Your search keyword '"Dongsheng Jia"' showing total 73 results

1. Network pharmacology-based mechanism analysis of dauricine on the alleviating Aβ-induced neurotoxicity in Caenorhabditis elegans

Author

Ranran Zhang, Xiaoyan Huang, Chunling Zhou, Qian Zhang, Dongsheng Jia, Xiaoliang Xie, and Ju Zhang

Subjects

Dauricine, Alzheimer’s disease, Network pharmacology, Caenorhabditis elegans, Autophagy-lysosome, Other systems of medicine, RZ201-999

Abstract

Abstract Background Dauricine (DAU), a benzyl tetrahydroisoquinoline alkaloid isolated from the root of Menispermum dauricum DC, exhibits promising anti-Alzheimer’s disease (AD) effects, but its underlying mechanisms remain inadequately investigated. This paper aims to identify potential targets and molecular mechanisms of DAU in AD treatment. Methods Network pharmacology and molecular docking simulation method were used to screen and focus core targets. Various transgenic Caenorhabditis elegans models were chosen to validate the anti-AD efficacy and mechanism of DAU. Results There are 66 potential DAU-AD target intersections identified from 100 DAU and 3036 AD-related targets. Subsequent protein-protein interaction (PPI) network analysis identified 16 core targets of DAU for anti-AD. PIK3CA, AKT1 and mTOR were predicted to be the central targets with the best connectivity through the analysis of “compound-target-biological process-pathway network”. Molecular docking revealed strong binding affinities between DAU and PIK3CA, AKT1, and mTOR. In vivo experiments demonstrated that DAU effectively reduced paralysis in AD nematodes caused by Aβ aggregation toxicity, downregulated expression of PIK3CA, AKT1, and mTOR homologues (age-1, akt-1, let-363), and upregulated expression of autophagy genes and the marker protein LGG-1. Simultaneously, DAU increased lysosomal content and enhanced degradation of the autophagy-related substrate protein P62. Thioflavin T（Th-T）staining experiment revealed that DAU decreased Aβ accumulation in AD nematodes. Further experiments also confirmed DAU’s protein scavenging activity in polyglutamine (polyQ) aggregation nematodes. Conclusion Collectively, the mechanism of DAU against AD may be related to the activation of the autophagy-lysosomal protein clearance pathway, which contributes to the decrease of Aβ aggregation and the restoration of protein homeostasis.

Published

2024

2. Insect ribosome-rescuer Pelo-Hbs1 complex on sperm surface mediates paternal arbovirus transmission

Author

Xinyan Sun, Yu Du, Yu Cheng, Wang Guan, You Li, Hongyan Chen, Dongsheng Jia, and Taiyun Wei

Subjects

Science

Abstract

Abstract Arboviruses can be paternally transmitted by male insects to offspring for long-term persistence, but the mechanism remains largely unknown. Here, we use a model system of a destructive rice reovirus and its leafhopper vector to find that insect ribosome-rescuer Pelo-Hbs1 complex expressed on the sperm surface mediates paternal arbovirus transmission. This occurs through targeting virus-containing tubules constituted by viral nonstructural protein Pns11 to sperm surface via Pns11-Pelo interaction. Tubule assembly is dependent on Hsp70 activity, while Pelo-Hbs1 complex inhibits tubule assembly via suppressing Hsp70 activity. However, virus-activated ubiquitin ligase E3 mediates Pelo ubiquitinated degradation, synergistically causing Hbs1 degradation. Importantly, Pns11 effectively competes with Pelo for binding to E3, thus antagonizing E3-mediated Pelo-Hbs1 degradation. These processes cause a slight reduction of Pelo-Hbs1 complex in infected testes, promoting effective tubule assembly. Our findings provide insight into how insect sperm-specific Pelo-Hbs1 complex is modulated to promote paternal virus transmission without disrupting sperm function.

Published

2024

3. The mRNA surveillance factor Pelo restricts rice virus propagation in insect vectors and host plants

Author

Xinyan Sun, Heran Guan, Taiyun Wei, and Dongsheng Jia

Subjects

mRNA surveillance system, Pelo, Rice virus, Resistance, Plant culture, SB1-1110

Abstract

Abstract Many devastating plant viruses are transmitted by insect vectors among plant hosts in a persistent-propagative manner. Pelota (Pelo) is an evolutionarily conserved protein involved in the mRNA surveillance system. In this study, it was found that the accumulation of Pelo proteins are slightly decreased during the propagation of the fijivirus southern rice black-streaked dwarf virus (SRBSDV) in rice and transmission vector planthopper (Sogatella furcifera). The tubular protein P7-1 encoded by SRBSDV interacted with Pelo of rice or planthopper vector. Overexpression or knockdown of Pelo expression inhibits the formation of P7-1 tubules in insect cells, further exerting antiviral activity. Furthermore, overexpression or knockout of Pelo expression in transgenic rice plants also inhibits the effective propagation of SRBSDV as well as two other rice viruses of different families. The slight reduction of Pelo accumulation during SRBSDV propagation in rice and insect vectors would avoid Pelo-mediated excessive inhibition of P7-1 tubule formation, ensuring effective virus propagation. Our findings provide insights into how the up- or down-regulated expression of Pelo in rice hosts and insect vectors elevate their resistance to rice viruses.

Published

2024

4. Arboviruses antagonize insect Toll antiviral immune signaling to facilitate the coexistence of viruses with their vectors.

Author

Dongsheng Jia, Guozhong Luo, Heran Guan, Tingting Yu, Xinyan Sun, Yu Du, Yiheng Wang, Hongyan Chen, and Taiyun Wei

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Many plant arboviruses are persistently transmitted by piercing-sucking insect vectors. However, it remains largely unknown how conserved insect Toll immune response exerts antiviral activity and how plant viruses antagonize it to facilitate persistent viral transmission. Here, we discover that southern rice black-streaked dwarf virus (SRBSDV), a devastating planthopper-transmitted rice reovirus, activates the upstream Toll receptors expression but suppresses the downstream MyD88-Dorsal-defensin cascade, resulting in the attenuation of insect Toll immune response. Toll pathway-induced the small antibacterial peptide defensin directly interacts with viral major outer capsid protein P10 and thus binds to viral particles, finally blocking effective viral infection in planthopper vector. Furthermore, viral tubular protein P7-1 directly interacts with and promotes RING E3 ubiquitin ligase-mediated ubiquitinated degradation of Toll pathway adaptor protein MyD88 through the 26 proteasome pathway, finally suppressing antiviral defensin production. This virus-mediated attenuation of Toll antiviral immune response to express antiviral defensin ensures persistent virus infection without causing evident fitness costs for the insects. E3 ubiquitin ligase also is directly involved in the assembly of virus-induced tubules constructed by P7-1 to facilitate viral spread in planthopper vector, thereby acting as a pro-viral factor. Together, we uncover a previously unknown mechanism used by plant arboviruses to suppress Toll immune response through the ubiquitinated degradation of the conserved adaptor protein MyD88, thereby facilitating the coexistence of arboviruses with their vectors in nature.

Published

2024

5. An origami shield with supporting frame structures optimized by a feature-driven topology optimization method

Author

Dongsheng Jia, Pengcheng Feng, Liangdi Wang, Longcan Chen, Jun Wang, Jihong Zhu, Yingjie Xu, and Weihong Zhang

Subjects

Origami, Deployable structure, Structure design, Shield, Composite materials, Military Science

Abstract

In this paper, the design, manufacture and testing of an origami protective shield with a supporting frame structure are presented. It consists of an origami shield surface and a deployable supporting frame structure that needs to be portable and sufficiently stiff. First, for the design of the shield surface, a three-stage origami crease pattern is developed to reduce the shield size in the folded state. The shield surface consists of several stiff modular panels and layered with flexible fabric. The modular panels are made of a multi-layer composite where a ceramic layer is made of small pieces to improve durability as those small pieces enable restriction of crack propagation. Then, the supporting frame structure is designed as a chain-of-bars structure in order to fold into a highly compact state as a bundle of bars and deploy in sequence. Thus, a feature-driven topology structural optimization method preserving component sequence is developed where the inter-dependence of sub-structures is taken into account. A bar with semi-circular ends is used as a basic design feature. The positions of the bar’s end points are treated as design variables and the width of the bars is kept constant. Then, a constraint on the total length of the chain of bars is introduced. Finally, the modular panels made of multi-layer composite and the full-scale prototype of the origami shield are fabricated and tested to verify the bullet-proof performance.

Published

2024

6. Effects of low nitrogen on seedling growth, photosynthetic characteristics and antioxidant system of rice varieties with different nitrogen efficiencies

Author

Zexin Qi, Fenglou Ling, Dongsheng Jia, Jingjing Cui, Zhian Zhang, Chen Xu, Lintian Yu, Chenglong Guan, Ye Wang, Mengru Zhang, and Jiaqi Dou

Subjects

Medicine, Science

Abstract

Abstract Nitrogen plays a significant role in influencing various physiological processes in plants, thereby impacting their ability to withstand abiotic stresses. This study used hydroponics to compare the effects of three nitrogen supply levels (1N, 1/2N and 1/4N) on the antioxidant capacity of rice varieties JJ88 (nitrogen efficient) and XN999 (nitrogen inefficient) with different nitrogen use efficiencies. The results show that compared with the XN999 variety, the JJ88 variety has stronger adaptability to low-nitrogen conditions, which is mainly reflected in the relatively small decrease in dry weight and net photosynthetic rate (Pn); In the early stage of low-nitrogen treatment (0–7 d), the $${\mathbf{O}}_{2}^{-}$$ O 2 - production rate, hydrogen peroxide (H2O2) and malondialdehyde (MDA) content of JJ88 variety increased relatively slightly, but the superoxide dismutase (SOD), peroxide The activity of enzyme (POD) and catalase (CAT) increased significantly; After low-nitrogen treatment, the ASA–GSH cycle enzyme activity of JJ88 variety was relatively high, and the dehydroascorbate reductase (DHAR) activity after 14 days of low-nitrogen treatment was higher than that of 1N treatment; The content of reduced ascorbic acid (ASA) in non-enzymatic antioxidants was lower than that of 1N treatment after 14 days of low nitrogen treatment; The contents of oxidized dehydroascorbic acid (DHA) and carotenoids (Car) were higher than those of 1N treatment after 21d and 14d of low nitrogen treatment respectively; The contents of reduced glutathione (GSH), oxidized glutathione (GSSG) and proline (Pro) showed a larger upward trend during the entire low-nitrogen treatment period. In summary, the JJ88 rice variety has a strong ability to regulate oxidative stress and osmotic damage under low nitrogen conditions. It can slow down plant damage by regulating antioxidant enzyme activity and antioxidant content. This provides a basis for achieving nitrogen reduction and efficiency improvement in rice and the breeding of nitrogen-efficient varieties.

