Your search keyword '"E2 protein"' showing total 295 results

1. Design and assessment of two broad-spectrum multi-epitope vaccine candidates against bovine viral diarrhea virus based on the E0 or E2 envelope glycoprotein

Author

Wei, Min, Liang, Shaobo, Wang, Yuting, Hu, Jingjin, and Pang, Feng

Published

2025

2. Targeting Human Papillomavirus 33 E2 DNA Binding Domain With Polyphenols: Unveiling Interactions Through Biophysical and In Silico Methods.

Author

Bharti and Nair, Maya S.

Subjects

*HUMAN papillomavirus, *LIFE cycles (Biology), *VIRAL proteins, *DIFFERENTIAL scanning calorimetry, *FLUORESCENCE quenching

Abstract

ABSTRACT The human papillomavirus (HPV) 33 is a high‐risk strain that causes lesions with potential cancerous outcomes. Its E2 protein regulates the viral protein transcription and life cycle maintenance. The DNA binding domain (DBD) of the E2 protein plays a crucial role in the viral life cycle. The DBD region of the E2 protein is particularly interesting for targeting and finding potential inhibitors to inhibit its function or dimerization. Given the limited research on HPV 33 and its proteins, the present work delved into the interaction of two natural polyphenolic compounds, resveratrol, and baicalein, with the E2 DBD of HPV 33 using biophysical and in silico studies. Fluorescence studies of the E2 DBD‐polyphenol complexes showed fluorescence quenching with a binding constant of the order of 106 M−1. Circular dichroism data reveal conformational changes upon binding with the polyphenols, possibly due to distinct binding sites of the E2 DBD. Differential scanning calorimetry exhibited higher melting temperatures for the two complexes than alone DBD, suggesting the complexes' stability. ITC experiment suggested favorable binding reactions with kd values in the micromolar range. Molecular docking and dynamic simulation studies revealed that the resveratrol binds to the helical region and baicalein near the central dimeric interface of E2 DBD with a good binding affinity, forming a stable protein‐ligand complex during the run of 100 ns simulation. Therefore, the current study identifies both polyphenolic compounds as promising candidates for potential antiviral drug development. [ABSTRACT FROM AUTHOR]

Published

2024

3. Network of Interactions between the Mut Domains of the E2 Protein of Atypical Porcine Pestivirus and Host Proteins.

Author

Yang, Yuai, Jiang, Guangfei, He, Weiqi, Tian, Xin, Zheng, Huanli, Xiang, Bin, and Sun, Yongke

Subjects

*PROTEIN domains, *ANIMAL herds, *PROTEIN-protein interactions, *ENERGY metabolism, *AMINO acids

Abstract

Atypical porcine pestivirus (APPV) can cause congenital tremor type A-II in neonatal piglets, posing a significant threat to swine herd health globally. Our previous study demonstrated that the Mut domains, comprising 112 amino acids at the N-terminus, are the primary functional regions of the E2 protein of APPV. This study identified 14 host cellular proteins that exhibit potential interactions with the Mut domains of the E2 protein using yeast two-hybrid screening. Using bioinformatics analysis, we discovered that the Mut domains of the E2 protein might exert regulatory effects on apoptosis by modulating energy metabolism within the mitochondria. We also conducted co-immunoprecipitation, glutathione S-transferase pull-down, and immunofluorescence assays to confirm the interaction between the Mut domains of the E2 protein and cathepsin H and signal sequence receptor subunit 4 (SSR4). Ultimately, SSR4 enhanced APPV replication in vitro. In summary, our study successfully elucidated the interactions between the Mut domains of the E2 protein and host cell protein, predicted the potential pathways implicated in these interactions, and demonstrated SSR4 involvement in APPV infection. These significant findings contribute valuable knowledge toward a deeper understanding of APPV pathogenesis and the role of the Mut domains of the E2 protein in this intricate process. [ABSTRACT FROM AUTHOR]

Published

2024

4. Development of a Ferritin-Based Nanoparticle Vaccine against Classical Swine Fever.

Author

Song, Yiwan, Yuan, Zhongmao, Ji, Junzhi, Ruan, Yang, Li, Xiaowen, Wang, Lianxiang, Zeng, Weijun, Wu, Keke, Hu, Wenshuo, Yi, Lin, Ding, Hongxing, Zhao, Mingqiu, Fan, Shuangqi, Li, Zhaoyao, and Chen, Jinding

Subjects

CLASSICAL swine fever virus, CLASSICAL swine fever, VACCINE effectiveness, SWINE industry, B cells

Abstract

The occurrence of classical swine fever (CSF) poses a significant threat to the global swine industry. Developing an effective and safe vaccine is crucial for preventing and controlling CSF. Here, we constructed self-assembled ferritin nanoparticles fused with the classical swine fever virus (CSFV) E2 protein and a derived B cell epitope (Fe-E2B) using a baculovirus expression system (BVES), demonstrating enhanced immunogenicity. Furthermore, we provide a detailed evaluation of the immunological efficacy of the FeE2B in rabbits. The results showed that robust and sustained antibody responses were detected in rabbits immunized with the Fe-E2B nanoparticle vaccine, comparable to those elicited by commercially available vaccines. Additionally, we demonstrated that the vaccine effectively activated crucial immune factors IFN-γ and IL-4 in vivo, increasing their levels by 1.41-fold and 1.39-fold, respectively. Immunization with Fe-E2B enabled rabbits to avoid viremia and stereotypic fever after CSFV challenge. In conclusion, this study highlights the potential of ferritin nanoparticles as antigen-presenting carriers to induce robust immune responses, proposing a candidate vaccine strategy for the prevention and control of CSF. [ABSTRACT FROM AUTHOR]

Published

2024

5. Assessment of heat-killed E. coli expressing Chikungunya virus E2 protein as a candidate vaccine for dual protection against Chikungunya virus and E. coli

Author

Surajit Patra, Virendra Gajbhiye, and Yogesh A. Karpe

Subjects

CHIKV, E2 protein, E. coli, heat-killed, vaccine, Immunologic diseases. Allergy, RC581-607

Abstract

The Chikungunya virus (CHIKV) is a mosquito-borne virus with a long history of recurring epidemics transmitted through Aedes mosquitoes. The rapid spread of CHIKV has intensified the need for potent vaccines. Escherichia coli (E.coli), a vital part of human gut microbiota, is utilized in recombinant DNA technology for cloning. However, its high adaptability can lead to severe infections in humans. This study aimed to develop the candidate dual vaccine against CHIKV and E. coli. For this, we expressed the CHIKV E2 protein in the E. coli Rosetta Bl21 cells and the protein expression was confirmed by western blotting. The IgG immune response of the candidate vaccine was determined against CHIKV and E. coli by ELISA. Further, the potential of antibodies to neutralize CHIKV was evaluated via Tissue Culture Infectious Dose 50 (TCID50). We observed that cells expressing E2 protein with alum immunized mice serum showed a five-fold higher IgG immune response against CHIKV, compared to control cells. The CHIKV neutralization assay results showed a two-fold decrease in CHIKV TCID50 value after 12 hours and a three-fold reduction after 120 hours. Similarly, the vaccine formulation also elicited a significantly higher IgG immune response against E. coli. The results suggested that expressing CHIKV E2 protein in E. coli is a potential approach for generating an IgG immune response against CHIKV and E. coli both. This study proposes a faster, safer, and cost-effective recombinant protein-based vaccine development.

