Your search keyword '"Wang, Bao‐Zhong"' showing total 29 results

1. Iron Nanostructure Primes Arbuscular Mycorrhizal Fungi Symbiosis Tightly Connecting Maize Leaf Photosynthesis via a Nanofilm Effect.

Author

Yang, Yu-Miao, Naseer, Minha, Zhu, Ying, Wang, Bao-Zhong, Zhu, Shuang-Guo, Chen, Ying-Long, Ma, Yue, Ma, Bao-Luo, Guo, Jia-Cheng, Wang, Song, Tao, Hong-Yan, and Xiong, You-Cai

Published

2024

2. Iron Nanostructure Primes Arbuscular Mycorrhizal Fungi Symbiosis Tightly Connecting Maize Leaf Photosynthesis via a Nanofilm Effect

Author

Yang, Yu-Miao, Naseer, Minha, Zhu, Ying, Wang, Bao-Zhong, Zhu, Shuang-Guo, Chen, Ying-Long, Ma, Yue, Ma, Bao-Luo, Guo, Jia-Cheng, Wang, Song, Tao, Hong-Yan, and Xiong, You-Cai

Abstract

It is crucial to clarify how the iron nanostructure activates plant growth, particularly in combination with arbuscular mycorrhizal fungi (AMF). We first identified 1.0 g·kg–1of nanoscale zerovalent iron (nZVI) as appropriate dosage to maximize maize growth by 12.7–19.7% in non-AMF and 18.9–26.4% in AMF, respectively. Yet, excessive nZVI at 2.0 g·kg–1exerted inhibitory effects while FeSO4showed slight effects (p> 0.05). Under an appropriate dose, a nano core–shell structure was formed and the transfer and diffusion of electrons between PS II and PS I were facilitated, significantly promoting the reduction of ferricyanide and NADP (p< 0.05). SEM images showed that excessive nZVI particles can form stacked layers on the surface of roots and hyphae, inhibiting water and nutrient uptake. TEM observations showed that excessive nanoparticles can penetrate into root cortical cells, disrupt cellular homeostasis, and substantially elevate Fe content in roots (p< 0.05). This exacerbated membrane lipid peroxidation and osmotic regulation, accordingly restricting photosynthetic capacity and AMF colonization. Yet, appropriate nZVI can be adhered to a mycelium surface, forming a uniform nanofilm structure. The strength of the mycelium network was evidently enhanced, under an increased root colonization rate and an extramatrical hyphal length (p< 0.05). Enhanced mycorrhizal infection was tightly associated with higher gas exchange and Rubisco and Rubisco enzyme activities. This enabled more photosynthetic carbon to input into AMF symbiont. There existed a positive feedback loop connecting downward transfer of photosynthate and upward transport of water/nutrients. FeSO4only slightly affected mycorrhizal development. Thus, it was the Fe nanostructure but not its inorganic salt state that primed AMF symbionts for better growth.

Published

2024

3. Double-layered protein nanoparticles conjugated with truncated flagellin induce improved mucosal and systemic immune responses in miceElectronic supplementary information (ESI) available. See DOI: https://doi.org/10.1039/d4nh00287c

Author

Kim, Joo Kyung, Zhu, Wandi, Dong, Chunhong, Wei, Lai, Ma, Yao, Denning, Timothy, Kang, Sang-Moo, and Wang, Bao-Zhong

Abstract

Influenza viral infection poses a severe risk to global public health. Considering the suboptimal protection provided by current influenza vaccines against circulating influenza A viruses, it is imperative to develop novel vaccine formulations to combat respiratory infections. Here, we report the development of an intranasally-administered, self-adjuvanted double-layered protein nanoparticle consisting of influenza nucleoprotein (NP) cores coated with hemagglutinin (HA) and a truncated form of bacterial flagellin (tFliC). Intranasal vaccination of these nanoparticles notably amplified both antigen-specific humoral and cellular immune responses in the systematic compartments. Elevated antigen-specific IgA and IgG levels in mucosal washes, along with increased lung-resident memory B cell populations, were observed in the respiratory system of the immunized mice. Furthermore, intranasal vaccination of tFliC-adjuvanted nanoparticles enhanced survival rates against homologous and heterologous H3N2 viral challenges. Intriguingly, mucosal slow delivery of the prime dose (by splitting the dose into 5 applications over 8 days) significantly enhanced germinal center reactions and effector T-cell populations in lung draining lymph nodes, therefore promoting the protective efficacy against heterologous influenza viral challenges compared to single-prime immunization. These findings highlight the potential of intranasal immunization with tFliC-adjuvanted protein nanoparticles to bolster mucosal and systemic immune responses, with a slow-delivery strategy offering a promising approach for combating influenza epidemics.

