1.Laboratory diagnosis and clinical applications of hepatitis E
Dong YING ; Ningshao XIA ; Zizheng ZHENG
Chinese Journal of Laboratory Medicine 2024;47(3):210-215
Hepatitis E virus (HEV) is the major pathogen responsible for acute viral hepatitis in China. Recently, there have been new advances in the methodologies and novel discoveries in the laboratory diagnosis of HEV, including various diagnostic markers such as HEV RNA, HEV antigen, anti-HEV IgM, and anti-HEV IgG. A multi-indicator diagnostic approach should be applied across different populations, including patients with acute or chronic hepatitis E, individuals with extra-hepatic clinical symptoms, asymptomatic carriers, and specific occupational groups undergoing health assessments. The clinical significance of test results for each marker varies among these different groups.
2.A review of the safety and efficacy of current COVID-19 vaccines.
Zehong HUANG ; Yingying SU ; Tianying ZHANG ; Ningshao XIA
Frontiers of Medicine 2022;16(1):39-55
Vaccination is the most effective and feasible way to contain the Coronavirus disease 2019 (COVID-19) pandemic. The rapid development of effective COVID-19 vaccines is an extraordinary achievement. This study reviewed the efficacy/effectiveness, immunogenicity, and safety profile of the 12 most progressed COVID-19 vaccines and discussed the challenges and prospects of the vaccine-based approaches in a global crisis. Overall, most of the current vaccines have shown safety and efficacy/effectiveness during actual clinical trials or in the real-world studies, indicating a development of pandemic control. However, many challenges are faced by pandemic control in terms of maximizing the effect of vaccines, such as rapid vaccine coverage, strategies to address variants with immune escape capability, and surveillance of vaccine safety in the medium- and long-terms.
COVID-19/prevention & control*
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COVID-19 Vaccines/adverse effects*
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Humans
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Pandemics/prevention & control*
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SARS-CoV-2
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Vaccination
3.Persisting lung pathogenesis and minimum residual virus in hamster after acute COVID-19.
Lunzhi YUAN ; Huachen ZHU ; Ming ZHOU ; Jian MA ; Rirong CHEN ; Liuqin YU ; Wenjia CHEN ; Wenshan HONG ; Jia WANG ; Yao CHEN ; Kun WU ; Wangheng HOU ; Yali ZHANG ; Shengxiang GE ; Yixin CHEN ; Quan YUAN ; Qiyi TANG ; Tong CHENG ; Yi GUAN ; Ningshao XIA
Protein & Cell 2022;13(1):72-77
Animals
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Antibodies, Neutralizing/biosynthesis*
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Antibodies, Viral/biosynthesis*
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Body Weight/immunology*
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COVID-19/virology*
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Disease Models, Animal
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Disease Progression
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Humans
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Immunohistochemistry
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Lung/virology*
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Male
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Mesocricetus
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Nasal Cavity/virology*
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RNA, Viral/immunology*
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SARS-CoV-2/pathogenicity*
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Severity of Illness Index
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Viral Load
4.Capsid destabilization and epitope alterations of human papillomavirus 18 in the presence of thimerosal
Huang XIAOFEN ; Li YIKE ; Nie MEIFENG ; Yue MINGXI ; Li YUFANG ; Lin ZHIJIE ; Pan HUIRONG ; Fang MUJIN ; Wu TING ; Li SHAOWEI ; Zhang JUN ; Xia NINGSHAO ; Zhao QINJIAN
Journal of Pharmaceutical Analysis 2021;11(5):617-627
Thimerosal has been widely used as a preservative in drug and vaccine products for decades.Due to the strong propensity to modify thiols in proteins,conformational changes could occur due to covalent bond formation between ethylmercury(a degradant of thimerosal)and thiols.Such a conformational change could lead to partial or even complete loss of desirable protein function.This study aims to investigate the effects of thimerosal on the capsid stability and antigenicity of recombinant human papillomavirus(HPV)18 virus-like particles(VLPs).Dramatic destabilization of the recombinant viral capsid upon thimerosal treatment was observed.Such a negative effect on the thermal stability of VLPs preserved with thimerosal was shown to be dependent on the thimerosal concentration.Two highly neutralizing antibodies,13H12 and 3C3,were found to be the most sensitive to thimerosal treatment.The kinetics of antigenicity loss,when monitored with 13H12 or 3C3 as probes,yielded two distinctly different sets of kinetic parameters,while the data from both monoclonal antibodies(mAbs)followed a biphasic expo-nential decay model.The potential effect of thimerosal on protein function,particularly for thiol-containing proteinaceous active components,needs to be comprehensively characterized during formulation development when a preservative is necessary.