Published

2025

6. Genetic analyses of the structural protein E2 bovine viral diarrhea virus isolated from dairy cattle in Yogyakarta, Indonesia

Author

S. U. Khan, Hastari Wuryastuty, M. H. Wibowo, Sarmin Sarmin, and S. H. Irianingsih

Subjects

bovine viral diarrhea virus, cysteine mutation, e2 protein, serine, v11 bovine viral diarrhea virus1, v16 bovine viral diarrhea virus1, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Background and Aim: Bovine viral diarrhea (BVD), a highly pathogenic ribonucleic acid (RNA) virus, causes devastating financial losses and reproductive deaths among dairy cattle in Yogyakarta and globally. This study aimed to identify point mutations within the E2 structural protein of the acquired BVD virus (BVDV) isolates using genetic analysis. Materials and Methods: The study period shows that we performed the research in 2023. We collected 118 serum samples from 2019 to 2023, among which only 10 BVDV positive were used and 108 were negative lacking the BVDV antigen. An anti-Erns monoclonal antibody-coated protein was used in indirect antigen capture enzyme-linked immunosorbent assay (I-ACE) to detect the BVD antigen present in positive BVDV serum specimens. In the initial step of the two-step reverse transcription polymerase chain reaction, the enzyme (superscript III reverse transcriptase) and the primer (random hexamer) were used to convert the RNA of the BVDV into complementary deoxyribonucleic acid (cDNA) during the process of reverse transcription. The final step involved the amplification of the E2 gene of the resultant BVDV cDNA through gene-specific primers (E2_fwd: 5′-TGGTGGCCTTATGAGAC-3′ and P7_rev: 5′-CCCATCATCACTATTTCACC-3′) and enzyme (platinum taq DNA polymerase high fidelity). For conducting Sanger sequencing, those 3 BVDV-1-positive isolates (about 2.6% of all isolates) were selected as a typical specimen for each site and year between 2019 and 2023 using a proportional computation. Therefore, only two BVDV isolates with complete genomes were chosen to perform their homological and genetic analysis based on the E2 gene by means of Blast and MEGA Version 11 in addition to the Bioedit 7.2.5 program. Results: By applying phylogenetic analysis relying on the E2 gene, a sum of 1011 nucleotides of the BVDV-1 isolates derived from each of the two BVDV-1 Indonesian isolates (n = 2) and its 23 reference BVDV strains were acquired from the National Center for Biotechnology Information (NCBI) database. The findings of the genetic analysis inside the phylogenetic tree revealed that the two BVDV Indonesian isolates were clustered into BVDV-1a subgenotype, while the reference BVDV strains were clustered into the five BVDV subgenotype, BVDV-1a (n = 6), BVDV-1b (n = 3), BVDV-1c (n = 11), BVDV-1m (n = 1), and BVDV-1n (n = 2). The branch exists in phylogenetic tree located before the division of our two BVDV isolates was divided into two branches with the same maximum bootstrap values of 99%, indicating a high degree of confidence, was seen. Next, we observed the branch near our study samples, which displayed the bootstrap value of 100, indicating that our 02 isolates were identical. In both isolates, V11 BVDV1/Indonesia/Yogyakarta/2023 and V16 BVDV1/Indonesia/ Yogyakarta/2023 with GenBank accession numbers PP836388 and PP836389, respectively, conserved D7E residues were mutated as well as cysteine changed/altered into serine (S) was identified at amino acid position 201. Conclusion: We identified two isolates of BVDV belonging to the BVDV-1a subgenotype. Our findings indicate that the conserved D7E residues of isolates V11 BVDV1/Indonesia/Yogyakarta/2023 and V16 BVDV1/Indonesia/Yogyakarta/2023 were altered. The Indonesian BVDV isolates exhibited a cysteine to serine mutation at amino acid position 201, leads to vaccination failure, range of animal’s host will increase, and diagnostic kit will not be effective.

Published

2024

7. Genetic analyses of the structural protein E2 bovine viral diarrhea virus isolated from dairy cattle in Yogyakarta, Indonesia.

Author

Khan, S. U., Hastari Wuryastuty, Wibowo, M. H., Sarmin Sarmin, and Irianingsih, S. H.

Subjects

*BOVINE viral diarrhea, *BOVINE viral diarrhea virus, *REVERSE transcriptase polymerase chain reaction, *DNA, *RNA, *REVERSE transcriptase

Abstract

Background and Aim: Bovine viral diarrhea (BVD), a highly pathogenic ribonucleic acid (RNA) virus, causes devastating financial losses and reproductive deaths among dairy cattle in Yogyakarta and globally. This study aimed to identify point mutations within the E2 structural protein of the acquired BVD virus (BVDV) isolates using genetic analysis. Materials and Methods: The study period shows that we performed the research in 2023. We collected 118 serum samples from 2019 to 2023, among which only 10 BVDV positive were used and 108 were negative lacking the BVDV antigen. An anti-Erns monoclonal antibody-coated protein was used in indirect antigen capture enzyme-linked immunosorbent assay (I-ACE) to detect the BVD antigen present in positive BVDV serum specimens. In the initial step of the two-step reverse transcription polymerase chain reaction, the enzyme (superscript III reverse transcriptase) and the primer (random hexamer) were used to convert the RNA of the BVDV into complementary deoxyribonucleic acid (cDNA) during the process of reverse transcription. The final step involved the amplification of the E2 gene of the resultant BVDV cDNA through gene-specific primers (E2_fwd: 5'-TGGTGGCCTTATGAGAC-3' and P7_rev: 5'-CCCATCATCACTATTTCACC-3') and enzyme (platinum taq DNA polymerase high fidelity). For conducting Sanger sequencing, those 3 BVDV-1-positive isolates (about 2.6% of all isolates) were selected as a typical specimen for each site and year between 2019 and 2023 using a proportional computation. Therefore, only two BVDV isolates with complete genomes were chosen to perform their homological and genetic analysis based on the E2 gene by means of Blast and MEGA Version 11 in addition to the Bioedit 7.2.5 program. Results: By applying phylogenetic analysis relying on the E2 gene, a sum of 1011 nucleotides of the BVDV-1 isolates derived from each of the two BVDV-1 Indonesian isolates (n = 2) and its 23 reference BVDV strains were acquired from the National Center for Biotechnology Information (NCBI) database. The findings of the genetic analysis inside the phylogenetic tree revealed that the two BVDV Indonesian isolates were clustered into BVDV-1a subgenotype, while the reference BVDV strains were clustered into the five BVDV subgenotype, BVDV-1a (n = 6), BVDV-1b (n = 3), BVDV-1c (n = 11), BVDV-1m (n = 1), and BVDV-1n (n = 2). The branch exists in phylogenetic tree located before the division of our two BVDV isolates was divided into two branches with the same maximum bootstrap values of 99%, indicating a high degree of confidence, was seen. Next, we observed the branch near our study samples, which displayed the bootstrap value of 100, indicating that our 02 isolates were identical. In both isolates, V11 BVDV1/Indonesia/Yogyakarta/2023 and V16 BVDV1/Indonesia/ Yogyakarta/2023 with GenBank accession numbers PP836388 and PP836389, respectively, conserved D7E residues were mutated as well as cysteine changed/altered into serine (S) was identified at amino acid position 201. Conclusion: We identified two isolates of BVDV belonging to the BVDV-1a subgenotype. Our findings indicate that the conserved D7E residues of isolates V11 BVDV1/Indonesia/Yogyakarta/2023 and V16 BVDV1/Indonesia/Yogyakarta/2023 were altered. The Indonesian BVDV isolates exhibited a cysteine to serine mutation at amino acid position 201, leads to vaccination failure, range of animal's host will increase, and diagnostic kit will not be effective. [ABSTRACT FROM AUTHOR]

Published

2024

8. Ferritin Nanoparticle Delivery of the E2 Protein of Classical Swine Fever Virus Completely Protects Pigs from Lethal Challenge.