Published

2024

4. Peptide Cross-Linking Using Tyrosine Residues Facilitated by an Exogenous Nickel–Histidine Complex: A Facile Approach for Enhancing Vaccine-Specific Immunogenicity.

Author

Wilks, Logan R., Joshi, Gaurav, Kang, Sang-Moo, Wang, Bao-Zhong, and Gill, Harvinder Singh

Published

2022

5. Long-term cereal-legume intercropping accelerates soil organic carbon loss in subsoil of dryland.

Author

Wang, Wei, Chen, Guang-Rong, Li, Meng-Ying, Chen, Yinglong, Wang, Yang, Tao, Hong-Yan, Hou, Hui-Zhi, Rehman, Muhammad Maqsood Ur, Ashraf, Muhammad, Song, Yajie, Kavagi, Levis, Wang, Bao-Zhong, and Xiong, You-Cai

Abstract

Subsoils are important reservoirs affecting soil organic carbon (SOC). However, little is known about the factors controlling SOC pools in subsoils, and the response of SOC stability to sustainable cropping patterns (e.g., intercropping) remains to be determined. A 10-year experimental field experiment data indicated that cereal–legume intercropping improved net yield gain averagely by 2.2–4.9 t ha-1. SOC storage increased in the topsoil but declined significantly by 5.3% in the subsoil. The increase in soil nitrogen (13.3%) across soil profile resulted in 14.5% decrease in soil C/N. Unexpectedly, microbial growth was evidently stimulated, thereby accelerating SOC decomposition. Interestingly, this process also contributed to the stability of the existing SOC pool. Our results suggest that the adoption of intercropping indeed can improve land use efficiency at a relatively long time scale, but its functional role in subsoil C storage and stability needs to be reconsidered. Effects of cropping patterns on SOC pool along soil profile and its regulatory mechanisms. Notes: nitrogen refers to soil N content, POC means particulate organic carbon, MAOC represents mineral-associated organic carbon, SOC is soil organic carbon, B and F indicate bacterial or fungal necromass C. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

6. Polycationic HA/CpG Nanoparticles Induce Cross-Protective Influenza Immunity in Mice.

Author

Dong, Chunhong, Wang, Ye, Zhu, Wandi, Ma, Yao, Kim, Joo, Wei, Lai, Gonzalez, Gilbert X., and Wang, Bao-Zhong

Published

2022

7. Polycationic HA/CpG Nanoparticles Induce Cross-Protective Influenza Immunity in Mice

Author

Dong, Chunhong, Wang, Ye, Zhu, Wandi, Ma, Yao, Kim, Joo, Wei, Lai, Gonzalez, Gilbert X., and Wang, Bao-Zhong

Abstract

The intranasal (i.n.) route is an ideal vaccination approach for infectious respiratory diseases like influenza. Polycationic polyethylenimine (PEI) could form nanoscale complexes with negatively charged viral glycoproteins. Here we fabricated PEI-hemagglutinin (HA) and PEI-HA/CpG nanoparticles and investigated their immune responses and protective efficacies with an i.n. vaccination regimen in mice. Our results revealed that the nanoparticles significantly enhanced HA immunogenicity, providing heterologous cross-protection. The conserved HA stalk region induced substantial antibodies in the nanoparticle immunization groups. In contrast to the Th2-biased, IgG1-dominant antibody response generated by PEI-HA nanoparticles, PEI-HA/CpG nanoparticles generated more robust and balanced IgG1/IgG2a antibody responses with augmented neutralization activity and Fc-mediated antibody-dependent cellular cytotoxicity (ADCC). PEI-HA/CpG nanoparticles also induced enhanced local and systemic cellular immune responses. These immune responses did not decay over six months of observation postimmunization. PEI and CpG synergized these comprehensive immune responses. Thus, the PEI-HA/CpG nanoparticle is a potential cross-protective influenza vaccine candidate. Polycationic PEI nanoplatforms merit future development into mucosal vaccine systems.

