including virion host shutoff (VHS) protein and the immediate-early regulatory protein ICP27 of herpes simplex virus types 1 (HSV-1) and the SOX (shutoff and exonuclease) protein and its homologs in Gammaherpesvirinae subfamilies, although these proteins are not homologous. In this review, we highlight evidence that host shutoff is promoted by the VHS, ICP27 and SOX-like proteins and that they also contribute to immune evasion. Conclusions Further studies regarding the host shutoff proteins will not only contribute to provide new insights into the viral replication, expression and host immune evasion process, but also provide new molecular targets for the development of antiviral drugs and therapies.

Published

2020

39. Duck enteritis virus UL21 is a late gene encoding a protein that interacts with pUL16

Author

Linjiang Yang, Mingshu Wang, Chunhui Zeng, Yong Shi, Anchun Cheng, Mafeng Liu, Dekang Zhu, Shun Chen, Renyong Jia, Qiao Yang, Ying Wu, Shaqiu Zhang, Xinxin Zhao, Juan Huang, Yunya Liu, Xumin Ou, Sai Mao, Yanling Yu, Ling Zhang, Bin Tian, Leichang Pan, Mujeeb Ur Rehman, and Xiaoyue Chen

Subjects

Duck enteritis virus, UL21, UL16, Late gene, Interaction, Veterinary medicine, SF600-1100

Abstract

Abstract Background pUL21 is a conserved protein of Alphaherpesvirinae that performs multiple important functions. The C-terminus of pUL21 in other members of this subfamily has RNA-binding ability; this domain contributes to pseudorabies virus (PRV) retrograde axonal transport in vitro and in vivo and participates in newly replicated viral DNA packaging and intracellular virus transport. However, knowledge regarding duck enteritis virus (DEV) pUL21 is limited. Results We verified that DEV UL21 is a γ2 gene that encodes a structural protein. Moreover, we observed that pUL21 localized to the nucleus and cytoplasm. DEV pUL21 interacted with pUL16 and formed a complex in transfected human embryonic kidney (HEK) 293 T cells and DEV-infected duck embryo fibroblasts (DEFs). These results were further confirmed by CO-IP assays. Conclusions The DEV UL21 gene is a late gene, and pUL21 localizes to the nucleus and cytoplasm. DEV UL21 is a virion component. In addition, pUL21 can interact with pUL16. These findings provide insight into the characteristics of UL21 and the interaction between pUL21 and its binding partner pUL16. Our study enhances the understanding of DEV pUL21.

Published

2020

40. Osseointegration Effect of Micro-Nano Implants Loaded With Kaempferol in Osteoporotic Rats

Author

Anyue Wang, Wenhong Yuan, Yu Song, Yanjun Zang, and Yanling Yu

Subjects

Osteoporosis, implants, micro-nano, Kaempferol, Osseointegration, chitosan, Biotechnology, TP248.13-248.65

Abstract

Objective: To investigate the effect of osseointegration of kaempferol loaded on the surface of micro-nanomorphic implants in ovariectomized rats.Methods: Titanium flakes were polished to obtain the PT group, anodized and acid-etched to obtain the NT and WNT groups, loaded with kaempferol to obtain the KNT and KWNT groups, and spin-coated on chitosan-gelatin composite film to obtain the KNT-CG and KWNT-CG groups. In vitro experiments were performed to observe the physicochemical properties of the titanium tablets in each group through scanning electron microscopy and contact angle experiments. The cytotoxicity and drug release pattern were observed using CCK-8 and drug release assays. An osteoporosis rat model was established. Pure titanium implants were divided into PT, NT, WNT, KNT-CG, and KWNT-CG groups after the same treatment and used in the in vivo experiments and then implanted in the femur of mice in each group. After 4 weeks, all samples were collected for toluidine blue staining, micro-computed tomography scanning, and bone morphometry analysis to evaluate their osteogenic properties.Results: According to scanning electron microscopy, the surface of the titanium flakes had a micro-nano morphology in the WNT group and the KNT and KWNT groups were functionally loaded with kaempferol. In CCK-8 and drug release experiments, the loaded kaempferol and gelatin composite membranes showed no significant toxic effects on cells. The drug release time in the KNT-CG and KWNT-CG groups was significantly longer than that in the KNT and KWNT groups, with the release time in the KWNT-CG group reaching 15 days. In vivo experiments micro-computed tomography and bone morphometry analysis showed that the osteoporosis model had been successfully constructed. The bone volume fraction around the implant increased. Toluidine blue staining showed new bone formation and a significantly increased number of bone trabeculae.Conclusion: Kaempferol micro-nanocomposite coating improved the osseointegration ability of implants in osteoporotic rats.