Published

2023

7. Arboviruses and symbiotic viruses cooperatively hijack insect sperm-specific proteins for paternal transmission

Author

Jiajia Wan, Qifu Liang, Ruonan Zhang, Yu Cheng, Xin Wang, Hui Wang, Jieting Zhang, Dongsheng Jia, Yu Du, Wenhui Zheng, Dingzhong Tang, Taiyun Wei, and Qian Chen

Subjects

Science

Abstract

Arboviruses and symbiotic viruses can be paternally transmitted by male insects to their offspring, but the mechanism remains largely unknown. Here, the authors identify the sperm-specific serpin protein HongrES1 of the leafhopper Recilia dorsalis as a mediator of paternal transmission of the reovirus rice gall dwarf virus and of a previously undescribed symbiotic virus of the Virgaviridae family, Recilia dorsalis filamentous virus, via direct binding of virions to leafhopper sperm surfaces and subsequent paternal transmission via interaction with both viral capsid proteins.

Published

2023

8. Polyamine-metabolizing enzymes are activated to promote the proper assembly of rice stripe mosaic virus in insect vectors

Author

Dongsheng Jia, Huan Liu, Jian Zhang, Wenqiang Wan, Zongwen Wang, Xiaofeng Zhang, Qian Chen, and Taiyun Wei

Subjects

Rice stripe mosaic virus, Rhabdovirus, Insect vector, Polyamines, OAZ1, ODC1, Biology (General), QH301-705.5

Abstract

Abstract Both viruses and host cells compete for intracellular polyamines for efficient propagation. Currently, how the key polyamine-metabolizing enzymes, including ornithine decarboxylase 1 (ODC1) and its antizyme 1 (OAZ1), are activated to co-ordinate viral propagation and polyamine biosynthesis remains unknown. Here, we report that the matrix protein of rice stripe mosaic virus (RSMV), a cytorhabdovirus, directly hijacks OAZ1 to ensure the proper assembly of rigid bacilliform non-enveloped virions in leafhopper vector. Viral matrix protein effectively competes with ODC1 to bind to OAZ1, and thus, the ability of OAZ1 to target and mediate the degradation of ODC1 is significantly inhibited during viral propagation, which finally promotes polyamines production. Thus, OAZ1 and ODC1 are activated to synergistically promote viral persistent propagation and polyamine biosynthesis in viruliferous vectors. Our data suggest that it is a novel mechanism for rhabdovirus to exploit OAZ1 for facilitating viral assembly.

Published

2022

9. Infection and distribution of Candidatus Liberibacter asiaticus in citrus plants and psyllid vectors at the cellular level

Author

Qian Chen, Zhiqiang Li, Shulin Liu, Yunhua Chi, Dongsheng Jia, and Taiyun Wei

Subjects

Biotechnology, TP248.13-248.65

Abstract

Summary Huanglongbing (HLB) is currently considered the most destructive disease of citrus worldwide. In the major citrus‐growing areas in Asia and the US, the major causal agent of HLB is the bacterial pathogen Candidatus Liberibacter asiaticus (CLas). CLas is vectored by the Asian citrus psyllid, Diaphorina citri, in a persistent propagative manner. CLas cannot be cultured in vitro because of its unclear growth factors, leading to uncertainty in the infection mechanism of CLas at the cellular level in citrus and in D. citri. To characterize the detailed infection of CLas in the host and vector, the incidence of HLB was first investigated in citrus‐growing fields in Fujian Province, China. It was found that the positive association of the level of CLas infection in the leaves correlated with the symptoms. Then antibodies against peptides of the outer membrane protein (OMP) of CLas were prepared and tested. The antibodies OMP‐225, OMP‐333 and OMP724 showed specificity to citrus plants in western blot analyses, whereas the antibodies OMP‐47 and OMP‐225 displayed specificity to the D. citri vector. The application of OMP‐225 in the immunofluorescence assay indicated that CLas was located in and distributed throughout the phloem sieve cells of the leaf midribs and axile placenta of the fruit. CLas also infected the epithelial cells and visceral muscles of the alimentary canal of D. citri. The application of OMP‐333 in immunoelectron microscopy indicated the round or oval CLas in the sieve cells of leaf midribs and axile placenta of fruit as well as in the epithelial cells and reticular tissue of D. citri alimentary canal. These results provide a reliable means for HLB detection, and enlighten a strategy via neutralizing OMP to control HLB. These findings also provide insight for the further investigation on CLas infection and pathogenesis, as well as CLas–vector interaction.

Published

2022

10. The Detection of Anthrax Biomarker DPA by Ratiometric Fluorescence Probe of Carbon Quantum Dots and Europium Hybrid Material Based on Poly(ionic)- Liquid

Author

Dongliang Zhang, Dongsheng Jia, Zhou Fang, Hua Min, Xiaoyi Xu, and Ying Li

Subjects

carbon quantum dots, Eu3+, polyionic liquid, dipicolinic acid, ratiometric fluorescence probe, Organic chemistry, QD241-441

Abstract

Bacillus anthracis has gained international attention as a deadly bacterium and a potentially deadly biological warfare agent. Dipicolinic acid (DPA) is the main component of the protective layer of anthracis spores, and is also an anthrax biomarker. Therefore, it is of great significance to explore an efficient and sensitive DPA detection method. Herein, a novel ratio hybrid probe (CQDs-PIL-Eu3+) was prepared by a simple one-step hydrothermal method using carbon quantum dots (CQDs) as an internal reference fluorescence and a covalent bond between CQDs and Eu3+ by using a polyionic liquid (PIL) as a bridge molecule. The ratiometric fluorescence probe was found to have the characteristics of sensitive fluorescence visual sensing in detecting DPA. The structure and the sensing properties of CQDs-PIL-Eu3+ were investigated in detail. In particular, the fluorescence intensity ratio of Eu3+ to CQDs (I616/I440) was linear with the concentration of DPA in the range of 0–50 μM, so the detection limit of the probe was as low as 32 nm, which was far lower than the DPA dose released by the number of anthrax spores in human body (60 μM) and, thus, can achieve sensitive detection. Therefore, the ratiometric fluorescence probe in this work has the characteristics of strong anti-interference, visual sensing, and high sensitivity, which provides a very promising scheme for the realization of anthrax biomarker DPA detection.

Published

2023

11. A nonstructural protein encoded by a rice reovirus induces an incomplete autophagy to promote viral spread in insect vectors.

Author

Dongsheng Jia, Qifu Liang, Huan Liu, Guangjun Li, Xiaofeng Zhang, Qian Chen, Aiming Wang, and Taiyun Wei

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Viruses can hijack autophagosomes as the nonlytic release vehicles in cultured host cells. However, how autophagosome-mediated viral spread occurs in infected host tissues or organs in vivo remains poorly understood. Here, we report that an important rice reovirus, rice gall dwarf virus (RGDV) hijacks autophagosomes to traverse multiple insect membrane barriers in the midgut and salivary gland of leafhopper vector to enhance viral spread. Such virus-containing double-membraned autophagosomes are prevented from degradation, resulting in increased viral propagation. Mechanistically, viral nonstructural protein Pns11 induces autophagy and embeds itself in the autophagosome membranes. The autophagy-related protein 5 (ATG5)-ATG12 conjugation is essential for initial autophagosome membrane biogenesis. RGDV Pns11 specifically interacts with ATG5, both in vitro and in vivo. Silencing of ATG5 or Pns11 expression suppresses ATG8 lipidation, autophagosome formation, and efficient viral propagation. Thus, Pns11 could directly recruit ATG5-ATG12 conjugation to induce the formation of autophagosomes, facilitating viral spread within the insect bodies. Furthermore, Pns11 potentially blocks autophagosome degradation by directly targeting and mediating the reduced expression of N-glycosylated Lamp1 on lysosomal membranes. Taken together, these results highlight how RGDV remodels autophagosomes to benefit viral propagation in its insect vector.

Published

2022

12. Dietary Chinese herbal extract mixture improves reproductive performance and external quality of fertilized eggs in Chinese soft-shelled turtle (Pelodiscus sinensis) broodstock

Author

Zixue Guo, Ling Li, Yue Wang, Tianyu Liu, Yu Xie, Dongsheng Jia, Zhencai Yang, Peiyu Zhang, and Haiyan Liu

Subjects

Pelodiscus sinensis, Reproductive performance, External quality, Internal quality, Chinese herbal extract, Aquaculture. Fisheries. Angling, SH1-691

Abstract

The reproductive performance of P. sinensis broodstock has gradually declined due to degenerated wild genetic resources, frequent extreme weathers and inbreeding in recent years. This study investigated the effect of Chinese herbal extract mixture (Herba Epimedii, Herba leonuri and Semen Vaccariae, termed as CHEM) on reproductive performance of turtle broodstock, external and internal quality traits of fertilized eggs. Six levels of CHEM at the rate of 0%, 0.1%, 0.2%, 0.4%, 0.8% and 1.6% were incorporated into the basal diet of turtle broodstock for six weeks. Each diet was randomly allocated into three greenhouse cement spawning ponds with 1000 turtles in each pond. The female-to-male ratio of the broodstock with about 8 years old was around 8: 1. The results revealed that dietary supplementation of 0.1% CHEM significantly improved daily feed consumption (DFC) and daily egg laying amounts (DELA) of turtles compared with that in control group (P

Published

2022

13. Rice Gall Dwarf Virus Promotes the Propagation and Transmission of Rice Stripe Mosaic Virus by Co-infected Insect Vectors

Author

Dongsheng Jia, Guozhong Luo, Wei Shi, Ye Liu, Huan Liu, Xiaofeng Zhang, and Taiyun Wei

Subjects

rice stripe mosaic virus, rice gall dwarf virus, co-infection, Recilia dorsalis, synergism, transmission, Microbiology, QR1-502

Abstract

Rice stripe mosaic virus (RSMV), a newly discovered plant cytorhabdovirus, and rice gall dwarf virus (RGDV), a plant reovirus, are transmitted by leafhopper Recilia dorsalis in a persistent-propagative manner. In this study, field surveys in Luoding city, Guangdong province of southern China, showed that RSMV and RGDV frequently co-infected rice plants. Furthermore, this co-infection had a synergistic effect on viral replication potential and pathogenicity in rice plants. Meanwhile, RSMV and RGDV also co-infected R. dorsalis vectors, and RGDV significantly promoted the propagation of RSMV in co-infected vectors. Accordingly, co-infection significantly promoted the acquisition and transmission efficiencies of RSMV by R. dorsalis. However, such co-infection did not significantly affect the propagation of RGDV in vectors. More importantly, we also observed that non-viruliferous R. dorsalis preferred to feed on co-infected rice plants, and this process further affected the feeding behavior of R. dorsalis to enhance viral release into rice phloem. These results provided the clues as to why RSMV had been a gradually expanding problem, creating an increasing risk of damage to rice production. Our findings revealed that synergism between RSMV and RGDV in their host and vector enhanced the propagation and transmission of RSMV, which will help guide the formulation of viral control strategies.