Published

2022

8. Are long-term influenza vaccines possible and how do we discover them?

Author

Kim, Joo Kyung, Kang, Sang-Moo, Compans, Richard W., and Wang, Bao-Zhong

Published

2021

9. Tubulin Inhibitors Binding to Colchicine-Site: A Review from 2015 to 2019

Author

Xia, Lin-Ying, Zhang, Ya-Liang, Yang, Rong, Wang, Zhong-Chang, Lu, Ya-Dong, Wang, Bao-Zhong, and Zhu, Hai-Liang

Abstract

Due to the three domains of the colchicine-site which is conducive to the combination with small molecule compounds, colchicine-site on the tubulin has become a common target for antitumor drug development, and accordingly, a large number of tubulin inhibitors binding to the colchicine-site have been reported and evaluated over the past years. In this study, tubulin inhibitors targeting the colchicine-site and their application as antitumor agents were reviewed based on the literature from 2015 to 2019. Tubulin inhibitors were classified into ten categories according to the structural features, including colchicine derivatives, CA-4 analogs, chalcone analogs, coumarin analogs, indole hybrids, quinoline and quinazoline analogs, lignan and podophyllotoxin derivatives, phenothiazine analogs, N-heterocycle hybrids and others. Most of them displayed potent antitumor activity, including antiproliferative effects against Multi-Drug-Resistant (MDR) cell lines and antivascular properties, both in vitro and in vivo. In this review, the design, synthesis and the analysis of the structure-activity relationship of tubulin inhibitors targeting the colchicine-site were described in detail. In addition, multi-target inhibitors, anti-MDR compounds, and inhibitors bearing antitumor activity in vivo are further listed in tables to present a clear picture of potent tubulin inhibitors, which could be beneficial for medicinal chemistry researchers.

Published

2020

10. Gold nanoparticles conjugating recombinant influenza hemagglutinin trimers and flagellin enhanced mucosal cellular immunity.

Author

Wang, Chao, Zhu, Wandi, Luo, Yuan, and Wang, Bao-Zhong

Subjects

GOLD nanoparticles, HEMAGGLUTININ, FLAGELLIN, CELLULAR immunity, MUCOSAL neuroma syndrome

Abstract

The immunogenicity of subunit vaccines can be augmented by formulating them into nanoparticles. We conjugated recombinant trimetric influenza A/Aichi/2/68(H3N2) hemagglutinin (HA) onto functionalized gold nanoparticle (AuNP) surfaces in a repetitive, oriented configuration. To further improve the immunogenicity, we generated Toll-like receptor 5 (TLR5) agonist flagellin (FliC)-coupled AuNPs as particulate adjuvants. Intranasal immunizations with an AuNP-HA and AuNP-FliC particle mixture elicited strong mucosal and systemic immune responses that protected hosts against lethal influenza challenges. Compared with the AuNP-HA alone group, the addition of AuNP-FliC improved mucosal B cell responses as characterized by elevated influenza specific IgA and IgG levels in nasal, tracheal, and lung washes. AuNP-HA/AuNP-FliC also stimulated antigen-specific interferon-γ (IFN-γ)-secreting CD4 + cell proliferation and induced strong effector CD8 + T cell activation. Our results indicate that intranasal co-delivery of antigen and adjuvant-displaying AuNPs enhanced vaccine efficacy by inducing potent cellular immune responses. [ABSTRACT FROM AUTHOR]

Published

2018

11. Outcomes of central hepatectomy versus extended hepatectomy

Author

Chan, Jenny, Bradshaw, Luke, Houli, Nezor, Weinberg, Laurence, Perini, Marcos V, Fink, Michael, Muralidharan, Vijayaragavan, Starkey, Graham, Jones, Robert, Wang, Bao Zhong, Christophi, Christopher, and Nikfarjam, Mehrdad

Abstract

Central hepatectomy (CH) is more difficult than extended hepatectomy (EH) and is associated with greater morbidity. In this modern era of liver management with aims to prevent post-hepatectomy liver failure (PHLF), there is a need to assess outcomes of CH as a parenchyma-sparing procedure for centrally located liver tumors.

Published

2019

12. Coated protein nanoclusters from influenza H7N9 HA are highly immunogenic and induce robust protective immunity.

Author

Wang, Li, Chang, Timothy Z., He, Yuan, Kim, Jong R., Wang, Shelly, Mohan, Teena, Berman, Zachary, Tompkins, S. Mark, Tripp, Ralph A., Compans, Richard W., Champion, Julie A., and Wang, Bao-Zhong

Subjects

INFLUENZA A virus, H7N9 subtype, PROTEIN drugs, NANOPARTICLES, IMMUNOGENETICS, ROBUST control, IMMUNITY