Published

2022

41. Effect of Electro-Acupuncture on Lateralization of the Human Swallowing Motor Cortex Excitability by Navigation-Transcranial Magnetic Stimulation-Electromyography

Author

Xiaorong Tang, Mindong Xu, Jiayi Zhao, Jiahui Shi, Yingyu Zi, Jianlu Wu, Jing Xu, Yanling Yu, LuLu Yao, Jiayin Ou, Yitong Li, Shuqi Yao, Hang Lv, Liming Lu, Nenggui Xu, and Lin Wang

Subjects

lateralization, swallowing, single-pulse TMS, resting motor threshold, motor evoked potential, electro-acupuncture (EA), Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

BackgroundThe use of transcranial magnetic stimulation combined with electromyography for the functional evaluation of the cerebral cortex in both clinical and non-clinical populations is becoming increasingly common. Numerous studies have shown that electro-acupuncture (EA) can regulate cerebral cortical excitability. However, the effect of EA on the lateralization of the human swallowing motor cortex excitability is not yet fully understood.ObjectiveThe aim of this study was to assess whether lateralization is present in the swallowing motor cortex of healthy subjects, and to investigate the impact of EA at Lianquan (CV23) and Fengfu (GV16) on lateralization.MethodsForty subjects were randomized 1:1 into the EA group and the sham-EA group. The bilateral swallowing motor cortices was located by a neuroimaging navigation system. Then, the resting motor threshold (RMT) and motor evoked potential (MEP) of the mylohyoid of healthy subjects were recorded while applying combined transcranial magnetic stimulation and electromyography before and after EA or sham-EA.ResultsFirst, the RMT and MEP latency of the contralateral mylohyoid innervated by the right swallowing cortex (71.50 ± 1.67%, 8.30 ± 0.06 ms) were lower than those innervated by the left (79.38 ± 1.27%, 8.40 ± 0.06 ms). Second, EA at CV23 and GV16 reduced the bilateral RMT and enhanced the bilateral MEP latency and amplitude (P = 0.005, P < 0.001; P = 0.002, P = 0.001; P = 0.002, P = 0.009), while sham-EA did not (P > 0.05). Third, EA had an effect on the RMT and MEP latency in terms of lateralization changes, but this was not significant (P = 0.067, P = 0.156).ConclusionThe right swallowing motor cortex of healthy subjects is more excitable than that of the left at resting state. Thus, we found that lateralization is present in the swallowing motor cortex of healthy people, which might indicate a hemispheric dominance of swallowing predominates in the right swallowing motor cortex. In addition, EA at CV23 and GV16 can instantly promote the excitability of the bilateral swallowing motor cortices. But there was no significant difference in EA stimulation in terms of lateralization.

Published

2022

42. Prevalence of fluoroquinolone resistance and mutations in the gyrA, parC and parE genes of Riemerella anatipestifer isolated from ducks in China

Author

Dekang Zhu, Mingyu Zheng, Jinge Xu, Mingshu Wang, Renyong Jia, Shun Chen, Mafeng Liu, Xinxin Zhao, Qiao Yang, Ying Wu, Shaqiu Zhang, Juan Huang, Yunya Liu, Ling Zhang, Yanling Yu, Leichang Pan, Xiaoyue Chen, and Anchun Cheng

Subjects

Riemerella anatipestifer, Fluoroquinolone resistance, Point mutant, gyrA gene, parC gene, parE gene, Microbiology, QR1-502