Published

2022

14. Exosomes mediate horizontal transmission of viral pathogens from insect vectors to plant phloem

Author

Qian Chen, Yuyan Liu, Jiping Ren, Panpan Zhong, Manni Chen, Dongsheng Jia, Hongyan Chen, and Taiyun Wei

Subjects

exosome, multivesicular bodies, insect vectors, salivary glands, viral transmission, plant phloem, Medicine, Science, Biology (General), QH301-705.5

Abstract

Numerous piercing-sucking insects can horizontally transmit viral pathogens together with saliva to plant phloem, but the mechanism remains elusive. Here, we report that an important rice reovirus has hijacked small vesicles, referred to as exosomes, to traverse the apical plasmalemma into saliva-stored cavities in the salivary glands of leafhopper vectors. Thus, virions were horizontally transmitted with exosomes into rice phloem to establish the initial plant infection during vector feeding. The purified exosomes secreted from cultured leafhopper cells were enriched with virions. Silencing the exosomal secretion-related small GTPase Rab27a or treatment with the exosomal biogenesis inhibitor GW4869 strongly prevented viral exosomal release in vivo and in vitro. Furthermore, the specific interaction of the 15-nm-long domain of the viral outer capsid protein with Rab5 induced the packaging of virions in exosomes, ultimately activating the Rab27a-dependent exosomal release pathway. We thus anticipate that exosome-mediated viral horizontal transmission is the conserved strategy hijacked by vector-borne viruses.

Published

2021

15. Gelsolin of insect vectors negatively regulates actin-based tubule motility of plant reoviruses

Author

Qian Chen, Limin Zheng, Panpan Zhong, Dongsheng Jia, Yuyan Liu, Qianzhuo Mao, and Taiyun Wei

Subjects

Actin-based tubule motility, Rice gall dwarf virus, Pns11 tubule, Gelsolin, Leafhopper, Plant culture, SB1-1110

Abstract

Abstract Most plant reoviruses encode a type of nonstructural protein that assembles tubular structures to package virions for viral spread in planthopper or leafhopper vectors. These tubules are propelled by actin filaments and facilitate viruses to overcome transmission barriers in insect vectors. This is known as actin-based tubule motility (ABTM), in which insect proteins, especially actin-associated proteins participate. To better understand the insect components that play a role in the ABTM, the proteins interacting with tubule protein Pns11 of the Rice gall dwarf virus (RGDV) in the leafhopper vector were investigated. We found that gelsolin, an actin-modulating protein, interacted with Pns11 in the yeast-two-hybrid system and Sf9 cells. The interaction and co-localization of gelsolin and Pns11 were also verified in cultured cells and insect bodies of the leafhopper vector. Further, the expression of gelsolin was up-regulated by the RGDV infection both in cultured cells and insects. The knockdown of the gelsolin gene triggered by RNA interference increased viral accumulation, thus increasing the viruliferous rates of the leafhopper vector. This negative association of gelsolin with Pns11 and virus infection revealed that gelsolin negatively affected the ability of the virus to spread by interacting with Pns11 tubules, finally acting to negatively regulate RGDV infection. The results of this study indicate that ABTM is negatively regulated by insects in the coevolution of the insect vector and virus.

Published

2019

16. Viral pathogens hitchhike with insect sperm for paternal transmission

Author

Qianzhuo Mao, Wei Wu, Zhenfeng Liao, Jiajia Li, Dongsheng Jia, Xiaofeng Zhang, Qian Chen, Hongyan Chen, Jing Wei, and Taiyun Wei

Subjects

Science

Abstract

Arbovirus vertical transmission is commonly mediated by transovarial passage of female insect vectors. Here, the authors show that Rice gall dwarf virus can be transmitted by male leafhoppers via interactions of the viral capsid and heparan sulfate proteoglycan on the surface of sperm heads.

Published

2019

17. A plant reovirus hijacks endoplasmic reticulum-associated degradation machinery to promote efficient viral transmission by its planthopper vector under high temperature conditions.

Author

Xiangzhen Yu, Dongsheng Jia, Zhen Wang, Guangjun Li, Manni Chen, Qifu Liang, Yanyan Zhou, Huan Liu, Mi Xiao, Siting Li, Qian Chen, Hongyan Chen, and Taiyun Wei

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

In the field, many insect-borne crop viral diseases are more suitable for maintenance and spread in hot-temperature areas, but the mechanism remains poorly understood. The epidemic of a planthopper (Sogatella furcifera)-transmitted rice reovirus (southern rice black-streaked dwarf virus, SRBSDV) is geographically restricted to southern China and northern Vietnam with year-round hot temperatures. Here, we reported that two factors of endoplasmic reticulum-associated degradation (ERAD) machinery, the heat shock protein DnaJB11 and ER membrane protein BAP31, were activated by viral infection to mediate the adaptation of S. furcifera to high temperatures. Infection and transmission efficiencies of SRBSDV by S. furcifera increased with the elevated temperatures. We observed that high temperature (35°C) was beneficial for the assembly of virus-containing tubular structures formed by nonstructural protein P7-1 of SRBSDV, which facilitates efficient viral transmission by S. furcifera. Both DnaJB11 and BAP31 competed to directly bind to the tubule protein P7-1 of SRBSDV; however, DnaJB11 promoted whereas BAP31 inhibited P7-1 tubule assembly at the ER membrane. Furthermore, the binding affinity of DnaJB11 with P7-1 was stronger than that of BAP31 with P7-1. We also revealed that BAP31 negatively regulated DnaJB11 expression through their direct interaction. High temperatures could significantly upregulate DnaJB11 expression but inhibit BAP31 expression, thereby strongly facilitating the assembly of abundant P7-1 tubules. Taken together, we showed that a new temperature-dependent protein quality control pathway in the ERAD machinery has evolved for strong activation of DnaJB11 for benefiting P7-1 tubules assembly to support efficient transmission of SRBSDV in high temperatures. We thus deduced that ERAD machinery has been hitchhiked by insect-borne crop viruses to enhance their transmission in tropical climates.

Published

2021

18. Insect Bacterial Symbiont-Mediated Vitellogenin Uptake into Oocytes To Support Egg Development

Author

Qianzhuo Mao, Wei Wu, Lingzhi Huang, Ge Yi, Dongsheng Jia, Qian Chen, Hongyan Chen, and Taiyun Wei

Subjects

bacterial symbionts, embryonic development, leafhopper, Nasuia, vitellogenins, Microbiology, QR1-502

Abstract

ABSTRACT Many insect species, such as aphids, leafhoppers, planthoppers, and whiteflies harbor obligate bacterial symbionts that can be transovarially transmitted to offspring through the oocytes of female insects. Whether obligate bacterial symbionts can carry important molecules/resources to the embryos to support egg development is still unknown. Here, we show that the vitellogenin (Vg) precursor of rice leafhopper Nephotettix cincticeps is biosynthesized by the fat body, secreted into the hemolymph and subsequently cleaved into the 35- and 178-kDa subunits, whereas only the 178-kDa subunit is taken up by the leading end of oocytes in a receptor-dependent manner or moves into the posterior pole of the terminal oocyte in association with obligate bacterial symbiont “Candidatus Nasuia deltocephalinicola” (hereafter Nasuia) in a receptor-independent manner. Furthermore, the 178-kDa Vg subunit can directly interact with a surface channel molecule (porin) on the envelope of Nasuia, allowing Vg to enter bacterial cytoplasm. Thus, Vg can hitchhike the ancient oocyte entry path of Nasuia, the common obligate symbiont of leafhoppers. Knocking down a Nasuia growth-related protein expression or treatment with porin antibody strongly prevents the ability of Nasuia to carry Vgs into oocytes and impair insect egg development. Nasuia-carried Vgs provide at least 20% of the total Vgs in the developing eggs. We anticipate that the bacterial symbiont-mediated Vg uptake into oocytes to support efficient egg development may be a common pattern shared by many insects. IMPORTANCE Many insects harbor obligate bacterial symbionts that can be vertically transmitted to offspring by female insects through eggs. Here, we report that leafhopper vitellogenin (Vg) recognizes and binds a surface channel molecule (porin) on the envelope of obligate bacterial symbiont Nasuia, which potentially induces the opening of porin channels for Vg to access the cytoplasm of Nasuia. Thus, Vg can exploit bacterial symbionts as the independent carriers into the oocytes. Such Nasuia-carried Vg contents support efficient insect egg development. Thus, our findings indicate that insects have evolved strategies to exploit the symbionts for carrying additional Vgs to guarantee optimal insect reproduction.

Published

2020

19. A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors

Author

Haitao Wang, Ye Liu, Lining Mo, Chenyang Huo, Ziyao Wang, Panpan Zhong, Dongsheng Jia, Xiaofeng Zhang, Qian Chen, Hongyan Chen, and Taiyun Wei

Subjects

antiviral mechanism, central nervous system, Hikaru genki, rice rhabdoviruses, rice leafhopper, rice yellow stunt virus, Microbiology, QR1-502

Abstract

Many plant rhabdoviruses are neurotropic and can persistently infect the central nervous system (CNS) of their insect vectors without causing significant cytopathology. The mechanisms by which the insect CNS resists infection by plant rhabdoviruses are largely unknown. Here, we report that the neural factor Hikaru genki homolog of the leafhopper Nephotettix cincticeps (NcHig) limits the spread of the nucleorhabdovirus rice yellow stunt virus (RYSV) in vector CNS. NcHig is predominantly expressed in the CNS of N. cincticeps, and the knockdown of NcHig expression by RNA interference enhances RYSV infection of the CNS. Furthermore, immuno-blockade of NcHig function by microinjection of N. cincticeps with NcHig antibody also enhances viral infection of the CNS. Thus, we conclude that the neuron-specific factor NcHig can control RYSV propagation in the CNS. Interestingly, we find the Hig homolog of the leafhopper Recilia dorsalis also has antiviral activity during the persistent infection of the cytorhabdovirus rice stripe mosaic virus (RSMV) in vector CNS. We further determine that RYSV and RSMV matrix proteins specifically interact with the complement control protein (CCP) domains of Higs. Thus, the matrix protein-binding ability of Hig is potentially essential for its antiviral activity in rice leafhoppers. Our results demonstrate an evolutionarily conserved antiviral mechanism for Hig to mediate the persistent infection of rice rhabdoviruses in the CNS of leafhopper vectors.