Abstract

Recurring influenza viruses pose an annual threat to public health. A time-saving, cost-effective and egg-independent influenza vaccine approach is important particularly when responding to an emerging pandemic. We fabricated coated, two-layer protein nanoclusters from recombinant trimeric hemagglutinin from an avian-origin H7N9 influenza A virus as an approach for vaccine development in response to an emerging pandemic. Assessment of the virus-specific immune responses and protective efficacy in mice immunized with the nanoclusters demonstrated that the vaccine candidates were highly immunogenic, able to induce protective immunity and long-lasting humoral antibody responses to this virus without the use of adjuvants. Because the advantages of the highly immunogenic coated nanoclusters also include rapid productions in an egg-independent system, this approach has great potential for influenza vaccine production not only in response to an emerging pandemic, but also as a replacement for conventional seasonal influenza vaccines. [ABSTRACT FROM AUTHOR]

Published

2017

13. Monophosphoryl lipid A-adjuvanted nucleoprotein-neuraminidase nanoparticles improve immune protection against divergent influenza viruses.

Author

Wang, Ye, Dong, Chunhong, Ma, Yao, Zhu, Wandi, Gill, Harvinder Singh, Denning, Timothy L., Kang, Sang-Moo, and Wang, Bao-Zhong

Subjects

NEURAMINIDASE, INFLUENZA viruses, INFLUENZA A virus, CYTOTOXIC T cells, NANOPARTICLES, INFLUENZA vaccines

Abstract

Universal influenza vaccines are urgently needed to prevent recurrent influenza epidemics and inevitable pandemics. We generated double-layered protein nanoparticles incorporating two conserved influenza antigens—nucleoprotein and neuraminidase—through a two-step desolvation-crosslinking method. These protein nanoparticles displayed immunostimulatory properties to antigen-presenting cells by promoting inflammatory cytokine (IL-6 and TNF-α) secretion from JAWS II dendric cells. The nanoparticle immunization induced significant antigen-specific humoral and cellular responses, including antigen-binding and neutralizing antibodies, antibody- and cytokine (IFN-γ and IL-4)-secreting cells, and NP 147 – 155 tetramer-specific cytotoxic T lymphocyte (CTL) responses. Co-administration of monophosphoryl lipid A (MPLA, a toll-like receptor 4 agonist) with the protein nanoparticles further improved immune responses and conferred heterologous and heterosubtypic influenza protection. The MPLA-adjuvanted nanoparticles reduced lung inflammation post-infection. The results demonstrated that the combination of MPLA and conserved protein nanoparticles could be developed into an improved universal influenza vaccine strategy. MPLA-adjuvanted double-layered nucleoprotein-neuraminidase (NP-NA) protein nanoparticles were fabricated through a facile two-step desolvation-crosslinking method. These protein nanoparticles displayed immunostimulatory properties to dendric cells and induced significant antigen-specific humoral and cellular responses in mice, conferring improved cross-protection against divergent influenza viruses. The MPLA-adjuvanted NP-NA protein nanoparticles could be a synergistic piece of the universal influenza vaccine puzzle. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

14. Combination of temsirolimus and adriamycin exhibits an enhanced antitumor effect in hepatocellular carcinoma

Author

Kang, Hong-Gang, Wang, Bao-Zhong, Zhang, Jing, Liu, Mei-Rong, and Li, Ying-Xue

Abstract

The oncogenic PI3K/Akt/mTOR pathway is frequently activated in hepatocellular carcinoma (HCC). The aim of this study is to investigate the anti-HCC effect of combination of temsirolimus, an mTOR inhibitor, and adriamycin, a routinely used drug for treating HCC.

Published

2017

15. Dual effects of nZVI on maize growth and water use are positively mediated by arbuscular mycorrhizal fungi via rhizosphere interactions.

Author

Yang, Yu-Miao, Naseer, Minha, Zhu, Ying, Zhu, Shuang-Guo, Wang, Song, Wang, Bao-Zhong, Wang, Jing, Zhu, Hao, Wang, Wei, Tao, Hong-Yan, and Xiong, You-Cai

Subjects

VESICULAR-arbuscular mycorrhizas, SCANNING transmission electron microscopy, RHIZOSPHERE, WATER use, PLANT growth, WATER efficiency