5.Progress in vaccine development based on baculovirus expression vector system.
Rui RONG ; Tingting LI ; Yuyun ZHANG ; Ying GU ; Ningshao XIA ; Shaowei LI
Chinese Journal of Biotechnology 2019;35(4):577-588
Baculovirus expression vector system (BEVS) has been successfully applied to the over-expression of various proteins, thus providing sufficient materials for vaccine research. Compared to other systems, BEVS has many advantages: baculovirus solely being parasitic in invertebrates, the resultant products conferring high safety to mammalian, high expression level of recombinant proteins, preferable folding for eukaryotic protein, proper post-translational modification required for biological function, suitable for multiple genes co-expression and large-scale production with serum-free culture media. To better understand the advantages and prospective of BEVS for the vaccine research, this article will review the development of BEVS and its application on vaccine research.
Animals
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Baculoviridae
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Genetic Vectors
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Prospective Studies
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Recombinant Proteins
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Vaccines
6.Expression and self-assembly of HIV-1 CAP2NC protein.
Shimeng BAI ; Zhiqing ZHANG ; Jiaming QIAO ; Honglin SHEN ; Fang HUANG ; Shuangquan GAO ; Shaoyong LI ; Shaowei LI ; Ningshao XIA ; Ying GU
Chinese Journal of Biotechnology 2018;34(4):586-593
We constructed the CAP2NC prokaryotic expression vector of HIV-1 NL4-3 strain and obtained relatively pure CAP2NC protein by optimizing its purification conditions to explore its in vitro self-assembly conditions. Primers were designed according to the CAP2NC DNA sequence of HIV-1 NL4-3 strain. The target gene was amplified by PCR and cloned into prokaryotic expression vector pTO-T7. Then the recombinant strain was transformed into Escherichia coli BL21 (DE3). IPTG induced protein expression, then the protein was purified by hydrophobic chromatography. SDS-PAGE and Western blotting were performed to analyze the target protein, and the biological activity of the antigen was identified through ELISA. The self-assembly of CAP2NC protein was analyzed by transmission electron microscopy and gel filtration chromatography. The protein had good reaction with the specific antibodies of p24 and formed different structures in various conditions. When 10% yeast RNA was added to the protein complex, the recombinant protein only formed into a tubular structure, which was similar to the self-assembled structure of the HIV-1 virus capsid. The results showed that the HIV-1 CAP2NC protein had in vitro self-assembly activity, and the RNA affected the structure of CAP2NC protein assembly. The protein can be used as a simple and effective molecular model to study its structure, and then it can provide a reference for the study of HIV immature virus particles.
7.Progress of bispecific antibody in cancer treatment
Yaokai HU ; Ningshao XIA ; Wenxin LUO
Cancer Research and Clinic 2018;30(6):419-422
Bispecific antibodies can target two different targets simultaneously with a wide application prospect and rapid development in tumor treatment. The main function is to recruit effector cells selectively in order to kill tumor cells or bind tumor-associated growth factor receptor to inhibit cell proliferation. This paper reviews the current situation of bispecific antibodies in design, mechanism of action and the research progress in the clinical cancer treatment.
8. Establishment and evaluation of a triple-color human papillomavirus pseudovirion neutralization assay
Shuangping WEI ; Fei FAN ; Jie CHEN ; Xinlin LIU ; Yurou YANG ; Zhiping WANG ; Shuo SONG ; Zhihai LI ; Minxi WEI ; Daning WANG ; Shaowei LI ; Ningshao XIA
Chinese Journal of Preventive Medicine 2018;52(10):1039-1044
Objective:
To establish a triple-color pseudovirion-based neutralization assay (PBNA) and evaluate its capability of detecting immunogenicity of the sera generated by the immunization of HPV 9-valent vaccine.