Published

2020

20. DNA methylation affects metastasis of renal cancer and is associated with TGF-β/RUNX3 inhibition

Author

Jianbo Zheng, Yanhui Mei, Ping Xiang, Guangsheng Zhai, Ning Zhao, Chuanbing Xu, Min Liu, Zhengsheng Pan, Kai Tang, and Dongsheng Jia

Subjects

Renal cancer, Methylation, RUNX3, TGF-β, Metastasis, CpG, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Background Renal cell carcinoma accounts for 2–3% of all cancers and metastasis increased the malignancy of renal cancer. However, the role of methylation in metastasis of renal cancer is poorly understood. Methods We performed targeted gene array to compare the differential expressions of methylation regulated genes in metastatic and primary renal cancer tissues. Quantitative methylation specific PCR was performed to examine the CpG methylation levels of Runt related transcription factor 3 (RUNX3) and transforming growth factor (TGF)-β. Western blot was performed to detect the expression of target genes. Murine xenograft renal cancer model was established to assay gene expression, methylation level, tumor growth and animal survival in vivo. Results RUNX3 and TGF-β levels were decreased in metastatic renal cancer tissues as a result of their CpG methylation. Metastatic xenograft model displayed decreased expression levels of RUNX3 and TGF-β and higher CpG methylation levels, bigger tumor size and shorter survival time, all which were restored by treatment with a methylation inhibitor. Conclusions Hypermethylation in CpG islands promotes metastasis of renal cancer and is associated with TGF-β and RUNX3 inhibition.

Published

2018

21. Fibrillar structures induced by a plant reovirus target mitochondria to activate typical apoptotic response and promote viral infection in insect vectors.

Author

Qian Chen, Limin Zheng, Qianzhuo Mao, Jiejie Liu, Haitao Wang, Dongsheng Jia, Hongyan Chen, Wei Wu, and Taiyun Wei

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Numerous plant viruses that cause significant agricultural problems are persistently transmitted by insect vectors. We wanted to see if apoptosis was involved in viral infection process in the vector. We found that a plant reovirus (rice gall dwarf virus, RGDV) induced typical apoptotic response during viral replication in the leafhopper vector and cultured vector cells, as demonstrated by mitochondrial degeneration and membrane potential decrease. Fibrillar structures formed by nonstructural protein Pns11 of RGDV targeted the outer membrane of mitochondria, likely by interaction with an apoptosis-related mitochondrial protein in virus-infected leafhopper cells or nonvector insect cells. Such association of virus-induced fibrillar structures with mitochondria clearly led to mitochondrial degeneration and membrane potential decrease, suggesting that RGDV Pns11 was the inducer of apoptotic response in insect vectors. A caspase inhibitor treatment and knockdown of caspase gene expression using RNA interference each reduced apoptosis and viral accumulation, while the knockdown of gene expression for the inhibitor of apoptosis protein improved apoptosis and viral accumulation. Thus, RGDV exploited caspase-dependent apoptotic response to promote viral infection in insect vectors. For the first time, we directly confirmed that a nonstructural protein encoded by a persistent plant virus can induce the typical apoptotic response to benefit viral transmission by insect vectors.

Published

2019

22. Infection Characteristics of Rice Stripe Mosaic Virus in the Body of the Vector Leafhoppers

Author

Ping Zhao, Xiang Sun, Pan Li, Jiatao Sun, Yue Yue, Jing Wei, Taiyun Wei, and Dongsheng Jia

Subjects

cytorhabdovirus, rice stripe mosaic virus, leafhopper, infection route, vector, Microbiology, QR1-502

Abstract

Rice stripe mosaic virus (RSMV), a novel species of Cytorhabdovirus, is transmitted by the leafhopper Recilia dorsalis in a persistent-propagative manner. In this study, we firstly confirmed that N protein of RSMV is a component of viroplasm and virion in vector culture cells of R. dorsalis. Confocal microscopy revealed that RSMV initially accumulated in epithelial cells of the filter chamber of R. dorsalis, from where it proceeded to the visceral muscles surrounding the filter chamber. Subsequently, RSMV spread quickly throughout the suspensory ligament to the salivary glands. Meanwhile, RSMV spread from the filter chamber to midgut, hindgut, esophagus, hemolymph, and central nervous system. We further observed that RSMV particles displayed as non-enveloped form when propagating in cytoplasm of different tissues, and became enveloped when spread within insect body by electron microscopy. Additionally, we found that the leafhopper Nephotettix virescens was also able to acquire and transmit RSMV. These results clarified the infection characteristics of RSMV in its leafhopper vectors, which will help guide the formulation of RSMV prevention and control strategies.

Published

2019

23. Autophagy pathway induced by a plant virus facilitates viral spread and transmission by its insect vector.

Author

Yong Chen, Qian Chen, Manman Li, Qianzhuo Mao, Hongyan Chen, Wei Wu, Dongsheng Jia, and Taiyun Wei

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Many viral pathogens are persistently transmitted by insect vectors and cause agricultural or health problems. Generally, an insect vector can use autophagy as an intrinsic antiviral defense mechanism against viral infection. Whether viruses can evolve to exploit autophagy to promote their transmission by insect vectors is still unknown. Here, we show that the autophagic process is triggered by the persistent replication of a plant reovirus, rice gall dwarf virus (RGDV) in cultured leafhopper vector cells and in intact insects, as demonstrated by the appearance of obvious virus-containing double-membrane autophagosomes, conversion of ATG8-I to ATG8-II and increased level of autophagic flux. Such virus-containing autophagosomes seem able to mediate nonlytic viral release from cultured cells or facilitate viral spread in the leafhopper intestine. Applying the autophagy inhibitor 3-methyladenine or silencing the expression of Atg5 significantly decrease viral spread in vitro and in vivo, whereas applying the autophagy inducer rapamycin or silencing the expression of Torc1 facilitate such viral spread. Furthermore, we find that activation of autophagy facilitates efficient viral transmission, whereas inhibiting autophagy blocks viral transmission by its insect vector. Together, these results indicate a plant virus can induce the formation of autophagosomes for carrying virions, thus facilitating viral spread and transmission by its insect vector. We believe that such a role for virus-induced autophagy is common for vector-borne persistent viruses during their transmission by insect vectors.

Published

2017

24. Nonstructural protein NS4 of Rice Stripe Virus plays a critical role in viral spread in the body of vector insects.

Author

Wei Wu, Limin Zheng, Hongyan Chen, Dongsheng Jia, Fan Li, and Taiyun Wei

Subjects

Medicine, Science

Abstract

Rice stripe virus (RSV), a tenuivirus, is transmitted by small brown planthopper (SBPH) in a persistent-propagative manner. In this study, sequential infection of RSV in the internal organs of SBPH after ingestion of virus indicated that RSV initially infected the midgut epithelium, and then progressed to the visceral muscle tissues, through which RSV spread to the entire alimentary canal. Finally, RSV spread into the salivary glands and reproductive system. During viral infection, the nonstructural protein NS4 of RSV formed cytoplasmic inclusions in various tissues of viruliferous SBPH. We demonstrated that the ribonucleoprotein particles of RSV were closely associated with NS4-specific inclusions in the body of viruliferous SBPH through a direct interaction between NS4 and nucleoprotein of RSV. Moreover, the knockdown of NS4 expression due to RNA interference induced by dsRNA from NS4 gene significantly prevented the spread of RSV in the bodies of SBPHs without a significant effect on viral replication in continuous cell culture derived from SBPH. All these results suggest that the nonstructural protein NS4 of RSV plays a critical role in viral spread by the vector insects.

Published

2014

25. Study of the Ballistic Impact Behavior of ProtectiveMulti-Layer Composite Armor.

Author

Dongsheng Jia, Yingjie Xu, Liangdi Wang, Jihong Zhu, and Weihong Zhang

Subjects

ULTRAHIGH molecular weight polyethylene, COMPOSITE plates, FINITE element method, CERAMIC fibers, COMPOSITE materials

Abstract

The abalone shell, a composite material whose cross-section is composed of inorganic and organic layers, has high strength and toughness. Inspired by the abalone shell, several multi-layer composite plates with different layer sequences and thicknesses are studied as bullet-proof material in this paper. To investigate the ballistic performance of this multi-layer structure, the complete characterization model and related material parameters of large deformation, failure and fracture ofAl2O3 ceramics andCarbon Fiber Reinforced Polymer (CFRP) are studied. Then, 3D finite element models of the proposed composite plates with different layer sequences and thicknesses impacted by a 12.7 mm armor-piercing incendiary (API) are built using Abaqus to predict failure. The simulation results show that the CFRP/Al2O3 ceramic/Ultrahigh Molecular Weight Polyethylene (UHMWPE)/CFRP (1 mm/4 mm/4 mm/1 mm) composite is the optimized stack of layers. The simulation results under specified layer sequence and thickness have a reasonable correlation with the experimental results and reflect the failure and fracture of the multi-layer composite protective armor. [ABSTRACT FROM AUTHOR]

Published

2024

26. Hot-compression deformation behavior and constitutive equations of LZ50 axle steel

Author

Dongsheng Jia, Tao He, Yuan-ming Huo, Xiang-yang Du, Bao-yu Wang, Shi-qian Li, and Han-lin Li

Subjects

hot compression, Polymers and Plastics, Metals and Alloys, procesna mapa, udc:539.383:669.1:355.691.2, konsituitivne enačbe, dinamična rekristalizacija, jeklo za osi vrste LZ50, dynamic recrystallization, processing map, thermal deformation, vroča tlačna deformacija, termična deformacija, Z50 axle steel, constitutive equation

Abstract

A study of deformation behavior of LZ50 axle steel has great significance to the railway industry. Hot-deformation tests were performed using a Gleeble-3800 thermal mechanical simulator at temperatures of (900, 1000 and 1100) °C with strain rates of (0.1, 1.0 and 10.0) s–1 under different deformation degrees of 0.2, 0.6 and 1.0. True stress-strain curves were discussed to obtain hot-processing maps. Then hot-processing maps of LZ50 steel at different deformation parameters were discussed including safe zones and unsafe zones. Finally, thermal deformation constitutive equations and dynamic recrystallization models were established based on the experimental data. The results show that at a strain rate of 10.0 s–1, the peak value of the flow stress increases by approximately 40 MPa with a decrease in the temperature from 1000 °C 900 °C, which is larger than the value of 18 MPa obtained at a decrease from 1100 °C to 1000 °C. At deformation temperatures of 900–1000 °C, the peak value of the flow stress increases by approximately 37 MPa with the strain rate increasing from 0.1 s–1 to 1.0 s–1, while from 1.0 s–1 to 10.0 s–1, the increase is approximately 21 MPa. With an increase in the strain from 0.2 to 1.0, the instability area under the low deformation temperature expands due to a higher strain rate. The activation energy of dynamic recrystallization is 334.537 kJ/mol.