Author

Zhong, Dailang, Lu, Zhanhao, Xia, Yu, Wu, Hongxia, Zhang, Xinyu, Li, Mingzhi, Song, Xin, Wang, Yanjin, Moon, Assad, Qiu, Hua-Ji, Li, Yongfeng, and Sun, Yuan

Subjects

CLASSICAL swine fever virus, CLASSICAL swine fever, NANOPARTICLES, FERRITIN, CHO cell

Abstract

Classical swine fever (CSF), caused by the classical swine fever virus (CSFV), results in significant economic losses to the swine industry in many countries. Vaccination represents the primary strategy to control CSF and the CSFV E2 protein is known as the major protective antigen. However, the E2 protein expressed or presented by different systems elicits distinct immune responses. In this study, we established a stable CHO cell line to express the E2 protein and delivered it using self-assembled ferritin nanoparticles (NPs). Subsequently, we compared the adaptive immune responses induced by the E2-ferritin NPs and the monomeric E2 protein produced by the CHO cells or a baculovirus expression system. The results revealed that the NP-delivered E2 protein elicited higher titers of neutralizing antibodies than did the monomeric E2 protein in pigs. Importantly, only the NP-delivered E2 protein significantly induced CSFV-specific IFN-γ-secreting cells. Furthermore, all the pigs inoculated with the E2-ferritin NPs were completely protected from a lethal CSFV challenge infection. These findings demonstrate the ability of the E2-ferritin NPs to protect pigs against the lethal CSFV challenge by eliciting robust humoral and cellular immune responses. [ABSTRACT FROM AUTHOR]

Published

2024

9. Development and application of an indirect ELISA for detection of antibodies against emerging atypical porcine pestivirus

Author

Hao Song, Xiaowei Gao, Jing Li, Xinying Dong, Yanhui Fu, Lina Shao, Jiaoer Zhang, Hua-Ji Qiu, and Yuzi Luo

Subjects

Atypical porcine pestivirus, E2 protein, Indirect ELISA, Seroprevalence, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Atypical porcine pestivirus (APPV) is a newly discovered swine pestivirus, which can cause congenital tremor and high mortality in newborn piglets and subclinical infection in adult pigs, leading to significant impacts on the pig industry. Currently, there is no approved serological method to assess APPV infection status in pig farms. Methods In this study, the envelope glycoprotein E2 of APPV was highly expressed in suspension HEK293 cells, and further an indirect enzyme-linked immunosorbent assay based on the recombinant E2 protein (E2-iELISA) was developed and evaluated. Results The reaction parameters of the E2-iELISA were optimized, and the cutoff value was determined to be 0.2 by analyzing S/P values of 165 negative sera against APPV that were confirmed by virus neutralization test (VNT). Specificity test showed that the method had no cross-reaction with other common swine viruses. The E2-iELISA was evaluated using a panel of swine sera, and showed high sensitivity (113/120, 94.2%) and specificity (65/70, 92.9%), and the agreement rate with VNT was 93.7% (178/190). Subsequently, the E2-iELISA was utilized to investigate the seroprevalence of APPV in pig herds of China. When detecting 1368 pig serum samples collected from nine provinces in China, the overall seroprevalence of APPV was 73.9% (1011/1368). Conclusion Our findings suggest that the E2-iELISA is specific and sensitive, and could be a valuable tool for serological surveillance of APPV infection in pigs.

Published

2024

10. Development and application of an indirect ELISA for detection of antibodies against emerging atypical porcine pestivirus

Author

Song, Hao, Gao, Xiaowei, Li, Jing, Dong, Xinying, Fu, Yanhui, Shao, Lina, Zhang, Jiaoer, Qiu, Hua-Ji, and Luo, Yuzi

Published

2024

11. Development of a Ferritin-Based Nanoparticle Vaccine against Classical Swine Fever

Author

Yiwan Song, Zhongmao Yuan, Junzhi Ji, Yang Ruan, Xiaowen Li, Lianxiang Wang, Weijun Zeng, Keke Wu, Wenshuo Hu, Lin Yi, Hongxing Ding, Mingqiu Zhao, Shuangqi Fan, Zhaoyao Li, and Jinding Chen

Subjects

ferritin nanoparticles, classical swine fever virus, E2 protein, B-cell antigenic epitope, immune responses, Medicine

Abstract

The occurrence of classical swine fever (CSF) poses a significant threat to the global swine industry. Developing an effective and safe vaccine is crucial for preventing and controlling CSF. Here, we constructed self-assembled ferritin nanoparticles fused with the classical swine fever virus (CSFV) E2 protein and a derived B cell epitope (Fe-E2B) using a baculovirus expression system (BVES), demonstrating enhanced immunogenicity. Furthermore, we provide a detailed evaluation of the immunological efficacy of the FeE2B in rabbits. The results showed that robust and sustained antibody responses were detected in rabbits immunized with the Fe-E2B nanoparticle vaccine, comparable to those elicited by commercially available vaccines. Additionally, we demonstrated that the vaccine effectively activated crucial immune factors IFN-γ and IL-4 in vivo, increasing their levels by 1.41-fold and 1.39-fold, respectively. Immunization with Fe-E2B enabled rabbits to avoid viremia and stereotypic fever after CSFV challenge. In conclusion, this study highlights the potential of ferritin nanoparticles as antigen-presenting carriers to induce robust immune responses, proposing a candidate vaccine strategy for the prevention and control of CSF.