Abstract

Nanoscale zero-valent iron (nZVI) might generate positive and negative effects on plant growth, since it acts as either hazardous or growth-promotion role. It is still unclear whether such dual roles can be mediated by arbuscular mycorrhizal fungi (AMF) in plant-AMF symbiosis. We first identified that in 1.5 g kg−1 nZVI (≤1.5 g kg−1 positively), maize biomass was increased by 15.83%; yet in 2.0 g kg−1 nZVI, it turned to be declined by 6.83%, relative to non-nZVI condition (CK, p < 0.05), showing a negative effect. Interestingly, the inoculation of AMF massively improved biomass by 45.18% in 1.5 g kg−1 nZVI, and relieved the growth inhibition by 2.0 g kg−1 nZVI. The event of water use efficiency followed similar trend as that of biomass. We found that proper concentration of nZVI can positively interact with rhizosphere AMF carrier, enabling more plant photosynthetic carbon to be remobilized to mycorrhiza. The scanning of transmission electron microscopy showed that excessive nZVI can infiltrate into root cortical cells and disrupt cellular homeostasis mechanism, significantly increasing iron content in roots by 76.01% (p < 0.05). Simultaneously, the images of scanning electron microscopy showed that nZVI were attached on root surface to form an insoluble iron ion (Fe3+) layer, hindering water absorption. However, they were efficiently immobilized and in situ intercepted by extraradical hyphae in mycorrhizal-nZVI symbiosis, lowering iron translocation efficiency by 6.07% (p < 0.05). Herein, the optimized structure remarkably diminished aperture blockage at root surface and improved root activities by 30.06% (p < 0.05). Particularly, next-generation sequencing demonstrated that appropriate amount of nZVI promoted the colonization and development of Funneliformis mosseae as dominant species in rhizosphere, confirming the positive interaction between AMF and nZVI, and its regulatory mechanism. Therefore, dual effects of nZVI can be actively mediated by AMF via rhizosphere interactions. The findings provided new insights into the safe and efficient application of nanomaterials in agriculture. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

16. Nanoclusters self-assembled from conformation-stabilized influenza M2e as broadly cross-protective influenza vaccines.

Author

Wang, Li, Hess, Annie, Chang, Timothy Z., Wang, Ying-Chun, Champion, Julie A., Compans, Richard W., and Wang, Bao-Zhong

Subjects

MOLECULAR self-assembly, INFLUENZA vaccines, EXTRACELLULAR matrix proteins, IMMUNOGENETICS, INTRANASAL medication, IMMUNOGLOBULIN G

Abstract

Abstract: Influenza vaccines with broad cross-protection are urgently needed. The highly conserved ectodomain of the influenza matrix protein 2 (M2e) can be a promising candidate if its low immunogenicity was overcome. In this study, we generated protein nanoclusters self-assembled from conformation-stabilized M2e tetramers (tM2e) to improve its immunogenicity. The resulting nanoclusters showed an average hydrodynamic diameter of 227nm. Vaccination with the nanoclusters by an intranasal route elicited high levels of serum antigen-specific IgG in mice (approximately 100-fold higher than that obtained with soluble tM2e), as well as antigen-specific T cell and mucosal antibody responses. The immunity conferred complete protection against lethal challenge with homo- as well as heterosubtypic viruses. These results demonstrate that nanoclusters assembled from conformation-stabilized M2e are promising as a potential universal influenza A vaccine. Self-assembly into nanoclusters represents a novel approach for increasing the immunogenicity of vaccine antigens. From the Clinical Editor: In order to develop more effective influenza vaccination, the highly conserved ectodomain of M2e could be a promising candidate. Unfortunately, it is a weak antigen for vaccination purposes. In this study, self-assembled protein nanoclusters of tM2e were generated and tested. The nanoclusters demonstrated superior vaccination properties, with complete protection against lethal challenge in the studied rodent model, raising hope for the introduction of similar vaccines to challenge human influenza outbreaks. [Copyright &y& Elsevier]

Published

2014

17. Influenza NP core and HA or M2e shell double-layered protein nanoparticles induce broad protection against divergent influenza A viruses.

Author

Ma, Yao, Wang, Ye, Dong, Chunhong, Gonzalez, Gilbert X., Song, Yufeng, Zhu, Wandi, Kim, Joo, Wei, Lai, and Wang, Bao-Zhong

Subjects

INFLUENZA viruses, INFLUENZA A virus, RESPIRATORY infections, INFLUENZA, VIRUS diseases, EXTRACELLULAR matrix proteins, NANOPARTICLES, CELL compartmentation