Abstract

Abstract Background Riemerella anatipestifer is one of the most serious infectious disease-causing pathogens in the duck industry. Drug administration is an important method for prevention and treatment of infection in duck production, leading to widespread drug resistance in R. anatipestifer. Methods For a total of 162 isolates of R. anatipestifer, the MICs were determined for a quinolone antimicrobial agent, namely, nalidixic acid, and three fluoroquinolones, namely, ciprofloxacin, enrofloxacin and ofloxacin. The gyrA, parC, and parE gene fragments were amplified by PCR to identify the mutation sites in these strains. Site-directed mutants with mutations that were detected at a high frequency in vivo were constructed (hereafter referred to as site-directed in vivo mutants), and the MICs of these four drugs for these strains were determined. Results In total, 100, 97.8, 99.3 and 97.8% of the 137 R. anatipestifer strains isolated between 2013 and 2018 showed resistance to nalidixic acid, ciprofloxacin, enrofloxacin, and ofloxacin, respectively. The high-frequency mutation sites were detected in a total of 162 R. anatipestifer strains, such as Ser83Ile and Ser83Arg, which are two types of substitution mutations of amino acid 83 in GyrA; Val799Ala and Ile811Val in ParC; and Val357Ile, His358Tyr, and Arg541Lys in ParE. MIC analysis results for the site-directed in vivo mutants showed that the strains with only the Ser83Ile mutation in GyrA exhibited an 8–16-fold increase in MIC values, and all mutants showed resistance to ampicillin and ceftiofur. Conclusions The resistance of R. anatipestifer to quinolone agents is a serious problem. Amino acid 83 in GyrA is the major target mutation site for the fluoroquinolone resistance mechanism of R. anatipestifer.

Published

2019

43. The LORF5 Gene Is Non-essential for Replication but Important for Duck Plague Virus Cell-to-Cell Spread Efficiently in Host Cells

Author

Bingjie Shen, Yunjiao Li, Anchun Cheng, Mingshu Wang, Ying Wu, Qiao Yang, Renyong Jia, Bin Tian, Xumin Ou, Sai Mao, Di Sun, Shaqiu Zhang, Dekang Zhu, Shun Chen, Mafeng Liu, Xin-Xin Zhao, Juan Huang, Qun Gao, Yunya Liu, Yanling Yu, Ling Zhang, and Leichang Pan

Subjects

duck plague virus, LORF5 gene, virus replication, non-essential, cell-to-cell spread, Microbiology, QR1-502

Abstract

Duck plague virus (DPV) can cause high morbidity and mortality in many waterfowl species within the order Anseriformes. The DPV genome contains 78 open reading frames (ORFs), among which the LORF2, LORF3, LORF4, LORF5, and SORF3 genes are unique genes of avian herpesvirus. In this study, to investigate the role of this unique LORF5 gene in DPV proliferation, we generated a recombinant virus that lacks the LORF5 gene by a two-step red recombination system, which cloned the DPV Chinese virulent strain (DPV CHv) genome into a bacterial artificial chromosome (DPV CHv-BAC); the proliferation law of LORF5-deleted mutant virus on DEF cells and the effect of LORF5 gene on the life cycle stages of DPV compared with the parent strain were tested. Our data revealed that the LORF5 gene contributes to the cell-to-cell transmission of DPV but is not relevant to virus invasion, replication, assembly, and release formation. Taken together, this study sheds light on the role of the avian herpesvirus-specific gene LORF5 in the DPV proliferation life cycle. These findings lay the foundation for in-depth functional studies of the LORF5 gene in DPV or other avian herpesviruses.

Published

2021

44. Duck Plague Virus pUL48 Protein Activates the Immediate-Early Gene to Initiate the Transcription of the Virus Gene

Author

Tong Zhou, Dengjian Fan, Mingshu Wang, Anchun Cheng, Ying Wu, Qiao Yang, Bin Tian, Renyong Jia, Xumin Ou, Sai Mao, Di Sun, Shaqiu Zhang, Dekang Zhu, Shun Chen, Mafeng Liu, Xin-Xin Zhao, Juan Huang, Qun Gao, Yanling Yu, and Ling Zhang

Subjects

duck plague virus, pUL48, immediate early genes, transcriptional activation function, transcriptional activation domain, Microbiology, QR1-502