Published

2024

12. Rice‐produced classical swine fever virus glycoprotein E2 with herringbone‐dimer design to enhance immune responses.

Author

Xu, Qianru, Ma, Fanshu, Yang, Daichang, Li, Qingmei, Yan, Liming, Ou, Jiquan, Zhang, Longxian, Liu, Yunchao, Zhan, Quan, Li, Rui, Wei, Qiang, Hu, Hui, Wang, Yanan, Li, Xueyang, Zhang, Shenli, Yang, Jifei, Chai, Shujun, Du, Yongkun, Wang, Li, and Zhang, Erqin

Subjects

*CLASSICAL swine fever virus, *SMALL-angle X-ray scattering, *IMMUNE response, *VIRAL vaccines, *LIVESTOCK losses

Abstract

Summary: Pestiviruses, including classical swine fever virus, remain a concern for global animal health and are responsible for major economic losses of livestock worldwide. Despite high levels of vaccination, currently available commercial vaccines are limited by safety concerns, moderate efficacy, and required high doses. The development of new vaccines is therefore essential. Vaccine efforts should focus on optimizing antigen presentation to enhance immune responses. Here, we describe a simple herringbone‐dimer strategy for efficient vaccine design, using the classical swine fever virus E2 expressed in a rice endosperm as an example. The expression of rE2 protein was identified, with the rE2 antigen accumulating to 480 mg/kg. Immunological assays in mice, rabbits, and pigs showed high antigenicity of rE2. Two immunizations with 284 ng of the rE2 vaccine or one shot with 5.12 μg provided effective protection in pigs without interference from pre‐existing antibodies. Crystal structure and small‐angle X‐ray scattering results confirmed the stable herringbone dimeric conformation, which had two fully exposed duplex receptor binding domains. Our results demonstrated that rice endosperm is a promising platform for precise vaccine design, and this strategy can be universally applied to other Flaviviridae virus vaccines. [ABSTRACT FROM AUTHOR]

Published

2023

13. Ferritin Nanoparticle Delivery of the E2 Protein of Classical Swine Fever Virus Completely Protects Pigs from Lethal Challenge

Author

Dailang Zhong, Zhanhao Lu, Yu Xia, Hongxia Wu, Xinyu Zhang, Mingzhi Li, Xin Song, Yanjin Wang, Assad Moon, Hua-Ji Qiu, Yongfeng Li, and Yuan Sun

Subjects

classical swine fever virus, E2 protein, ferritin, self-assembled nanoparticles, cell-mediated immune responses, neutralizing antibodies, Medicine

Abstract

Classical swine fever (CSF), caused by the classical swine fever virus (CSFV), results in significant economic losses to the swine industry in many countries. Vaccination represents the primary strategy to control CSF and the CSFV E2 protein is known as the major protective antigen. However, the E2 protein expressed or presented by different systems elicits distinct immune responses. In this study, we established a stable CHO cell line to express the E2 protein and delivered it using self-assembled ferritin nanoparticles (NPs). Subsequently, we compared the adaptive immune responses induced by the E2-ferritin NPs and the monomeric E2 protein produced by the CHO cells or a baculovirus expression system. The results revealed that the NP-delivered E2 protein elicited higher titers of neutralizing antibodies than did the monomeric E2 protein in pigs. Importantly, only the NP-delivered E2 protein significantly induced CSFV-specific IFN-γ-secreting cells. Furthermore, all the pigs inoculated with the E2-ferritin NPs were completely protected from a lethal CSFV challenge infection. These findings demonstrate the ability of the E2-ferritin NPs to protect pigs against the lethal CSFV challenge by eliciting robust humoral and cellular immune responses.

Published

2024

14. IgM-specific linear epitopes on the E2 protein for serodiagnosis of Chikungunya

Author

Qianlin Li, Jun Dai, Yongxia Shi, Qiang Deng, Conghui Liao, Jicheng Huang, and Jiahai Lu

Subjects

Chikungunya, Serodiagnosis, E2 protein, Peptide microarray chips, IgM antibody, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

Chikungunya virus (CHIKV) and Dengue virus (DENV) are vector-borne diseases transmitted by Aedes aegypti and Aedes albopictus that pose a significant threat to global public health. Cases of acute Chikungunya fever often present similar clinical symptoms to other vector-borne diseases, such as Dengue fever. In regions where multiple vector-borne diseases coexist, CHIKV is often overlooked or misdiagnosed as Dengue virus, West Nile virus, Zika virus or other viral infections, which delays its prevention and control. However, IgM antibodies directed against the E2 protein of CHIKV have not yet been generalized to clinical settings due to the low sensitivity and high cost in commercial kits. Indirect ELISA with peptides provides an effective supplementary tool for detecting CHIKV IgM antibodies. Our study aims at examining the potential of linear epitopes on the E2 glycoprotein that specifically bind to IgM antibodies as serodiagnostic tool for CHIKV. The sensitivity of the established peptide indirect ELISA method for detecting clinical samples is significantly better than that of commercial kits, realizing a beneficial supplement to the existing IgM antibody assay. It also established the groundwork for comprehending the biological mechanisms of the CHIKV E2 protein and the advancement of innovative epitope peptide vaccines.

Published

2024

15. 家兔 ANXA1 蛋白与猪瘟病毒 E2 蛋白相互作用并影响 其复制的研究.

Author

赵小天, 谢利豹, 张柯慧, 马吉飞, 李永锋, and 仇华吉

Abstract

Copyright of Chinese Journal of Preventive Veterinary Medicine / Zhongguo Yufang Shouyi Xuebao is the property of Chinese Journal of Preventive Veterinary Medicine Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

16. Protein–DNA Interactions Regulate Human Papillomavirus DNA Replication, Transcription, and Oncogenesis.

Author

Evande, Roxanne, Rana, Anshul, Biswas-Fiss, Esther E., and Biswas, Subhasis B.

Subjects

*HUMAN papillomavirus, *DNA-protein interactions, *CIRCULAR DNA, *SOCIAL interaction, *GENITAL warts, *DNA replication, *SINGLE-stranded DNA

Abstract

Human papillomavirus (HPV) is a group of alpha papillomaviruses that cause various illnesses, including cancer. There are more than 160 types of HPV, with many being "high-risk" types that have been clinically linked to cervical and other types of cancer. "Low-risk" types of HPV cause less severe conditions, such as genital warts. Over the past few decades, numerous studies have shed light on how HPV induces carcinogenesis. The HPV genome is a circular double-stranded DNA molecule that is approximately 8 kilobases in size. Replication of this genome is strictly regulated and requires two virus-encoded proteins, E1 and E2. E1 is a DNA helicase that is necessary for replisome assembly and replication of the HPV genome. On the other hand, E2 is responsible for initiating DNA replication and regulating the transcription of HPV-encoded genes, most importantly the E6 and E7 oncogenes. This article explores the genetic characteristics of high-risk HPV types, the roles of HPV-encoded proteins in HPV DNA replication, the regulation of transcription of E6 and E7 oncogenes, and the development of oncogenesis. [ABSTRACT FROM AUTHOR]

Published

2023

17. Development and application of an indirect ELISA for the serological detection of bovine viral diarrhea virus infection based on the protein E2 antigen.