Published

2022

27. Sensory neurons: unveiling the symphony of wound healing

Author

Dongsheng Jiang, Hans-Günther Machens, and Yuval Rinkevich

Subjects

Medicine, Biology (General), QH301-705.5

Published

2024

28. Berberine alleviates intestinal barrier dysfunction in glucolipid metabolism disorder hamsters by modulating gut microbiota and gut-microbiota-related tryptophan metabolites.

Author

Yuting Chen, Zhangsen Hao, Han Zhao, Xiaofeng Duan, Dongsheng Jia, Kaipeng Li, Yuxin Yang, Hongjuan Cui, Mingming Gao, and Ding Zhao

Subjects

BERBERINE, GUT microbiome, METABOLIC disorders, FOOD additives, TRYPTOPHAN, METABOLITES

Abstract

BACKGROUND: Barberry plants can be considered as useful additives and functional compounds in various industries, especially in the food industry. Berberine (BBR), the most important functional compound in the barberry roots, has recently been used to treat obesity, diabetes, and atherosclerosis. Gut microbiota and the intestinal barrier play an important role in the development of glucolipid metabolism disorders (GLMDs). However, the association of gut microbiota metabolism disorder and the intestinal barrier dysfunction effect of BBR in GLMDs remains elusive. RESULTS: The results showed that administration of BBR could increase the number of colonic glands and goblet cell mucus secretion, improve the intestinal barrier function, and reduce the serum glycolipid level in GLMD hamsters. Interestingly, BBR was metabolized into 12 metabolites by gut microbiota, and the main metabolic pathways were oxidation, demethylation, and hydrogenation. In addition, BBR significantly improved the species diversity and uniformity of gut microbiota and promoted the proliferation of beneficial microbiota. Furthermore, the levels of tryptophan metabolites, such as indole, indole-3-acetamide, indole-3-acetaldehyde, indole-3-pyruvic acid, and indole-3-acetic acid were significantly altered by BBR. Both the intestinal tight junction proteins and intestinal immune factors were altered by BBR. CONCLUSION: BBR could alleviate intestinal barrier dysfunction of GLMDs by modulating gut microbiota and gut-microbiotarelated tryptophan metabolites, which may be one of the pharmacological mechanisms for the treatment of GLMDs. [ABSTRACT FROM AUTHOR]

Published

2023

29. Exosomes mediate horizontal transmission of viral pathogens from insect vectors to plant phloem

Author

Yuyan Liu, Qian Chen, Panpan Zhong, Hongyan Chen, Manni Chen, Dongsheng Jia, Taiyun Wei, and Jiping Ren

Subjects

0301 basic medicine, Nymph, Viral outer capsid, QH301-705.5, viruses, salivary glands, Science, Biology, Phloem, Exosomes, Reoviridae, Exosome, General Biochemistry, Genetics and Molecular Biology, Virus, Hemiptera, 03 medical and health sciences, 0302 clinical medicine, Gene silencing, Animals, exosome, Small GTPase, Biology (General), plant phloem, Plant Diseases, Microbiology and Infectious Disease, General Immunology and Microbiology, General Neuroscience, viral transmission, fungi, food and beverages, Oryza, General Medicine, multivesicular bodies, Microvesicles, insect vectors, Cell biology, 030104 developmental biology, Medicine, 030217 neurology & neurosurgery, Biogenesis, Research Article

Abstract

Numerous piercing-sucking insects can horizontally transmit viral pathogens together with saliva to plant phloem, but the mechanism remains elusive. Here, we report that an important rice reovirus has hijacked small vesicles, referred to as exosomes, to traverse the apical plasmalemma into saliva-stored cavities in the salivary glands of leafhopper vectors. Thus, virions were horizontally transmitted with exosomes into rice phloem to establish the initial plant infection during vector feeding. The purified exosomes secreted from cultured leafhopper cells were enriched with virions. Silencing the exosomal secretion-related small GTPase Rab27a or treatment with the exosomal biogenesis inhibitor GW4869 strongly prevented viral exosomal release in vivo and in vitro. Furthermore, the specific interaction of the 15-nm-long domain of the viral outer capsid protein with Rab5 induced the packaging of virions in exosomes, ultimately activating the Rab27a-dependent exosomal release pathway. We thus anticipate that exosome-mediated viral horizontal transmission is the conserved strategy hijacked by vector-borne viruses.

Published

2021

30. Gelsolin of insect vectors negatively regulates actin-based tubule motility of plant reoviruses

Author

Panpan Zhong, Yuyan Liu, Qian Chen, Dongsheng Jia, Qianzhuo Mao, Taiyun Wei, and Limin Zheng

Subjects

Gene knockdown, Physiology, Leafhopper, viruses, Pns11 tubule, Motility, Sf9, Plant Science, macromolecular substances, Biology, lcsh:Plant culture, Biochemistry, Genetics and Molecular Biology (miscellaneous), Actin-based tubule motility, Virus, Cell biology, Rice gall dwarf virus, RNA interference, Genetics, lcsh:SB1-1110, Gelsolin, Gene, Actin

Abstract

Most plant reoviruses encode a type of nonstructural protein that assembles tubular structures to package virions for viral spread in planthopper or leafhopper vectors. These tubules are propelled by actin filaments and facilitate viruses to overcome transmission barriers in insect vectors. This is known as actin-based tubule motility (ABTM), in which insect proteins, especially actin-associated proteins participate. To better understand the insect components that play a role in the ABTM, the proteins interacting with tubule protein Pns11 of the Rice gall dwarf virus (RGDV) in the leafhopper vector were investigated. We found that gelsolin, an actin-modulating protein, interacted with Pns11 in the yeast-two-hybrid system and Sf9 cells. The interaction and co-localization of gelsolin and Pns11 were also verified in cultured cells and insect bodies of the leafhopper vector. Further, the expression of gelsolin was up-regulated by the RGDV infection both in cultured cells and insects. The knockdown of the gelsolin gene triggered by RNA interference increased viral accumulation, thus increasing the viruliferous rates of the leafhopper vector. This negative association of gelsolin with Pns11 and virus infection revealed that gelsolin negatively affected the ability of the virus to spread by interacting with Pns11 tubules, finally acting to negatively regulate RGDV infection. The results of this study indicate that ABTM is negatively regulated by insects in the coevolution of the insect vector and virus.

Published

2019

31. A plant reovirus hijacks endoplasmic reticulum-associated degradation machinery to promote efficient viral transmission by its planthopper vector under high temperature conditions

Author

Manni Chen, Taiyun Wei, Huan Liu, Hongyan Chen, Guangjun Li, Mi Xiao, Qian Chen, Dongsheng Jia, Qifu Liang, Xiangzhen Yu, Siting Li, Yanyan Zhou, and Zhen Wang

Subjects

Hot Temperature, Cell Membranes, Disease Vectors, Biochemistry, Medical Conditions, Fluorescence Microscopy, Yeast Two-Hybrid Assays, Medicine and Health Sciences, Biology (General), Microscopy, Eukaryota, Light Microscopy, Endoplasmic Reticulum-Associated Degradation, Plants, Cell biology, Insects, Infectious Diseases, Experimental Organism Systems, Cellular Structures and Organelles, Protein Interaction Assays, Research Article, Immunofluorescence Microscopy, Arthropoda, QH301-705.5, Immunoprecipitation, Immunology, Biology, Endoplasmic-reticulum-associated protein degradation, Research and Analysis Methods, Reoviridae, Microbiology, Virus, Downregulation and upregulation, Plant and Algal Models, Heat shock protein, Virology, Genetics, Animals, Grasses, Molecular Biology Techniques, Molecular Biology, Plant Diseases, Molecular Biology Assays and Analysis Techniques, Endoplasmic reticulum, Organisms, Biology and Life Sciences, Proteins, Membrane Proteins, Cell Biology, RC581-607, Invertebrates, Insect Vectors, Chaperone Proteins, Species Interactions, Orthoreovirus, Membrane protein, Animal Studies, Parasitology, Rice, Immunologic diseases. Allergy, Protein quality, Zoology, Entomology, Viral Transmission and Infection

Abstract

In the field, many insect-borne crop viral diseases are more suitable for maintenance and spread in hot-temperature areas, but the mechanism remains poorly understood. The epidemic of a planthopper (Sogatella furcifera)-transmitted rice reovirus (southern rice black-streaked dwarf virus, SRBSDV) is geographically restricted to southern China and northern Vietnam with year-round hot temperatures. Here, we reported that two factors of endoplasmic reticulum-associated degradation (ERAD) machinery, the heat shock protein DnaJB11 and ER membrane protein BAP31, were activated by viral infection to mediate the adaptation of S. furcifera to high temperatures. Infection and transmission efficiencies of SRBSDV by S. furcifera increased with the elevated temperatures. We observed that high temperature (35°C) was beneficial for the assembly of virus-containing tubular structures formed by nonstructural protein P7-1 of SRBSDV, which facilitates efficient viral transmission by S. furcifera. Both DnaJB11 and BAP31 competed to directly bind to the tubule protein P7-1 of SRBSDV; however, DnaJB11 promoted whereas BAP31 inhibited P7-1 tubule assembly at the ER membrane. Furthermore, the binding affinity of DnaJB11 with P7-1 was stronger than that of BAP31 with P7-1. We also revealed that BAP31 negatively regulated DnaJB11 expression through their direct interaction. High temperatures could significantly upregulate DnaJB11 expression but inhibit BAP31 expression, thereby strongly facilitating the assembly of abundant P7-1 tubules. Taken together, we showed that a new temperature-dependent protein quality control pathway in the ERAD machinery has evolved for strong activation of DnaJB11 for benefiting P7-1 tubules assembly to support efficient transmission of SRBSDV in high temperatures. We thus deduced that ERAD machinery has been hitchhiked by insect-borne crop viruses to enhance their transmission in tropical climates., Author summary In the field, many insect-borne crop viral diseases are more suitable for maintenance in tropical and sub-tropical climates. Generally, insect heat shock proteins would be activated to ensure the proper functioning of virus-encoded proteins in high temperatures. Here, we report that a fine-regulation mechanism has evolved for strong activation of one heat shock protein of DnaJ/Hsp40 family in endoplasmic reticulum-associated degradation (ERAD) machinery by a rice reovirus for ensuring the proper assembly of abundant virus-induced tubules to support efficient viral transmission by planthopper vectors in high temperatures. Thus, insect ERAD machinery, an important protein quality control system of cells, has been hijacked by viral pathogens to enhance their survival and transmission in tropical climates. Our findings imply the complex interplay among virus-induced tubules, insect ERAD machinery and high temperatures would provide an excellent model system for deep investigation of how hot environmental temperatures drive the spread of insect-borne viruses in the field.