Abstract

Duck plague caused by the duck plague virus (DPV) is an infectious disease that seriously harms the waterfowl breeding industry. The VP16 protein of α herpesvirus can bind to specific cis-acting elements upstream of the promoter of the immediate-early (IE, α) gene to promote the transcription of the IE gene, so it is also called the trans-inducer of IE gene (α-TIF). However, no studies on DPV α-TIF have been reported. This study investigated the DPV pUL48, a homolog of HSV-1 VP16, transcriptional activation region, target sequence, and viral protein affecting its transcriptional activation using a dual-luciferase reporter gene detection system, and pUL48 was identified as the α-TIF of DPV. (1) The regulation of pUL48 on DPV different gene promoters showed that pUL48 could activate all the promoters of IE genes (ICP4, ICP22, and ICP27) but not the promoters of early and late genes. (2) The activity of pUL48 to ICP4 and ICP22 promoters with different upstream lengths showed that pUL48 activated ICP4 and ICP22 promoters by acting on TAATGA (T) TAT element upstream of ICP4 promoter and TAATTATAT element upstream of ICP22 promoter, respectively. (3) Transcriptional activation of IE gene by truncated proteins of different lengths at the N-terminal of pUL48 was detected. The results showed that the transcriptional activation domain of pUL48 was amino acids 1–60 at the N-terminal, and amino acids 1–20 was its core region. In addition, it was found that pUL14, pUL46, and pUL47 significantly promoted the transcriptional activation of pUL48. The effects of loss of pUL47 and its nuclear localization signal on the nuclear entry and transcriptional activation function of pUL48 were further examined. The results showed that pUL47 could promote the nuclear entry of pUL48 through its nuclear localization signal at positions 40–50 and 768–777 amino acids, thus, enhancing the transcriptional activation function of pUL48 and synergistic promotion of viral gene transcription.

Published

2021

45. DHAV-1 Blocks the Signaling Pathway Upstream of Type I Interferon by Inhibiting the Interferon Regulatory Factor 7 Protein

Author

Yalan Lai, Xiaoyan Xia, Anchun Cheng, Mingshu Wang, Xumin Ou, Sai Mao, Di Sun, Shaqiu Zhang, Qiao Yang, Ying Wu, Dekang Zhu, Renyong Jia, Shun Chen, Mafeng Liu, Xin-Xin Zhao, Juan Huang, Qun Gao, Bin Tian, Yunya Liu, Yanling Yu, Ling Zhang, and Leichang Pan

Subjects

duck hepatitis A virus type I, 3C protein, interferon regulatory factor 7, immune regulation, type I interferon, Microbiology, QR1-502

Abstract

Duck hepatitis A virus (DHAV), which mainly infects 1- to 4-week-old ducklings, has a fatality rate of 95% and poses a huge economic threat to the duck industry. However, the mechanism by which DHAV-1 regulates the immune response of host cells is rarely reported. This study examined whether DHAV-1 contains a viral protein that can regulate the innate immunity of host cells and its specific regulatory mechanism, further exploring the mechanism by which DHAV-1 resists the host immune response. In the study, the dual-luciferase reporter gene system was used to screen the viral protein that regulates the host innate immunity and the target of this viral protein. The results indicate that the DHAV-1 3C protein inhibits the pathway upstream of interferon (IFN)-β by targeting the interferon regulatory factor 7 (IRF7) protein. In addition, we found that the 3C protein inhibits the nuclear translocation of the IRF7 protein. Further experiments showed that the 3C protein interacts with the IRF7 protein through its N-terminus and that the 3C protein degrades the IRF7 protein in a caspase 3-dependent manner, thereby inhibiting the IFN-β-mediated antiviral response to promote the replication of DHAV-1. The results of this study are expected to serve as a reference for elucidating the mechanisms of DHAV-1 infection and pathogenicity.

Published

2021

46. Methyltransferase-Deficient Avian Flaviviruses Are Attenuated Due to Suppression of Viral RNA Translation and Induction of a Higher Innate Immunity

Author

Xuedong Wu, Yuetian Zhang, Mingshu Wang, Shun Chen, Mafeng Liu, Dekang Zhu, Xinxin Zhao, Ying Wu, Qiao Yang, Shaqiu Zhang, Juan Huang, Xumin Ou, Ling Zhang, Yunya Liu, Yanling Yu, Qun Gao, Sai Mao, Di Sun, Bin Tian, Zhongqiong Yin, Bo Jing, Anchun Cheng, and Renyong Jia

Subjects

Tembusu virus, methyltransferase, attenuated, translation, innate immunity, Immunologic diseases. Allergy, RC581-607