Author

Wang, Jing, Yin, Jin-hua, Wang, Sheng-Hua, Ding, Cheng-Zhi, and Wang, Jiu-Feng

Abstract

Background: Bovine viral diarrhea virus (BVDV) causes continuous economic losses to the livestock industry. Monitoring antibodies with enzyme-linked immunosorbent assay (ELISA) is a valuable tool to ensure the purification of BVDV in cattle. However, currently available ELISA kits based on the whole BVDV virion are both costly and time-consuming. The E2 protein has good immunogenicity, induces the secretion of neutralizing antibodies and is an essential immunogen for serological detection. Methods and results: We developed a novel recombinant E2 protein-based indirect ELISA (rE2-iELISA) and conducted a serological survey for BVDV antibodies in 2021–2022 in Beijing, China. The results showed that E2 protein was successfully expressed with high immunogenicity and the optimal rE2-iELISA displayed high sensitivity, reproducibility and specificity. Clinical testing of 566 serum specimens indicated that 318 BVDV positive samples and 194 BVDV negative samples were tested by rE2-iELISA and the IDEXX BVDV ELISA-Ab kit, with a positive coincidence rate of 93.3%, a negative coincidence rate of 86.3%, and an overall coincidence rate of 90.5%. Conclusion: This study established an rE2-iELISA method, which is a highly sensitive, specific and robust ELISA-test validated to detect anti-BVDV antibodies. These findings indicate that the newly developed rE2-iELISA method has the potential to be used as a rapid, reliable and cost-effective screening tool for BVDV infection and provides technical support for the evaluation of vaccine efficacy in cattle herds in the future. [ABSTRACT FROM AUTHOR]

Published

2023

18. Generation and epitope mapping of novel neutralizing monoclonal antibodies against glycoprotein E2 of CSFV.

Author

Mi, Shijiang, Bao, Fei, Liu, Zhongdi, Zhang, Yixiao, Li, Hongwei, Wu, Meng, Tu, Changchun, and Gong, Wenjie

Subjects

*CLASSICAL swine fever virus, *VIRAL proteins, *EUKARYOTIC cells, *PROTEIN structure, *CELL culture, *CLASSICAL swine fever, *MONOCLONAL antibodies

Abstract

Classical swine fever virus (CSFV) is a highly contagious and economically important pathogen threatening pig industry worldwide, the envelope glycoprotein E2 of CSFV is the dominant antigen inducing strong antiviral neutralizing immunity. In this study, 7 monoclonal antibodies (mAbs) with neutralizing potency were generated using E2 protein of CSFV Shimen strain (SM) expressed by eukaryotic cells. Their reactivity with 116 CSFV strains in cell cultures and E2 proteins of 10 subgenotypes in western blots showed different CSFV spectrums they recognized. Of them, three (HCL-001, HCL-005 and HCL-010) reacted with all CSFV subgenotypes, while HCL-014 and HCL-002 reacted with most CSFV strains, except for some variants in genotype 2.3. In contrast, mAb HCL-009 reacted only with a few subgenotype 1.1 strains including SM, field strains and some vaccine strains. Interestingly, mAb HCL-018 reacted only with SM and field subgenotype 1.1 strains, not with any vaccine strains. Further epitope mapping using chimeric and site-directed mutated E2 proteins showed that HCL-001, HCL-005 and HCL-010 recognized a conservative epitope motif 143SPT145,L147, and HCL-002 recognized a conformational epitope with key aa motifs of 95GDD97,157RX(D/E)K(R)XFXXR164. HCL-014 recognized a new conservative epitope with key aa motifs of 41D,58XNVVXRR64. HCL-009 and HCL-018 recognized the epitope with key aa motifs of 36D,40ND41,45KXI47 and 69LHXGXLLT76, respectively. Taken together, present study has provided not only new insights into the antigenic structure of E2 protein, but also key reagents for antigenic characterization of CSFV strains and development of antibody assay for evaluation of the vaccination efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

19. A recombinant pseudorabies virus surface - displaying the classical swine fever E2 protein induces specific antibodies rapidly.

Author

Zhang, Xinyu, Wu, Hongxia, Gao, Tianqi, Li, Yongfeng, Zhong, Dailang, Li, Mingzhi, Li, Shuwen, Ma, Caoyuan, Moon, Assad, Fu, Qiang, Qiu, Hua-Ji, and Sun, Yuan

Subjects

*CLASSICAL swine fever virus, *GENETIC vectors, *TRANSMEMBRANE domains, *AUJESZKY'S disease virus, *VIRAL proteins, *CLASSICAL swine fever

Abstract

Pseudorabies virus (PRV) and classical swine fever virus (CSFV) are both economically important pathogens threatening the pig industry in many countries. The triple-gene-deleted variant of PRV, herein referred to as rPRVTJ-delgE/gI/TK, has exhibited pronounced efficacy and safety profiles. This underscores its viability as a prospective vaccine vector. However, the generation of specific anti-E2 antibodies necessitates elevated immunization doses and extended durations when the extracellular domain of the E2 protein of CSFV is secreted via the recombinant rPRVTJ-delgE/gI/TK vector. To enhance the presentation of exogenous antigens by antigen-presenting cells (APCs), we engineered the E2 protein expressed on the surface of PRV particles in this study. The recombinant virus expressing the E2 protein with a heterogonous transmembrane domain was generated in the backbone of rPRVTJ-delgE/gI/TK and designated as rPRVTJ-UL44-E2. The E2 gene was fused to the 3′ terminus of the UL44 gene utilizing P2A, a self-cleaving peptide sequence. The electron microscopy showed that the E2 protein was anchored on the surface of the viral particles of rPRVTJ-delgE/gI/TK-E2. The insertion of the E2 gene did not alter the native biological characteristics of the viral vector. Rabbits immunized with 107 median tissue culture infective doses (TCID 50) of rPRVTJ-UL44-E2 exhibited a rapid seroconversion to anti-E2 specific antibodies within 7 days post-immunization (dpi). All the rabbits immunized with the rPRVTJ-UL44-E2 had generated antibodies specific to E2 prior to the administration of the booster immunization. However, the immunized rabbits were not protected from the CSFV C-strain challenge. Nevertheless, this strategy has notably achieved rapid induction of E2-specific non-neutralizing antibodies. These findings provide insights that the design of rPRVTJ-UL44-E2 requires optimization, thereby indicating a promising avenue for augmenting vaccine-induced immune responses. • 1,rPRVTJ-UL44-E2 enhances the antigenicity of E2 by displaying the E2 protein on its surface. 2.rPRVTJ-UL44-E2 preserves viral vector's biocharacteristics. • rPRVTJ-UL44-E2 can quickly induce the body to produce specific antibodies. [ABSTRACT FROM AUTHOR]

Published

2024

20. Targeting Human Papillomavirus 33 E2 DNA Binding Domain With Polyphenols: Unveiling Interactions Through Biophysical and In Silico Methods.

Author

Bharti and Nair MS

Subjects

Humans, Binding Sites, Molecular Dynamics Simulation, Flavanones chemistry, Flavanones metabolism, Flavanones pharmacology, DNA-Binding Proteins chemistry, DNA-Binding Proteins metabolism, Circular Dichroism, Thermodynamics, Protein Domains, Papillomaviridae, Oncogene Proteins, Viral chemistry, Oncogene Proteins, Viral metabolism, Human Papillomavirus Viruses, Alphapapillomavirus, Molecular Docking Simulation, Polyphenols chemistry, Polyphenols metabolism, Polyphenols pharmacology, Resveratrol chemistry, Resveratrol pharmacology, Resveratrol metabolism, Protein Binding

Abstract

The human papillomavirus (HPV) 33 is a high-risk strain that causes lesions with potential cancerous outcomes. Its E2 protein regulates the viral protein transcription and life cycle maintenance. The DNA binding domain (DBD) of the E2 protein plays a crucial role in the viral life cycle. The DBD region of the E2 protein is particularly interesting for targeting and finding potential inhibitors to inhibit its function or dimerization. Given the limited research on HPV 33 and its proteins, the present work delved into the interaction of two natural polyphenolic compounds, resveratrol, and baicalein, with the E2 DBD of HPV 33 using biophysical and in silico studies. Fluorescence studies of the E2 DBD-polyphenol complexes showed fluorescence quenching with a binding constant of the order of 10 6  M -1 . Circular dichroism data reveal conformational changes upon binding with the polyphenols, possibly due to distinct binding sites of the E2 DBD. Differential scanning calorimetry exhibited higher melting temperatures for the two complexes than alone DBD, suggesting the complexes' stability. ITC experiment suggested favorable binding reactions with k d values in the micromolar range. Molecular docking and dynamic simulation studies revealed that the resveratrol binds to the helical region and baicalein near the central dimeric interface of E2 DBD with a good binding affinity, forming a stable protein-ligand complex during the run of 100 ns simulation. Therefore, the current study identifies both polyphenolic compounds as promising candidates for potential antiviral drug development., (© 2024 John Wiley & Sons Ltd.)