Abstract

Influenza viral infection causes acute upper respiratory diseases in humans, posing severe risks to global public health. However, current vaccines provide limited protection against mismatched circulating influenza A viruses. Here, the immune responses induced in mice by novel double-layered protein nanoparticles were investigated. The nanoparticles were composed of influenza nucleoprotein (NP) cores and hemagglutinin (HA) or matrix 2 protein ectodomain (M2e) shells. Vaccination with the nanoparticles significantly enhanced M2e-specific serum antibody titers and concomitant ADCC responses. Robust NP-specific T cell responses and robust HA neutralization were also detected. Moreover, vaccination with a trivalent nanoparticle combination containing two routinely circulated HA, conserved M2e, and NP reduced lung virus titers, pulmonary pathologies, and weight loss after homologous virus challenge. This combination also improved survival rates against heterologous and heterosubtypic influenza virus challenges. Our results demonstrate that the trivalent combination elicited potent and long-lasting immune responses conferring influenza viral cross-protection. The double-layered protein nanoparticles combination composed of conserved NP as core and two routinely circulated HAs and conserved M2e as shell induces broad immune protection against divergent influenza A viruses. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

18. Extended normothermic extracorporeal perfusion of isolated human liver after warm ischaemia: a preliminary report

Author

Bellomo, Rinaldo, Marino, Bruno, Starkey, Graeme, Fink, Michael, Wang, Bao Zhong, Eastwood, Glenn M., Peck, Leah, Young, Helen, Houston, Shane, Skene, Alison, Opdam, Helen, and Jones, Robert

Abstract

Background:Donation after circulatory death (DCD) livers are at markedly increased risk of primary graft dysfunction and biliary tract ischaemia. Normothermic extracorporeal liver perfusion (NELP) may increase the ability to transplant DCD livers and may allow their use for artificial extracorporeal liver support of patients with fulminant liver failure.

Published

2014

19. Normothermic extracorporeal perfusion of isolated porcine liver after warm ischaemia: a preliminary report

Author

Bellomo, Rinaldo, Suzuki, Satoshi, Marino, Bruno, Starkey, Graeme K, Chambers, Brenton, Fink, Michael A, Wang, Bao Zhong, Houston, Shane, Eastwood, Glenn, Calzavacca, Paolo, Glassford, Neil, Skene, Alison, Jones, Daryl A, and Jones, Robert

Abstract

• Liver transplantation is a major life-saving procedure, and donation after cardiac death (DCD) has increased the pool of potential liver donors.

Published

2012

20. Enhanced Influenza Virus-Like Particle Vaccines Containing the Extracellular Domain of Matrix Protein 2 and a Toll-Like Receptor Ligand

Author

Wang, Bao-Zhong, Gill, Harvinder S., Kang, Sang-Moo, Wang, Li, Wang, Ying-Chun, Vassilieva, Elena V., and Compans, Richard W.

Abstract

ABSTRACTThe extracellular domain of matrix protein 2 (M2e) is conserved among influenza A viruses. The goal of this project is to develop enhanced influenza vaccines with broad protective efficacy using the M2e antigen. We designed a membrane-anchored fusion protein by replacing the hyperimmunogenic region of Salmonella entericaserovar Typhimurium flagellin (FliC) with four repeats of M2e (4.M2e-tFliC) and fusing it to a membrane anchor from influenza virus hemagglutinin (HA). The fusion protein was incorporated into influenza virus M1-based virus-like particles (VLPs). These VLPs retained Toll-like receptor 5 (TLR5) agonist activity comparable to that of soluble FliC. Mice immunized with the VLPs by either intramuscular or intranasal immunization showed high levels of systemic M2-specific antibody responses compared to the responses to soluble 4.M2e protein. High mucosal antibody titers were also induced in intranasally immunized mice. All intranasally immunized mice survived lethal challenges with live virus, while intramuscularly immunized mice showed only partial protection, revealing better protection by the intranasal route. These results indicate that a combination of M2e antigens and TLR ligand adjuvants in VLPs has potential for development of a broadly protective influenza A virus vaccine.

Published

2012

21. Sealing Methods and Principles Based on Commonly Plastic Packaging Containers

Author

Cao, Li Jie and Wang, Bao Zhong

Abstract

The overall effect of sealing the packaging has a very important role. Sealed plastic containers divided into four main ways, namely the bundle sealing, adhesive sealing, physical sealing and filling and sealing. They have their own characteristics. Bundling seal means the product can not be sealed, but its use is very wide, has a high degree of freedom. Low adhesive strength of adhesive sealing, but it is widely used. More complex structure of the physical sealing, but it has a wide variety of functions. Used in the filling and sealing gaskets are susceptible to damage, but it has a good seal. This paper analyzes the principles of their seal,which allows you to choose different sealing materials and the corresponding sealing structure to meet a variety of packaging needs.