Published

2021

32. A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors

Author

Ziyao Wang, Ye Liu, Xiaofeng Zhang, Lining Mo, Qian Chen, Chenyang Huo, Hongyan Chen, Dongsheng Jia, Taiyun Wei, Haitao Wang, and Panpan Zhong

Subjects

Microbiology (medical), food.ingredient, Nucleorhabdovirus, matrix protein, lcsh:QR1-502, rice rhabdoviruses, rice yellow stunt virus, Microbiology, lcsh:Microbiology, 03 medical and health sciences, food, RNA interference, rice leafhopper, 030304 developmental biology, Original Research, 0303 health sciences, Gene knockdown, Viral matrix protein, Cytorhabdovirus, biology, 030306 microbiology, antiviral mechanism, food and beverages, central nervous system, Virology, Vector (epidemiology), biology.protein, Hikaru genki, Antibody, Complement control protein

Abstract

Many plant rhabdoviruses are neurotropic and can persistently infect the central nervous system (CNS) of their insect vectors without causing significant cytopathology. The mechanisms by which the insect CNS resists infection by plant rhabdoviruses are largely unknown. Here, we report that the neural factor Hikaru genki homolog of the leafhopper Nephotettix cincticeps (NcHig) limits the spread of the nucleorhabdovirus rice yellow stunt virus (RYSV) in vector CNS. NcHig is predominantly expressed in the CNS of N. cincticeps, and the knockdown of NcHig expression by RNA interference enhances RYSV infection of the CNS. Furthermore, immuno-blockade of NcHig function by microinjection of N. cincticeps with NcHig antibody also enhances viral infection of the CNS. Thus, we conclude that the neuron-specific factor NcHig can control RYSV propagation in the CNS. Interestingly, we find the Hig homolog of the leafhopper Recilia dorsalis also has antiviral activity during the persistent infection of the cytorhabdovirus rice stripe mosaic virus (RSMV) in vector CNS. We further determine that RYSV and RSMV matrix proteins specifically interact with the complement control protein (CCP) domains of Higs. Thus, the matrix protein-binding ability of Hig is potentially essential for its antiviral activity in rice leafhoppers. Our results demonstrate an evolutionarily conserved antiviral mechanism for Hig to mediate the persistent infection of rice rhabdoviruses in the CNS of leafhopper vectors.

Published

2020

33. Epigenetic regulation of beta-endorphin synthesis in hypothalamic arcuate nucleus neurons modulates neuropathic pain in a rodent pain model

Author

Yu Tao, Yuan Zhang, Xiaohong Jin, Nan Hua, Hong Liu, Renfei Qi, Zitong Huang, Yufang Sun, Dongsheng Jiang, Terrance P. Snutch, Xinghong Jiang, and Jin Tao

Subjects

Science

Abstract

Abstract Although beta-endorphinergic neurons in the hypothalamic arcuate nucleus (ARC) synthesize beta-endorphin (β-EP) to alleviate nociceptive behaviors, the underlying regulatory mechanisms remain unknown. Here, we elucidated an epigenetic pathway driven by microRNA regulation of β-EP synthesis in ARC neurons to control neuropathic pain. In pain-injured rats miR-203a-3p was the most highly upregulated miRNA in the ARC. A similar increase was identified in the cerebrospinal fluid of trigeminal neuralgia patients. Mechanistically, we found histone deacetylase 9 was downregulated following nerve injury, which decreased deacetylation of histone H3 lysine-18, facilitating the binding of NR4A2 transcription factor to the miR-203a-3p gene promoter, thereby upregulating miR-203a-3p expression. Further, increased miR-203a-3p was found to maintain neuropathic pain by targeting proprotein convertase 1, an endopeptidase necessary for the cleavage of proopiomelanocortin, the precursor of β-EP. The identified mechanism may provide an avenue for the development of new therapeutic targets for neuropathic pain treatment.

Published

2023

34. Adiponectin receptor 1-mediated stimulation of Cav3.2 channels in trigeminal ganglion neurons induces nociceptive behaviors in mice

Author

Yuan Zhang, Yuan Wei, Tingting Zheng, Yu Tao, Yufang Sun, Dongsheng Jiang, and Jin Tao

Subjects

Adiponectin receptor 1, Trigeminal ganglion neurons, Cav3.2 channels, Pain, Medicine

Abstract

Abstract Background Adipokines, including adiponectin, are implicated in nociceptive pain; however, the underlying cellular and molecular mechanisms remain unknown. Methods Using electrophysiological recording, immunostaining, molecular biological approaches and animal behaviour tests, we elucidated a pivotal role of adiponectin in regulating membrane excitability and pain sensitivity by manipulating Cav3.2 channels in trigeminal ganglion (TG) neurons. Results Adiponectin enhanced T-type Ca2+ channel currents (I T) in TG neurons through the activation of adiponectin receptor 1 (adipoR1) but independently of heterotrimeric G protein-mediated signaling. Coimmunoprecipitation revealed a physical association between AdipoR1 and casein kinase II alpha-subunits (CK2α) in the TG, and inhibiting CK2 activity by chemical inhibitor or siRNA targeting CK2α prevented the adiponectin-induced I T response. Adiponectin significantly activated protein kinase C (PKC), and this effect was abrogated by CK2α knockdown. Adiponectin increased the membrane abundance of PKC beta1 (PKCβ1). Blocking PKCβ1 pharmacologically or genetically abrogated the adiponectin-induced I T increase. In heterologous expression systems, activation of adipoR1 induced a selective enhancement of Cav3.2 channel currents, dependent on PKCβ1 signaling. Functionally, adiponectin increased TG neuronal excitability and induced mechanical pain hypersensitivity, both attenuated by T-type channel blockade. In a trigeminal neuralgia model induced by chronic constriction injury of infraorbital nerve, blockade of adipoR1 signaling suppressed mechanical allodynia, which was prevented by silencing Cav3.2. Conclusion Our study elucidates a novel signaling cascade wherein adiponectin stimulates TG Cav3.2 channels via adipoR1 coupled to a novel CK2α-dependent PKCβ1. This process induces neuronal hyperexcitability and pain hypersensitivity. Insight into adipoR-Cav3.2 signaling in sensory neurons provides attractive targets for pain treatment.

Published

2023

35. Wound infiltrating adipocytes are not myofibroblasts

Author

Shruthi Kalgudde Gopal, Ruoxuan Dai, Ania Maria Stefanska, Meshal Ansari, Jiakuan Zhao, Pushkar Ramesh, Johannes W. Bagnoli, Donovan Correa-Gallegos, Yue Lin, Simon Christ, Ilias Angelidis, Valerio Lupperger, Carsten Marr, Lindsay C. Davies, Wolfgang Enard, Hans-Günther Machens, Herbert B. Schiller, Dongsheng Jiang, and Yuval Rinkevich

Subjects

Science

Abstract

Abstract The origins of wound myofibroblasts and scar tissue remains unclear, but it is assumed to involve conversion of adipocytes into myofibroblasts. Here, we directly explore the potential plasticity of adipocytes and fibroblasts after skin injury. Using genetic lineage tracing and live imaging in explants and in wounded animals, we observe that injury induces a transient migratory state in adipocytes with vastly distinct cell migration patterns and behaviours from fibroblasts. Furthermore, migratory adipocytes, do not contribute to scar formation and remain non-fibrogenic in vitro, in vivo and upon transplantation into wounds in animals. Using single-cell and bulk transcriptomics we confirm that wound adipocytes do not convert into fibrogenic myofibroblasts. In summary, the injury-induced migratory adipocytes remain lineage-restricted and do not converge or reprogram into a fibrosing phenotype. These findings broadly impact basic and translational strategies in the regenerative medicine field, including clinical interventions for wound repair, diabetes, and fibrotic pathologies.

Published

2023

36. Solar transparent and thermally insulated silica aerogel for efficiency improvement of photovoltaic/thermal collectors

Author

Lijun Wu, Bin Zhao, Datong Gao, Dongsheng Jiao, Maobin Hu, and Gang Pei

Subjects

Photovoltaic/thermal (PV/T), Radiative heat loss, Silica aerogel, Solar energy, Radiative transfer, Energy industries. Energy policy. Fuel trade, HD9502-9502.5, Renewable energy sources, TJ807-830

Abstract

Abstract Photovoltaic/thermal (PV/T) utilization has been regarded as a promising technique to efficiently harvest solar energy, but its thermal efficiency highly degrades in cold seasons because of remarkable heat loss. Although various methods, such as using air or vacuum gap, have been used to reduce heat loss of the PV/T, heat radiative loss still exists. In addition, unlike selective solar absorbers, the current PV/T absorber behaves like an infrared blackbody, showing great radiative heat loss. To overcome this drawback, a novel aerogel PV/T (referred to as “A-PV/T” hereinafter) collector based on solar transparent and thermally insulated silica aerogel is proposed, which can reduce the heat loss from both the non-radiative and radiative heat transfer modes. Experimental testing demonstrates that the thermal efficiency improvement of 25.1%-348% can be achieved for PV/T within the collecting temperature range of 35–70 °C when silica aerogel is introduced, indicating a significant efficiency enhancement. Compared with traditional PV/T (referred to as “T-PV/T” hereinafter) collector, the stagnation temperatures of the A-PV/T collector are 96.7 °C and 103.1 °C in outdoor and indoor environments, which are 27.4 °C and 25.8 °C greater, respectively, indicating a heat loss suppression of the aerogel. Moreover, simulation reveals that useful heat can hardly be provided by the T-PV/T collector in cold seasons, but the A-PV/T still exists a high solar thermal performance, showing good seasonal and regional applicability.