Published

2025

21. Design and assessment of two broad-spectrum multi-epitope vaccine candidates against bovine viral diarrhea virus based on the E0 or E2 envelope glycoprotein.

Author

Wei M, Liang S, Wang Y, Hu J, and Pang F

Abstract

Bovine viral diarrhea virus (BVDV) is a significant pathogen that exerts substantial economic influence on the global cattle industry. Developing a safe and effective novel vaccine targeting various BVDV subtypes is critical for controlling BVDV infection. In the study, we created two distinct multi-epitope vaccines by linking highly conserved and dominant cytotoxic T-lymphocytes (CTL), helper T-lymphocytes (HTL), and B-cell epitopes from either the E0 or E2 envelope glycoprotein of diverse BVDV subtypes. To enhance immunogenicity, β-defensin-3 was fused to the N-terminus of these constructs as an adjuvant. Using multiple immunoinformatics tools, we conducted an analysis and assessment of the vaccine constructs' physicochemical properties and immunological features. Consequently, two prospective vaccine candidates named BVDV-M1 and BVDV-M2 were successfully designed and shown to be stable, antigenic, non-allergenic, and non-toxic. The optimized vaccine 3D models exhibit excellent structural quality. Molecular docking revealed a strong interaction between the vaccines with bovine TLR2 and TLR4. The stability of the docked vaccine-TLR complexes was confirmed through molecular dynamics simulation. Immune simulation analyses indicated that both vaccines have the potential to induce high levels of antibodies IgM, IgG and the cytokines IFN-γ and IL-2. Furthermore, the vaccine's efficient expression in the E.coli system was secured through codon optimization coupled with in silico cloning. Summarily, the designed multi-epitope vaccines have the potential to elicit robust humoral and cellular immune responses, positioning them as hopeful broad-spectrum vaccine candidates against the currently prevalent BVDV subtypes., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

22. Establishment and application of a solid-phase blocking ELISA method for detection of antibodies against classical swine fever virus.

Author

Yuying Cao, Li Yuan, Shunli Yang, Youjun Shang, Bin Yang, Zhizhong Jing, Huichen Guo, and Shuanghui Yin

Subjects

CLASSICAL swine fever, PORCINE reproductive & respiratory syndrome, CLASSICAL swine fever virus, IMMUNOGLOBULINS, ENZYME-linked immunosorbent assay

Abstract

Background: Classical swine fever (CSF) is a severe infectious disease of pigs that causes significant economic losses to the swine industry. Objectives: This study developed a solid-phase blocking enzyme-linked immunosorbent assay (spbELISA) method for the specific detection of antibodies against the CSF virus (CSFV) in porcine serum samples. Methods: A spbELISA method was developed based on the recombinant E2 expressed in Escherichia coli. The specificity of this established spbELISA method was evaluated using reference serum samples positive for antibodies against other common infectious diseases. The stability and sensitivity were evaluated using an accelerated thermostability test. Results: The spbELISA successfully detected the antibody levels in swine vaccinated with the C-strain of CSFV. In addition, the detection ability of spbELISA for CSFV antibodies was compared with that of other commercial ELISA kits and validated using an indirect immunofluorescence assay. The results suggested that the spbELISA provides an alternative, stable, and rapid serological detection method suitable for the large-scale screening of CSFV serum antibodies. Conclusions: The spbELISA has practical applications in assessing the vaccination status of large pig herds. [ABSTRACT FROM AUTHOR]

Published

2022

23. Development and application of a high‐sensitivity immunochromatographic test strip for detecting classical swine fever virus antibodies.

Author

Bai, Yilin, Jia, Rui, Wei, Qiang, Wang, Li, Sun, Yaning, Li, Yiwei, Luo, Jun, and Zhang, Gaiping

Subjects

*CLASSICAL swine fever virus, *CLASSICAL swine fever, *VIRAL antibodies, *MONOCLONAL antibodies

Abstract

Classical swine fever (CSF) is caused by classical swine fever virus (CSFV) and has led to huge economic losses in the pig industry worldwide. Although vaccination and other control measures have been carried out, it is essential to establish a rapid and valid method for CSF vaccination monitoring and clinical diagnosis. The CSFV E2 protein has been widely used as a major antigen for antibody detection. It is important to improve the affinity between the E2 protein and CSFV antibodies to improve the performance of the detection method. In this study, a recombinant E2 extracellular protein (amino acids 1–331) with a native homodimer conformation and high affinity for the anti‐CSFV‐E2 monoclonal antibody WH303 was expressed using a Bac‐to‐Bac baculovirus expression system. A novel immunochromatographic test strip based on the recombinant CSFV E2 protein was developed for CSFV antibody detection. The sensitivity of this strip for detecting CSFV standard‐positive serum was 1:102400, four times higher than that of the previously developed CnC2 test strip. No cross‐reactivity with antibodies of other swine viruses was observed. Detection of clinical swine serum samples (n = 813) demonstrated that the agreements of this E2 test strip with three commercial ELISA kits were 97.17% (790/813), 95.94% (780/813) and 93.73% (762/813), respectively. Our data indicate that a novel E2 test strip with enhanced sensitivity has been developed and can be applied for clinical sample detection, providing a new, powerful and simple approach for CSFV antibody monitoring. [ABSTRACT FROM AUTHOR]

Published

2022

24. Genotypic diversity of CSFV field strains: A silent risk reduces vaccination efficacy of CSFV vaccines in Vietnam.

Author

Nguyen, Ngoc Hai, Nguyen, Phuong Binh Thi, Nguyen, Trung Quan, Do, Duy Tien, Nguyen, My Duyen Thi, and Nguyen, Minh Nam

Subjects

*CLASSICAL swine fever virus, *VACCINE effectiveness, *CLASSICAL swine fever, *SWINE farms, *VACCINATION, *PORCINE reproductive & respiratory syndrome