Published

2011

22. Research on Vibration Properties of Honeycomb Paperboard with Double Cross-Core

Author

Wang, Bao Zhong, Sun, Zhao Dan, and Cao, Li Jie

Abstract

Studied the vibration performance of honeycomb paperboard with double cross-core, obtained vibration transmissibility curve of honeycomb paperboard with double cross-core, by the curve indicated, the vibration transmission properties of the honeycomb paperboard with double cross-core in the sinusoidal excitation ,and the packaging materials as contents when the size of the protection capacity. The results show that the shock resistance capacity of honeycomb paperboard with double cross-core is supers the single layer with the same thickness of.

Published

2011

23. Different Thickness of Honeycomb Paperboard Vibration Frequency of Testing and Simulation

Author

Wang, Bao Zhong and Cao, Li Jie

Abstract

This paper measured the vibration transmissibility of several honeycomb paperboards and the attenuation coefficient. Laboratory was used to determine the natural frequency of the thickness of 10mm, 20mm, 30mm, 40mm Honeycomb Paperboard. The test results show that the honeycomb paperboard resonance frequency decreases with increasing thickness, while the vibration transmissibility increases with increasing thickness. We have also established finite element model of honeycomb paperboard to simulate its vibration properties. The result of simulation is in good coincidence with the experimental result. In addition, some cases can use computer simulation instead of laboratory testing to obtain the natural frequencies of honeycomb paperboard.

Published

2011

24. Effects of Heat Shrinkage on Structure and Property of Silk/Synthetic Fiber Textured Composite Filaments

Author

Zhang, Xiao Ying, Wang, Bao Zhong, Zhang, Min, and Pan, Zhi Juan

Abstract

The textured yarn was respectively prepared with pure silk, silk/polyester POY composite filament, silk/polyester FDY composite filament by the self-made processing device. The effects of heat shrinkage of polyester fibers on the structure and properties of the textured filaments were investigated. The results revealed that silk/POY composite filament contained higher heat shrinkage. Synthetic fibers produced crimps with larger amplitude and smaller bandwidth, and the textured filaments presented a larger yarn count, resulting in the notable crimped deformation.

Published

2011

25. Cleavage of supercoiled circular double-stranded DNA induced by a eukaryotic cambialistic superoxide dismutase from Cinnamomum camphora.

Author

Wang, Bao-Zhong, Wei, Xu-Bin, and Liu, Wang-Yi

Abstract

A eukaryotic cambialistic superoxide dismutase (SOD) has been purified to homogeneity from mature seeds of the disease- and insect-resistant camphor tree (Cinnamomum camphora). Besides the known role of this SOD in protecting cells against oxidative stress, it can induce the cleavage of supercoiled double-stranded DNA into nicked and linear DNA. It can not cleave linear DNA or RNA, demonstrating there is no DNase or RNase in the purified cambialistic SOD. Furthermore, the SOD can linearize circular pGEM-4Z DNA that is relaxed by topoisomerase I. This result indicates that the DNA-cleaving activity requires substrates being topologically constrained. The supercoiled DNA-cleaving activity of the cambialistic SOD can be inhibited by either SOD inhibitor (azide) or catalase and hydroxyl radical scavengers (ethanol and mannitol). The chelator of iron, diethylenetriaminepentaacetic acid (DTPA), also inhibits the supercoiled DNA-cleaving activity. These results show that the dismutation activity is crucial for the supercoiled DNA cleavage. The modification of tryptophan residue of the cambialistic SOD with N-bromosuccinimide (NBS) shows that these two activities are structurally correlative. The reaction mechanism is proposed that the hydroxyl radical formed in a transition-metal-catalyzing Fenton-type reaction contributes to the DNA-cleaving activity. In addition, the cleavage sites in supercoiled pGEM-4Z DNA are random.

Published

2004

26. Comparative Study of Interaction of Two Type Ii Ribosome-Inactivating Proteins And Their A-Chains With Model Membrane

Author

Xu, Hong, Wang, Bao-Zhong, and Liu, Wang-Yi

Abstract

Both cinnamomin and ricin are type II ribosome-inactivating proteins. Cinnamomin is less cytotoxic compared with ricin. In order to clarify the mechanism of their different cytotoxicities, the interaction of cinnamomin and its A-chain with model membrane was investigated and compared with that of ricin and its A-chain. It was revealed that cinnamomin is less effective than ricin in interacting with model membrane. Cinnamomin A-chain interacts with model membrane much less violently than ricin Achain. The differences in the interaction of cinnamomin, ricin or their A-chains with model membrane might at least in part indicate the different cytotoxicity between cinnamomin and ricin.