Abstract

The 5’ end of the flavivirus genome contains a type 1 cap structure formed by sequential N-7 and 2’-O methylations by viral methyltransferase (MTase). Cap methylation of flavivirus genome is an essential structural modification to ensure the normal proliferation of the virus. Tembusu virus (TMUV) (genus Flavivirus) is a causative agent of duck egg drop syndrome and has zoonotic potential. Here, we identified the in vitro activity of TMUV MTase and determined the effect of K61-D146-K182-E218 enzymatic tetrad on N-7 and 2’-O methylation. The entire K61-D146-K182-E218 motif is essential for 2’-O MTase activity, whereas N-7 MTase activity requires only D146. To investigate its phenotype, the single point mutation (K61A, D146A, K182A or E218A) was introduced into TMUV replicon (pCMV-Rep-NanoLuc) and TMUV infectious cDNA clone (pACYC-TMUV). K-D-K-E mutations reduced the replication ability of replicon. K61A, K182A and E218A viruses were genetically stable, whereas D146A virus was unstable and reverted to WT virus. Mutant viruses were replication and virulence impaired, showing reduced growth and attenuated cytopathic effects and reduced mortality of duck embryos. Molecular mechanism studies showed that the translation efficiency of mutant viruses was inhibited and a higher host innate immunity was induced. Furthermore, we found that the translation inhibition of MTase-deficient viruses was caused by a defect in N-7 methylation, whereas the absence of 2’-O methylation did not affect viral translation. Taken together, our data validate the debilitating mechanism of MTase-deficient avian flavivirus and reveal an important role for cap-methylation in viral translation, proliferation, and escape from innate immunity.

Published

2021

47. Nxhl Controls Angiogenesis by Targeting VE-PTP Through Interaction With Nucleolin

Author

Honglin Luo, Yongde Zhang, Yanfei Deng, Lequn Li, Zhaoan Sheng, Yanling Yu, Yong Lin, Xiaohan Chen, and Pengfei Feng

Subjects

angiogenesis, nxhl, nucleolin, vascular, VE-PTP, Biology (General), QH301-705.5

Abstract

Precise regulation of angiogenesis is required for organ development, wound repair, and tumor progression. Here, we identified a novel gene, nxhl (New XingHuo light), that is conserved in vertebrates and that plays a crucial role in vascular integrity and angiogenesis. Bioinformatic analysis uncovered its essential roles in development based on co-expression with several key developmental genes. Knockdown of nxhl in zebrafish causes global and pericardial edema, loss of blood circulation, and vascular defects characterized by both reduced vascularization in intersegmental vessels and decreased sprouting in the caudal vein plexus. The nxhl gene also affects human endothelial cell behavior in vitro. We found that nxhl functions in part by targeting VE-PTP through interaction with NCL (nucleolin). Loss of ptprb (a VE-PTP ortholo) in zebrafish resulted in defects similar to nxhl knockdown. Moreover, nxhl deficiency attenuates tumor invasion and proteins (including VE-PTP and NCL) associated with angiogenesis and EMT. These findings illustrate that nxhl can regulate angiogenesis via a novel nxhl–NCL–VE-PTP axis, providing a new therapeutic target for modulating vascular formation and function, especially for cancer treatment.

Published

2021

48. Emergence of a novel pegivirus species in southwest China showing a high rate of coinfection with parvovirus and circovirus in geese

Author

Wu Zhen, Yuanyuan Wu, Wei Zhang, Mingshu Wang, Renyong Jia, Dekang Zhu, Mafeng Liu, Xinxin Zhao, Qiao Yang, Ying Wu, ShaQiu Zhang, YunYa Liu, Ling Zhang, YanLing Yu, Leichang Pan, Shun Chen, and Anchun Cheng