Published

2023

37. Filamentous Structures Induced by a Phytoreovirus Mediate Viral Release from Salivary Glands in Its Insect Vector

Author

Yuyan Liu, Hongyan Chen, Wei Wu, Dongsheng Jia, Qianzhuo Mao, Qian Chen, Taiyun Wei, Jiajia Li, and Zhenfeng Liao

Subjects

0301 basic medicine, Saliva, Viral nonstructural protein, viruses, Immunology, Viral Nonstructural Proteins, Reoviridae, Virus Replication, Microbiology, Virus, Exocytosis, Salivary Glands, Hemiptera, 03 medical and health sciences, RNA interference, Virology, Plant virus, medicine, Sf9 Cells, Animals, Phytoreovirus, Virus Release, RNA, Double-Stranded, biology, Salivary gland, Virus Assembly, biology.organism_classification, Actins, Virus-Cell Interactions, Insect Vectors, 030104 developmental biology, medicine.anatomical_structure, Microscopy, Fluorescence, Insect Science, RNA Interference, Viral disease

Abstract

Numerous viral pathogens are persistently transmitted by insect vectors and cause agricultural or health problems. These viruses circulate in the vector body, enter the salivary gland, and then are released into the apical plasmalemma-lined cavities, where saliva is stored. The cavity plasmalemma of vector salivary glands thus represents the last membrane barrier for viral transmission. Here, we report a novel mechanism used by a persistent virus to overcome this essential barrier. We observed that the infection by rice gall dwarf virus (RGDV), a species of the genus Phytoreovirus in the family Reoviridae , induced the formation of virus-associated filaments constructed by viral nonstructural protein Pns11 within the salivary glands of its leafhopper vector, Recilia dorsalis . Such filaments attached to actin-based apical plasmalemma and induced an exocytosis-like process for viral release into vector salivary gland cavities, through a direct interaction of Pns11 of RGDV and actin of R. dorsalis . Failure of virus-induced filaments assembly by RNA interference with synthesized double-stranded RNA targeting the Pns11 gene inhibited the dissemination of RGDV into salivary cavities, preventing viral transmission by R. dorsalis . For the first time, we show that a virus can exploit virus-induced inclusion as a vehicle to pass through the apical plasmalemma into vector salivary gland cavities, thus overcoming the last membrane barrier for viral transmission by insect vectors. IMPORTANCE Understanding how persistent viruses overcome multiple tissue and membrane barriers within the insect vectors until final transmission is the key for viral disease control. The apical plasmalemma of the cavities where saliva is stored in the salivary glands is the last barrier for viral transmission by insect vectors; however, the mechanism is still poorly understood. Here we show that a virus has evolved to exploit virus-induced filaments to perform an exocytosis-like process that enables viral passage through the apical plasmalemma into salivary cavities. This mechanism could be extensively exploited by other persistent viruses to overcome salivary gland release barriers in insect vectors, opening new perspectives for viral control.

Published

2017

38. Fibroblasts – the cellular choreographers of wound healing

Author

Samuel Knoedler, Sonja Broichhausen, Ruiji Guo, Ruoxuan Dai, Leonard Knoedler, Martin Kauke-Navarro, Fortunay Diatta, Bohdan Pomahac, Hans-Guenther Machens, Dongsheng Jiang, and Yuval Rinkevich

Subjects

fibroblast, fibroblast diversity, wound healing, wound repair, skin injury, fascia, Immunologic diseases. Allergy, RC581-607

Abstract

Injuries to our skin trigger a cascade of spatially- and temporally-synchronized healing processes. During such endogenous wound repair, the role of fibroblasts is multifaceted, ranging from the activation and recruitment of innate immune cells through the synthesis and deposition of scar tissue to the conveyor belt-like transport of fascial connective tissue into wounds. A comprehensive understanding of fibroblast diversity and versatility in the healing machinery may help to decipher wound pathologies whilst laying the foundation for novel treatment modalities. In this review, we portray the diversity of fibroblasts and delineate their unique wound healing functions. In addition, we discuss future directions through a clinical-translational lens.

Published

2023

39. Effect of annealing temperature on the structure and properties of FeCoCrNiMo high-entropy alloy

Author

Sheng Lei, Zhengwei Xue, Yafeng Liu, Yun Li, Dongsheng Jiang, and Ping Wang

Subjects

high-entropy alloys, thermal stability, hardness, compressive properties, microstructure, Technology, Chemical technology, TP1-1185, Chemicals: Manufacture, use, etc., TP200-248

Abstract

FeCoCrNiMo high-entropy alloy was melted by vacuum arc melting. The alloys were vacuum annealed at 873, 1,073, and 1,273 K, respectively. X-ray diffractometer (XRD), scanning electron microscope (SEM), simultaneous thermal analyzer, microhardness tester, and universal testing machine were used to study the microstructure, the thermal stability, hardness and compression mechanics of as-cast and annealed FeCoCrNiMo alloys. The results show that the alloy is composed of face-centered cubic (FCC) phase and σ phase in both as-cast and annealed states, and the σ phase and μ phase can maintain structural stability at 873 K annealing temperature. The μ phase decomposes to form the σ phase after annealing at 1,073 K, and part of the σ phase dissolves in the FCC phase when annealed at 1,273 K. Both the as-cast and annealed alloys have a typical dendritic structure. The σ phase is enriched in dendrites, and the FCC phase exists between the dendrites. The microstructure of the alloys in the annealed state is more refined than that of the alloy in the as-cast state. In the 1,073 K annealed state, the FeCoCrNiMo alloy has the highest hardness, yield strength, and fracture strength. The fracture mechanism of the alloy is intergranular brittle fracture and cleavage fracture.

Published

2022

40. Interaction of viral pathogen with porin channels on the outer membrane of insect bacterial symbionts mediates their joint transovarial transmission.

Author

Wei Wu, Lingzhi Huang, Qianzhuo Mao, Jing Wei, Jiajia Li, Yu Zhao, Qian Zhang, Dongsheng Jia, and Taiyun Wei

Subjects

RICE diseases & pests, TRANSMISSION of virus diseases of plants, PLANT virus proteins, PORINS (Proteins), CELL membranes, LEAFHOPPERS

Abstract

Many hemipteran insects that can transmit plant viruses in a persistent and transovarial manner are generally associated with a common obligate bacterial symbiont Sulcia and its β-proteobacterial partner. Rice dwarf virus (RDV), a plant reovirus, can bind to the envelope of Sulcia through direct interaction of the viral minor outer capsid protein P2 with the bacterial outer membrane protein, allowing the virus to exploit the ancient oocyte entry path of Sulcia in rice leafhopper vectors. Here, we show that RDV can hitchhike with both Sulcia and its β-proteobacterial partner Nasuia to ensure their simultaneous transovarial transmission. Interestingly, RDV can move through the outer envelope of Nasuia and reside in the periplasmic space, which is mediated by the specific interaction of the viral major outer capsid protein P8 and the porin channel on the bacterial outer envelope. Nasuia porin-specific antibody efficiently interferes with the binding between RDV and the Nasuia envelope, thus strongly preventing viral transmission to insect offspring. Thus, RDV has evolved different strategies to exploit the ancient oocyte entry paths used by two obligate bacterial symbionts in rice leafhoppers. Our results thus reveal that RDV has formed complex, cooperative interactions with both Sulcia and Nasuia during their joint transovarial transmission. [ABSTRACT FROM AUTHOR]

Published

2019

41. The arginine methyltransferase PRMT7 promotes extravasation of monocytes resulting in tissue injury in COPD

Author

Gizem Günes Günsel, Thomas M. Conlon, Aicha Jeridi, Rinho Kim, Zeynep Ertüz, Niklas J. Lang, Meshal Ansari, Mariia Novikova, Dongsheng Jiang, Maximilian Strunz, Mariia Gaianova, Christine Hollauer, Christina Gabriel, Ilias Angelidis, Sebastian Doll, Jeanine C. Pestoni, Stephanie L. Edelmann, Marlene Sophia Kohlhepp, Adrien Guillot, Kevin Bassler, Hannelore P. Van Eeckhoutte, Özgecan Kayalar, Nur Konyalilar, Tamara Kanashova, Sophie Rodius, Carolina Ballester-López, Carlos M. Genes Robles, Natalia Smirnova, Markus Rehberg, Charu Agarwal, Ioanna Krikki, Benoit Piavaux, Stijn E. Verleden, Bart Vanaudenaerde, Melanie Königshoff, Gunnar Dittmar, Ken R. Bracke, Joachim L. Schultze, Henrik Watz, Oliver Eickelberg, Tobias Stoeger, Gerald Burgstaller, Frank Tacke, Vigo Heissmeyer, Yuval Rinkevich, Hasan Bayram, Herbert B. Schiller, Marcus Conrad, Robert Schneider, and Ali Önder Yildirim

Subjects

Science

Abstract

Chronic obstructive pulmonary disease is a progressive and incurable chronic condition that involves accumulation of inflammatory macrophages in the lung tissue. Authors here show in mouse models of lung disease that PRMT7, a protein arginine methyltransferase, is an important regulator of recruitment and the pro-inflammatory phenotype of macrophages.

Published

2022

42. Adaptive Chinese Pinyin IME for Most Similar Representation

Author

Dongsheng Jiang, Xinyu Cheng, and Tianyi Han

Subjects

Chinese input method engine, domain adaptability, neural network representation, user experience, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Many neural-network approaches are used for Pinyin-to-character (P2C) conversion in Chinese input method engines (IMEs). However, in previous research, the conversion effectiveness of neural network P2C models relies on adequate training data. Unfortunately, neural networks cannot maintain high performance with conversions across users and domains. In this study, we propose a method for improving the efficiency of model conversion and tracking user behavior based on dynamic storage and representations that can be updated using historical information from user input. Our experimental results show that our technique tracks user behavior and has strong domain adaptability without requiring additional training. For the cross-domain datasets Touchpal, cMedQA1.0, CAIL2019, compared with the direct use of neural network, its indicators, Top-1 MIU-Acc, CA and KySS, are improved by at least 20.0%, 8.1%, 18.3%, respectively, and the results are close to the in-domain training of the model. Furthermore, compared with the traditional methods On-OMWA and Google IME, this method improves at least 7.8%, 2.0%, 11.9% and 3.2%, 0.7%, 13.9% in Top-1 MIU-Acc, CA and Kyss, respectively. This demonstrates that the proposed method is superior to existing models in terms of conversion accuracy and generality, and can point a new path for P2C platforms.

Published

2022

43. Immunomodulatory Nanosystems: Advanced Delivery Tools for Treating Chronic Wounds

Author

Xiangyu Chu, Yuan Xiong, Samuel Knoedler, Li Lu, Adriana C. Panayi, Michael Alfertshofer, Dongsheng Jiang, Yuval Rinkevich, Ze Lin, Zhiming Zhao, Guandong Dai, Bobin Mi, and Guohui Liu

Subjects

Science

Abstract

The increasingly aging society led to a rise in the prevalence of chronic wounds (CWs), posing a significant burden to public health on a global scale. One of the key features of CWs is the presence of a maladjusted immune microenvironment characterized by persistent and excessive (hyper)inflammation. A variety of immunomodulatory therapies have been proposed to address this condition. Yet, to date, current delivery systems for immunomodulatory therapy remain inadequate and lack efficiency. This highlights the need for new therapeutic delivery systems, such as nanosystems, to manage the pathological inflammatory imbalance and, ultimately, improve the treatment outcomes of CWs. While a plethora of immunomodulatory nanosystems modifying the immune microenvironment of CWs have shown promising therapeutic effects, the literature on the intersection of immunomodulatory nanosystems and CWs remains relatively scarce. Therefore, this review aims to provide a comprehensive overview of the pathogenesis and characteristics of the immune microenvironment in CWs, discuss important advancements in our understanding of CW healing, and delineate the versatility and applicability of immunomodulatory nanosystems-based therapies in the therapeutic management of CWs. In addition, we herein also shed light on the main challenges and future perspectives in this rapidly evolving research field.