Published

2004

27. Australia's first liver-intestinal transplant.

Author

Garg M, Jones RM, Mirza D, Wang BZ, Fink MA, Starkey G, Vaughan RB, Testro AG, Garg, Mayur, Jones, Robert M, Mirza, Darius, Wang, Bao Zhong, Fink, Michael A, Starkey, Graham, Vaughan, Rhys B, and Testro, Adam G

Published

2012

28. Double‐Layered M2e‐NA Protein Nanoparticle Immunization Induces Broad Cross‐Protection against Different Influenza Viruses in Mice

Author

Wang, Ye, Deng, Lei, Gonzalez, Gilbert X., Luthra, Latika, Dong, Chunhong, Ma, Yao, Zou, Jun, Kang, Sang‐Moo, and Wang, Bao‐Zhong

Abstract

The development of a universal influenza vaccine is an ideal strategy to eliminate public health threats from influenza epidemics and pandemics. This ultimate goal is restricted by the low immunogenicity of conserved influenza epitopes. Layered protein nanoparticles composed of well‐designed conserved influenza structures have shown improved immunogenicity with new physical and biochemical features. Herein, structure‐stabilized influenza matrix protein 2 ectodomain (M2e) and M2e‐neuraminidase fusion (M2e‐NA) recombinant proteins are generated and M2e protein nanoparticles and double‐layered M2e‐NA protein nanoparticles are produced by ethanol desolvation and chemical crosslinking. Immunizations with these protein nanoparticles induce immune protection against different viruses of homologous and heterosubtypic NA in mice. Double‐layered M2e‐NA protein nanoparticles induce higher levels of humoral and cellular responses compared with their comprising protein mixture or M2e nanoparticles. Strong cytotoxic T cell responses are induced in the layered M2e‐NA protein nanoparticle groups. Antibody responses contribute to the heterosubtypic NA immune protection. The protective immunity is long lasting. These results demonstrate that double‐layered protein nanoparticles containing structure‐stabilized M2e and NA can be developed into a universal influenza vaccine or a synergistic component of such vaccines. Layered protein nanoparticles can be a general vaccine platform for different pathogens. Double‐layered protein nanoparticles are fabricated containing an influenza M2e core and an influenza NA1 or NA2 outer shell. Protein nanoparticle immunizations in mice induce broadly reactive immunity conferring protection against different influenza virus challenges.

Published

2020

29. Enhanced Mucosal Immune Responses to HIV Virus-Like Particles Containing a Membrane-Anchored Adjuvant

Author

Vassilieva, Elena V., Wang, Bao-Zhong, Vzorov, Andrei N., Wang, Li, Wang, Ying-Chun, Bozja, Jadranka, Xu, Rui, and Compans, Richard W.

Abstract

ABSTRACTPreviously, a modified HIV Env protein with a heterologous membrane anchor was found to be incorporated into HIV virus-like particles (VLPs) at 10-fold-higher levels than those of unmodified Env. To further improve the immunogenicity of such VLPs, membrane-anchored forms of bacterial flagellin (FliC) or a flagellin with a truncated variable region (tFliC) were constructed to be incorporated into the VLPs as adjuvants. HIV-specific immune responses induced by the resulting VLPs were determined in a guinea pig model. The VLPs induce enhanced systemic antibody responses by either systemic or mucosal vaccination and enhanced mucosal immunity by a mucosal immunization route, as demonstrated by high levels of HIV-specific serum IgG and mucosal IgG and IgA. The quality of the antibody responses was also improved, as shown by enhanced neutralization capacity. VLPs incorporating FliC were more effective in inducing systemic responses, while VLPs containing tFliC were more effective in inducing mucosal IgA responses. The IgG titers in sera were found to last for at least 5 months without a significant drop. These results indicate that HIV VLPs incorporating high levels of Env and a molecular adjuvant have excellent potential for further development as a prophylactic HIV vaccine.IMPORTANCEA prophylactic vaccine is urgently needed to control the spread of HIV/AIDS. Antigens inducing strong systemic and mucosal immune responses are promising as vaccines for this mucosally transmitted disease. We found that novel HIV virus-like particles (VLPs) presenting a high level of Env in its native membrane-bound form and coincorporating an innate immune-signaling adjuvant in the same particles were effective in inducing enhanced systemic and mucosal immunity. As new HIV vaccine candidates, these VLPs bridge the gaps of the innate and adaptive, as well as systemic and mucosal, immune responses, providing a new approach for HIV vaccine development.

Published

2011