Abstract

Classical swine fever (CSF) is a highly contagious, devastating, and transboundary viral disease that afflicts swine industries worldwide. Immunization with vaccines is one of the most effective strategies for controlling this disease. However, shifts in the antigenicity and pathogenicity of novel evolving viral strains have the potential to evade vaccination. In this study, 352 samples from swines exhibiting fever, hemorrhages, lethargy, and diarrhea in different pig farms located in 9 provinces of Vietnam were collected. CSFV was identified even within farms that had been vaccinated against CSFV. Several farms had swine which had been co-infection with CSFV and other pathogens. Copies of the E2 gene of 21 samples were isolated, cloned, sequenced, analyzed, and compared with copies of E2 in four vaccine strains. We identified a total of 42 amino acid substitutions in this glycoprotein, including 11 positions that affect the antigenic properties of E2 and 7 positions that are associated with neutralizing epitopes. The E2 glycoprotein of CSFV strains circulating in Vietnam and vaccine strains differ in their antigenicity. These findings provide deep insights into the molecular characteristics, genetic diversity, pathogenicity, antigenicity, and evolution of CSFV strains in Vietnam. Understanding the pathogenicity, antigenicity, and evolution of circulating CSFV strains will provide avenues for developing new vaccines and efficient approaches to control this disease. • Classical swine fever virus (CSFV) infection was highly prevalent in swine farms. • CSFV was identified even within farms that had been vaccinated against CSFV. • Coinfection of CSFV with other pathogens is common in swine farms. • The E2 glycoprotein of CSFV strains circulating and vaccine strains differ in their antigenicity. • Mutations in the E2 glycoprotein may provide a compelling explanation for the limitations of current vaccination efforts. [ABSTRACT FROM AUTHOR]

Published

2022

25. Immunogenicity evaluation of recombinant Lactobacillus casei W56 expressing bovine viral diarrhea virus E2 protein in conjunction with cholera toxin B subunit as an adjuvant

Author

Shuo Jia, Xinning Huang, Hua Li, Dianzhong Zheng, Li Wang, Xinyuan Qiao, Yanping Jiang, Wen Cui, Lijie Tang, Yijing Li, and Yigang Xu

Subjects

Bovine viral diarrhea virus (BVDV), E2 protein, Cholera toxin B subunit (ctxB), Recombinant lactobacillus vaccine, Immunogenicity, Microbiology, QR1-502

Abstract

Abstract Background Bovine viral diarrhea virus (BVDV) is one of the main causes of infectious diseases in cattle and causes large financial losses to the cattle industry worldwide. In this study, Lactobacillus casei strain W56 (Lc W56) was used as antigen deliver carrier to construct a recombinant Lactobacillus vaccine pPG-E2-ctxB/Lc W56 constitutively expressing BVDV E2 protein fused with cholera toxin B subunit (ctxB) as an adjuvant, and its immunogenicity against BVDV infection in mice model by oral route was explored. Results Our results suggested that pPG-E2-ctxB/Lc W56 can effectively activate dendritic cells (DCs) in the Peyer’s patches, up-regulate the expression of Bcl-6, and promote T-follicular helper (Tfh) cells differentiation, as well as enhance B lymphocyte proliferation and promote them differentiate into specific IgA-secreting plasma cells, secreting anti-E2 mucosal sIgA antibody with BVDV-neutralizing activity. Moreover, significant levels (p

Published

2020

26. A conserved epitope III on hepatitis C virus E2 protein has alternate conformations facilitating cell binding or virus neutralization.

Author

Lu Deng, Hernandez, Nancy, Lilin Zhong, Holcomb, David D., Hailing Yan, Virata, Maria Luisa, Tarafdar, Sreya, Yanqun Xu, Yong He, Struble, Evi, Alter, Harvey J., and Pei Zhang

Subjects

*HEPATITIS C virus, *VIRAL proteins, *MONOCLONAL antibodies, *COMMERCIAL products, *MOLECULAR docking

Abstract

Epitope III, a highly conserved amino acid motif of 524APTYSW529 on the hepatitis C virus (HCV) E2 glycoprotein, resides in the critical loop that binds to the host receptor CD81, thus making it one of the most important antibody targets for blocking HCV infections. Here, we have determined the X-ray crystal structure of epitope III at a 2.0-Å resolution when it was captured by a site-specific neutralizing antibody, monoclonal antibody 1H8 (mAb1H8). The snapshot of this complex revealed that epitope III has a relatively rigid structure when confined in the binding grooves of mAb1H8, which confers the residue specificity at both ends of the epitope. Such a high shape complementarity is reminiscent of the "lock and key" mode of action, which is reinforced by the incompatibility of an antibody binding with an epitope bearing specific mutations. By subtly positioning the side chains on the three residues of Tyr527, Ser528, and Trp529 while preserving the spatial rigidity of the rest, epitope III in this cocrystal complex adopts a unique conformation that is different from previously described E2 structures. With further analyses of molecular docking and phage display-based peptide interactions, we recognized that it is the arrangements of two separate sets of residues within epitope III that create these discrete conformations for the epitope to interact selectively with either mAb1H8 or CD81. These observations thus raise the possibility that local epitope III conformational dynamics, in conjunction with sequence variations, may act as a regulatory mechanism to coordinate "mAb1H8-like" antibody-mediated immune defenses with CD81-initiated HCV infections. [ABSTRACT FROM AUTHOR]

Published

2021

27. Host and viral factors that determine the clinical outcome of hepatitis C virus genotype 3a infection

Author

Humphreys, Isla Sheree and Barnes, Eleanor

Subjects

616.9, Biology (medical sciences), Immunology, Infectious diseases, hepatitis C virus, T-cell, E2 protein, genotype, treatment

Abstract

HCV infects 170 million persons worldwide and is a serious global health problem. Genotype-3a is the dominant genotype in newly diagnosed infections within the UK and has a high response rate to interferon therapy, with up to 70% patients achieving a sustained virological response (SVR). The reason(s) for this are unknown; therefore the aim was to assess host and viral factors that determine treatment outcome of subtype-3a infection. Full-length subtype-3a viral sequence analysis identified 2 novel regions of hypervariability within E2 - HVR495 and HVR575, that are subject to positive selection pressure. A 5 amino-acid insertion found only in subtype-3a and a putative glycosylation site were contained within HVR575. These data suggest that HVR495 and HVR575 may serve as major antigenic sites in subtype-3a HCV infection. Successful treatment of chronic subtype-3a infection was not associated with pre-treatment quasispecies diversity and complexity, PePHD, HVR495 or HVR575 sequence. Different patterns of quasispecies variation were observed in patients that failed treatment. Subtype-3a specific CD8+ T-cell responses in chronic infection target non-structural proteins, in contrast to pre-dominant genotype-1 core-specific CD4+ T-cell responses. SVR was associated with a decline in subtype-3a specific and non-specific T-cell responses, and also total lymphocyte counts, which all recovered after treatment. These data do not support the theory that clearance of subtype-3a is associated with an enhancement of antiviral T-cell responses. Overlapping peptides detected a greater number of subtype-3a T-cell responses compared with peptides representing putative predicted CD8 epitopes. Therefore subtype-3a HCV is distinct from genotype-1 in terms of genome sequence, effect of treatment on quasispecies and subtype-3a specific T-cell responses, further emphasising the importance in understanding this distinct subtype.

Published

2011

28. Immunogenicity evaluation of recombinant Lactobacillus casei W56 expressing bovine viral diarrhea virus E2 protein in conjunction with cholera toxin B subunit as an adjuvant.