Published

2023

44. Rice gall dwarf virus exploits tubules to facilitate viral spread among cultured insect vector cells derived from leafhopper Recilia dorsalis

Author

Limin Zheng, Qifei Liu, Hongyan Chen, Dongsheng Jia, Qian Chen, Peng Zhang, and Taiyun Wei

Subjects

Microbiology (medical), biology, Host (biology), Viral nonstructural protein, lcsh:QR1-502, biology.organism_classification, Microbiology, Virology, lcsh:Microbiology, Leafhopper, Rice gall dwarf virus, RNA silencing, Cell culture, RNA interference, Vector (epidemiology), viral spread, leafhopper vector Recilia dorsalis, Original Research Article, tubules, continuous cell cultures of leafhopper, Gene

Abstract

Rice gall dwarf virus (RGDV), a member of the family Reoviridae, causes repeated epidemics in rice fields in southern China. An RGDV isolate collected from Guangdong Province (southern China) is mainly transmitted by leafhopper vector Recilia dorsalis in a persistent-propagative manner. The infection by RGDV induces the formation of virus-containing tubules in the plant host and insect vector. In this study, we established continuous cell cultures of the leafhopper R. dorsalis to investigate the functional role of these tubules within the insect vector. Cytopathologic studies revealed that the tubules, which comprised viral non-structural protein Pns11 and contained viral particles, were able to protrude from the surface of cultured leafhopper cells. Tubule-like structures formed in non-host insect cells after the expression of Pns11 in a baculovirus system, suggesting that Pns11 was the minimal viral factor required for the formation of the tubules induced by RGDV infection. In cultured leafhopper cells, knockdown of Pns11 expression from RNA interference, induced by synthesized dsRNA from the Pns11 gene, abolished the formation of such tubules, preventing the direct cell-to-cell spread of RGDV without significant effects on viral multiplication. All these results show that RGDV exploits virus-containing tubules to facilitate viral spread among its insect vector cells.

Published

2013

45. Research on Oxygenation Components under a High-Pressure Oxygen Environment

Author

Haowen Yang and Dongsheng Jiang

Subjects

oxygen nozzle, aircraft oxygen system, oxygen valve, analysis, oxygen impact test, PA1010, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Oxygen nozzles play an important role in aircraft oxygen systems, and the oxygen valve is one of the most important components of the oxygen nozzle. In order to investigate the ignition source of three fires of a certain type of aircraft, combustion analysis, energy spectrum analysis, and material analysis were conducted. Based on the results of the analysis, oxygen impact tests were carried out under different conditions to identify the superior material and to calculate the lifetime of a PA1010 oxygen valve. The test platform was constructed at the National Key Experimental Base of Fire Science. The PA1010 oxygen nozzle and the F3 oxygen nozzle were the main test subjects. The test results show that the lifetime of the PA1010 oxygen valve under high-pressure oxygen was about 2532, and F3 was the safer material for the oxygen valve. This research provides a reference for the safety design of oxygen valves under high-pressure environments and facilitates further research into aircraft oxygen systems.

Published

2023

46. Development of an Insect Vector Cell Culture and RNA Interference System To Investigate the Functional Role of Fijivirus Replication Protein

Author

Ailing Zheng, Hongyan Chen, Qian Chen, Lianhui Xie, Qifei Liu, Dongsheng Jia, Taiyun Wei, and Zujian Wu

Subjects

Viral protein, viruses, Immunology, Cell Culture Techniques, Biology, Spodoptera, medicine.disease_cause, Reoviridae, Virus Replication, Microbiology, Hemiptera, Viral Proteins, Viral entry, RNA interference, Virology, medicine, Viroplasm, Animals, Plant Diseases, fungi, RNA, Oryza, Virus-Cell Interactions, RNA silencing, Viral replication, Genetic Techniques, Cell culture, Insect Science, RNA Interference

Abstract

An in vitro culture system of primary cells from white-backed planthopper, an insect vector of Southern rice black-streaked dwarf virus (SRBSDV), a fijivirus, was established to study replication of the virus. Viroplasms, putative sites of viral replication, contained the nonstructural viral protein P9-1, viral RNA, outer-capsid proteins, and viral particles in virus-infected cultured insect vector cells, as revealed by transmission electron and confocal microscopy. Formation of viroplasm-like structures in non-host insect cells upon expression of P9-1 suggested that the matrix of viroplasms observed in virus-infected cells was composed basically of P9-1. In cultured insect vector cells, knockdown of P9-1 expression due to RNA interference (RNAi) induced by synthesized double-stranded RNA (dsRNA) from the P9-1 gene strongly inhibited viroplasm formation and viral infection. RNAi induced by ingestion of dsRNA strongly abolished viroplasm formation, preventing efficient viral spread in the body of intact vector insects. All these results demonstrated that P9-1 was essential for viroplasm formation and viral replication. This system, combining insect vector cell culture and RNA interference, can further advance our understanding of the biological activities of fijivirus replication proteins.

Published

2012

47. Prevalence and Clinical Characteristics of Calciphylaxis in Chinese Hemodialysis Patients

Author

Yuqiu Liu, Canlin Yang, Xin Yang, Xiaotong Xie, Hong Liu, Liuping Zhang, Jianming Ye, Dongsheng Jiang, Xiaoliang Zhang, and Bicheng Liu

Subjects

calciphylaxis, clinical characteristics, epidemiological survey, hemodialysis, prevalence, risk factor, Medicine (General), R5-920

Abstract

BackgroundCalciphylaxis is a grievous life-threatening vascular disease that commonly affects dialysis population. This is the first epidemiological survey of calciphylaxis initiated in China.MethodsIn the cross-sectional survey, a stratified sampling method was used to select 24 dialysis centers in Jiangsu Province. The participants were all adult patients in each center who had been on hemodialysis for more than 6 months. Calciphylaxis patients were uniformly diagnosed based on characteristic skin lesions and histopathological features.ResultsA total of 3,867 hemodialysis patients (average age of 55.33 ± 13.89 years; 61.81% of males) were included. Forty eight cases were diagnosed with calciphylaxis, and prevalence was 1.24%. Among calciphylaxis patients, 33 cases were male, and the average age and median dialysis duration were 53.85 ± 15.17 years and 84.00 (48.00, 138.75) months, respectively. Skin biopsy was performed in 70.83% of calciphylaxis patients, and positive rate was 64.71%. Meanwhile, the positive rate of bone scintigraphy in the diagnosis of calciphylaxis was 62.5%. The prevalence of hyperparathyroidism in case group was as high as 72.92% with longer duration, and 42.86% had undergone parathyroidectomy. Multivariate analysis indicated that increased BMI, prolonged dialysis duration, warfarin therapy, hyperparathyroidism, diabetes, tumors, low serum albumin and high serum alkaline phosphatase levels were high-risk factors for calciphylaxis.ConclusionsThe prevalence of calciphylaxis in Chinese hemodialysis patients was 1.24% according to regional epidemiological survey, but its actual prevalence would be presumably far beyond present data. It's urgent to improve clinical understanding of calciphylaxis, and multifaceted diagnostic methods should be applied for early screening.

Published

2022

48. Structure Optimization and Control Design of Electronic Oxygen Regulator

Author

Dongsheng Jiang, Yue Liu, Haowen Yang, Xingxing Fang, Binbin Qian, and Hui Li

Subjects

electronic oxygen regulator, structural optimization, RBF neural network, single neuron, life support system, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The oxygen regulator is the core component of the aircraft life support system, which adjusts the flow and pressure of the breathing gas according to the pilot’s breathing needs. In response to the problem that structural parameters are difficult to adjust and prone to jitter when the indirect oxygen regulator system is stable, a direct oxygen regulator is designed using a stepper motor to drive a lung-type flapper, replacing the diaphragm lever-type structure of the indirect oxygen regulator. Due to the nonlinearity and time-varying nature of the dynamic characteristics of oxygen regulators, a single-neuron PID control strategy based on online identification of RBF neural networks is proposed to improve the PID control performance. The RBF neural network is used to identify the Jacobian information of the controlled object, and the single-neuron PID controller completes the online adjustment of the controller parameters to realize the intelligent control of the system. Simulation experimental studies are conducted to verify the performance of the direct oxygen regulator. The result analysis verifies the excellence of the single-neuron PID control strategy based on online recognition of the RBF neural network to improve the system performance.

Published

2023

49. Converting fibroblastic fates leads to wound healing without scar

Author

Dongsheng Jiang and Yuval Rinkevich

Subjects

Medicine, Biology (General), QH301-705.5

Published

2021

50. Virus-Induced Tubules: A Vehicle for Spread of Virions into Ovary Oocyte Cells of an Insect Vector.

Author

Zhenfeng Liao, Qianzhuo Mao, Jiajia Li, Chengcong Lu, Wei Wu, Hongyan Chen, Qian Chen, Dongsheng Jia, and Taiyun Wei

Subjects

INSECTS, ARBOVIRUSES, VIRION

Abstract

Many arthropod-borne viruses are persistently propagated and transovarially transmitted by female insect vectors through eggs, but the mechanism remains poorly understood. Insect oocytes are surrounded by a layer of follicular cells, which are connected to the oocyte through actin-based microvilli. Here, we demonstrate that a plant reovirus, rice gall dwarf virus (RGDV), exploits virus-containing tubules composed of viral non-structural protein Pns11 to pass through actin-based junctions between follicular cells or through actin-based microvilli from follicular cells into oocyte of its leafhopper vector Recilia dorsalis, thus overcoming transovarial transmission barriers. We further determine that the association of Pns11 tubules with actin-based cellular junctions or microvilli of the ovary is mediated by a specific interaction between Pns11 and actin. Interestingly, RGDV can replicate and assemble progeny virions in the oocyte cytoplasm. The destruction of the tubule assembly by RNA interference with synthesized double-stranded RNA targeting the Pns11 gene strongly inhibits transovarial transmission of RGDV by its vectors. For the first time, we show that a virus can exploit virus-induced tubule as a vehicle to overcome the transovarial transmission barrier by insect vectors. [ABSTRACT FROM AUTHOR]

Published

2017