Methods:
HPV pseudovirus (PsVs) 6/11/16/18/31/33/45/52/58 with the encapsidated fluorescence expressing red fluorescent plasmid N31-MCHREEY, green fluorescent N31-EGFP or blue fluorescent N31-mTagBFP were generated. The concentration of HPV PsVs and the infection titers of HPV PsVs were detected by double-antibody sandwich ELISA and TCID50, respectively. The single- and triple color HPV 16/33/45 PsVs were used to detect the neutralization titers of mice sera immunized with HPV 9-valent vaccine and confirmed the accuracy and specificity of the triple-color PBNAs. Then, the single- and triple color HPV 6/11/18/31/33/45/52/58 PsVs were employed to detect the neutralization titers of cynomolgus macaques sera immunized with HPV 9-valent vaccine and determined whether the triple-color PBNAs could be applied to evaluate the immunogenicity of the sera generated by the immunization of HPV9-valent vaccine.
Results:
The concentration of HPV16 PsVs encapsulating green, red or blue fluorescent plasmid was 5.0 to 6.0 μg/ml and HPV6/11/18/31/33/45/52/59 triple-color HPV PsVs was about 1.0 to 3.0 μg/ml. 9 types HPV PsVs containing EGFP, Mcherry or mTagBFP reporter plasmid were obtained and the concentration can meet the need of neutralization detection. 9 types single-color fluorescent HPV PsVs had similar infectivity against 293FT cells with the infection titer values between 1×104 and 1×105. The results of PBNAs showed that there was no significant difference in the anti-HPV neutralization titers of mice sera induced by HPV 9-valent vaccine between single-color and triple-color HPV16/33/45 PsVs (
9.Preparation and identification of antibodies against respiratory syncytial virus nucleoprotein
Xue LIN ; Wei ZHANG ; Min ZHAO ; Zizheng ZHENG ; Ningshao XIA
Chinese Journal of Microbiology and Immunology 2018;38(3):161-168
Objective To prepare and identify the monoclonal antibodies against respiratory syn-cytial virus nucleoprotein(RSV N protein). Methods A prokaryotic expression system was used to express recombinant RSV N protein in Escherichia coli (E.coli). BALB/c mice were immunized with the recombi-nant N protein after purification. Monoclonal antibodies (McAbs) against the N protein were sorted from these BALB/c mice and then were further characterized by Western blot, ELISA and immunofluorescence. Furthermore,this study used orthogonal experiment to identify McAbs pairs,which could be used for diagno-sis. Results This study succeeded in obtaining 24 hybridoma cells that stably secreted monoclonal antibod-ies against RSV N protein. These antibodies showed good reactivity in ELISA,of which eight had strong spe-cificity in Western blot and 13 could be used in immunofluorescence. This study obtained two McAbs pairs (12F2/11H8-HRP and 12F2/15A8-HRP) that could be used in RSV detection. Conclusion This study succeeded in screening and preparation of McAbs against RSV N protein and obtaining two potential McAbs pairs for rapid detection of RSV.
10.Molecular and functional analysis of monoclonal antibodies in support of biologics development.
Xin WANG ; Zhiqiang AN ; Wenxin LUO ; Ningshao XIA ; Qinjian ZHAO
Protein & Cell 2018;9(1):74-85
Monoclonal antibody (mAb)-based therapeutics are playing an increasingly important role in the treatment or prevention of many important diseases such as cancers, autoimmune disorders, and infectious diseases. Multi-domain mAbs are far more complex than small molecule drugs with intrinsic heterogeneities. The critical quality attributes of a given mAb, including structure, post-translational modifications, and functions at biomolecular and cellular levels, need to be defined and profiled in details during the developmental phases of a biologics. These critical quality attributes, outlined in this review, serve an important database for defining the drug properties during commercial production phase as well as post licensure life cycle management. Specially, the molecular characterization, functional assessment, and effector function analysis of mAbs, are reviewed with respect to the critical parameters and the methods used for obtaining them. The three groups of analytical methods are three essential and integral facets making up the whole analytical package for a mAb-based drug. Such a package is critically important for the licensure and the post-licensure life cycle management of a therapeutic or prophylactic biologics. In addition, the basic principles on the evaluation of biosimilar mAbs were discussed briefly based on the recommendations by the World Health Organization.
Animals
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Antibodies, Monoclonal
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chemistry
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therapeutic use
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Biological Products
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therapeutic use
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Glycosylation
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Humans
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Kinetics
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Ligands

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