Subjects

pegivirus, goose, epidemiology, infection, coinfection, Animal culture, SF1-1100

Abstract

ABSTRACT: Previously, we isolated a novel strain of goose pegivirus (GPgV) that infects geese and shows high levels of lymphotropism. This novel pegivirus strain is phylogenetically distinct from previously known Pegivirus species, Pegivirus A-K, and qualifies as a candidate new Pegivirus species, GPgV. GPgV is tentatively named Pegivirus M. Here, to better understand the epidemic of GPgV infection and the coinfection of this virus with other viruses in Southwest China, 25 geese in poor health from Sichuan Province and 24 geese in poor health from the municipality of Chongqing were collected. The geese were tested for 9 types of goose viruses (goose hemorrhagic polyomavirus, GPgV, astrovirus, parvovirus, circovirus, reovirus, coronavirus, paramyxovirus, and avian influenza virus) by RT-PCR or nested RT-PCR. GPgV RNA was detected in 2 out of 25 monoinfections and 8 out of 25 coinfections with other viruses on Sichuan farms and 2 out of 24 monoinfections and 10 out of 24 coinfections on Chongqing farms. Overall, 22 of the 49 (44.9%) geese were positive for GPgV, which indicated a high infection rate. To the best of our knowledge, this is the first report of GPgV coinfection with other epidemic viruses. This study enhances our understanding of the emergence and epidemiology of Pegivirus.

Published

2021

49. Replication/Assembly Defective Avian Flavivirus With Internal Deletions in the Capsid Can Be Used as an Approach for Living Attenuated Vaccine

Author

Yu He, Xiaoli Wang, Jiaqi Guo, Li Mao, Senzhao Zhang, Tao Hu, Mingshu Wang, Renyong Jia, Dekang Zhu, Mafeng Liu, Xinxin Zhao, Qiao Yang, Ying Wu, Shaqiu Zhang, Juan Huang, Sai Mao, Xumin Ou, Qun Gao, Di Sun, Yunya Liu, Ling Zhang, Yanling Yu, Anchun Cheng, and Shun Chen

Subjects

live attenuated vaccine, assembly deficient, avian Tembusu virus, capsid protein deletion, protective immunity, immune response, Immunologic diseases. Allergy, RC581-607

Abstract

Avian Tembusu virus (TMUV) is a novel flavivirus causing severe egg drop and fatal encephalitis in avian in Asia. In the present study, we screened the structural and functional requirements of TMUV capsid protein (CP) for viral morphogenesis using reverse genetics methods in combination with replicon packaging assays. TMUV-CP showed dramatic functional and structural flexibility, and even though 44 residues were removed from the N-terminus, it was still capable of packaging replicon RNA; in addition, 33 residues were deleted from the C-terminus (containing nearly the entire α4-helix), and infectious particles were still produced, although α4-α4’ is supposedly vital for CP dimerization and nucleocapsid formation. We further analyzed two mutants (ΔC20-43 and ΔC64-96 viruses) with relatively large deletions that still replicated well in BHK-21 cells. Our data indicate that internal deletions within CP impaired viral replication or assembly, resulting in attenuated virus proliferation in cells and attenuated virulence in duck embryos, and these deletion mutations are quite stable in cell culture. An in vivo assay indicated that both ΔC20-43 virus and ΔC64-96 virus were highly attenuated in ducklings but still immunogenic. Single-dose immunization with ΔC20-43 virus or ΔC64-96 virus could protect ducklings from a lethal challenge with good antigen clearance. Together, our data shed light on replication/assembly defective TMUV with internal deletions in CP and provide an effective approach to attenuate viral virulence in live vaccines without changing the antigen composition.

Published

2021

50. Molecular cloning of duck CD40 and its immune function research

Author

Rujuan Zhang, Mingshu Wang, Anchun Cheng, Qiao Yang, Ying Wu, Renyong Jia, Shun Chen, Dekang Zhu, Mafeng Liu, Xinxin Zhao, Shaqiu Zhang, Juan Huang, Xumin Ou, Sai Mao, Qun Gao, Yanling Yu, Ling Zhang, Yunya Liu, Bin Tian, and Leichang Pan

Subjects

duck CD40, molecular cloning, antiviral assay, Animal culture, SF1-1100

Abstract

ABSTRACT: Cosignal molecules are cell surface molecules that transduce signals to other cells to modulate immune response positively (costimulate) or negatively (cosuppress). Costimulatory signals are key factors in determining whether T/B cells are capable of responding to specific antigens and ultimately mediating an appropriate immune response. In this study, the cDNA sequence containing the complete coding frame of the costimulatory molecule duck CD40 gene was cloned and reported for the first time, and its mediated antiviral innate immune was verified in vitro. Results suggested duck CD40 molecule plays an important role in the innate immune responsiveness against some viruses. These data will be beneficial for the further understand of the avian immune system.

Published

2021