Author

Jia, Shuo, Huang, Xinning, Li, Hua, Zheng, Dianzhong, Wang, Li, Qiao, Xinyuan, Jiang, Yanping, Cui, Wen, Tang, Lijie, Li, Yijing, and Xu, Yigang

Subjects

*BOVINE viral diarrhea virus, *BOVINE viral diarrhea, *CHOLERA toxin, *CHOLERA, *VIRAL proteins, *LACTOBACILLUS casei, *VACCINE development

Abstract

Background: Bovine viral diarrhea virus (BVDV) is one of the main causes of infectious diseases in cattle and causes large financial losses to the cattle industry worldwide. In this study, Lactobacillus casei strain W56 (Lc W56) was used as antigen deliver carrier to construct a recombinant Lactobacillus vaccine pPG-E2-ctxB/Lc W56 constitutively expressing BVDV E2 protein fused with cholera toxin B subunit (ctxB) as an adjuvant, and its immunogenicity against BVDV infection in mice model by oral route was explored. Results: Our results suggested that pPG-E2-ctxB/Lc W56 can effectively activate dendritic cells (DCs) in the Peyer's patches, up-regulate the expression of Bcl-6, and promote T-follicular helper (Tfh) cells differentiation, as well as enhance B lymphocyte proliferation and promote them differentiate into specific IgA-secreting plasma cells, secreting anti-E2 mucosal sIgA antibody with BVDV-neutralizing activity. Moreover, significant levels (p < 0.01) of BVDV-neutralizing antigen-specific serum antibodies were induced in the pPG-E2-ctxB/LC W56 group post-vaccination. The recombinant Lactobacillus vaccine can induce cellular immune responses, and significant levels (p < 0.01) of Th1-associated cytokines (IL-2, IL-12, and IFN-γ), Th2-associated cytokines (IL-4, IL-10) and Th17-associated cytokine (IL-17) were determined in the serum of vaccinated mice. Significantly, the recombinant Lactobacillus vaccine provides immune protection against BVDV infection, which can be cleared effectively by the vaccine post-challenge in orally vaccinated animals. Conclusions: The genetically engineered Lactobacillus vaccine constructed in this study is immunogenic in mice and can induce mucosal, humoral, and cellular immune responses, providing effective anti-BVDV immune protection. It thus represents a promising strategy for vaccine development against BVDV. [ABSTRACT FROM AUTHOR]

Published

2020

29. Expression of recombinant classical swine fever virus E2 glycoprotein by endogenous Txnip promoter in stable transgenic CHO cells.

Author

Feng, Lei, Chen, Li, Yun, Junwen, and Cao, Xinglin

Subjects

*CLASSICAL swine fever virus, *CLASSICAL swine fever, *CHO cell, *RECOMBINANT proteins

Abstract

As the main immunogen that could stimulate neutralized antibody in pigs, recombinant E2 protein of CSFV was expressed in CHO‐dhfr−cells driven by endogenous Txnip promoter from Chinese hamster. Different fragments of Txnip promoter were amplified by PCR from isolated genomic DNA of CHO cells and cloned into different expression vectors. Compared with CMV promoter, CHO‐pTxnip‐4‐rE2 (F12) cell clone with the highest yield of rE2 protein was established by random insertion of the expression cassette driven by 860 bp sequences of Txnip promoter. In combination with treatment of 800 nM MTX for copy amplification of inserted expression cassette, the dynamic expression profile of rE2 protein was observed. Then inducible expression strategy of balance between viable cell density and product yield was conducted by mixed addition of 0.1 mM NADH and 0.1 mM ATP in culture medium at day 3 of batch‐wise culture. It could be concluded that Txnip promoter would be a promising alternative promoter for recombinant antigen protein expression in transgenic cells. [ABSTRACT FROM AUTHOR]

Published

2020

30. The expression of the transcription factor TAF1 is modified by the HPV16 E2 protein.

Author

SÁNCHEZ-RAMOS, J., POZO-MOLINA, G., and GARRIDO, E.

Subjects

PAPILLOMAVIRUSES, VIRAL proteins, TRANSCRIPTION factors, GENE expression, VIRAL replication

Abstract

High-risk human papillomaviruses (e.g., HPV16 and 18) are associated with cervical cancer occurrence and development. The early viral gene E2 encodes a protein involved in several key processes in HPV biology, such as replication, genome segregation, and viral gene transcription. E2's presence also affects the expression of a variety of cellular genes involved in a wide range of biological processes, including cell cycle regulation and apoptosis, which are mediated by E2's interaction with cellular proteins. In this report, a lentiviral system was used to express the HPV16 E2 gene in the HPV-negative C-33A cell line for several weeks. E2 expression was measured by RT-qPCR and its biological activity was evaluated using a reporter gene. In HPV16 E2-positive cells, we observed a statistically significant increase in mRNA and protein levels of TAF1 and p27, a basal transcription factor and one of its target genes, respectively. To our knowledge, this is the first study showing that the viral protein HPV16 E2 upregulates TAF1 expression. This suggests that E2's expression promotes a transcriptionally-favorable cellular environment that allows HPV to successfully complete its replication cycle. [ABSTRACT FROM AUTHOR]

Published

2020

31. 高效制备霍乱弧菌菌影及其增强猪瘟疫苗免疫效果的研究.

Author

姬生乐, 韩美晴, 杜丽宏, 彭名正, 徐思艳, and 杨梦华

Abstract

Copyright of Chinese Journal of Preventive Veterinary Medicine / Zhongguo Yufang Shouyi Xuebao is the property of Chinese Journal of Preventive Veterinary Medicine Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

32. Gold nanoparticles enhance immune responses in mice against recombinant classical swine fever virus E2 protein.

Author

Li, Yafei, Jin, Qianyue, Ding, Peiyang, Zhou, Wen, Chai, Yongxiao, Li, Xufeng, Wang, Yao, and Zhang, Gaiping

Subjects

CLASSICAL swine fever virus, CLASSICAL swine fever, VIRAL proteins, GOLD nanoparticles, BOVINE viral diarrhea virus, IMMUNE response

Abstract

Objective: To create a novel subunit vaccine that used AuNPs as carriers to enhance immune responses in mice against recombinant classical swine fever virus E2 protein (CSFV E2). Results: Gold nanoparticles (AuNPs) were successfully coupled to the E2 protein and formed stable particle complexes called E2 conjugated AuNPs (E2–AuNPs). In vitro studies have shown that the E2–AuNPs complex has the same immunogenicity as the E2 protein, and AuNPs can promote the phagocytosis of the E2 protein by antigen-presenting cells (APCs). In vivo results of BALB/c mice showed that the antibody levels, lymphocyte proliferation index, IFN-γ and IL-10 cytokines induced by E2–AuNPs were relatively higher than those of E2 or AuNPs group. Conclusions: This finding demonstrated the potential of using AuNPs as a carrier to enhance the body's immune response for developing CSFV subunit vaccines. This model also contributes to the development of other flavivirus subunit vaccines, such as hepatitis C virus (HCV) and bovine viral diarrhea virus (BVDV). [ABSTRACT FROM AUTHOR]

Published

2020

33. Establishment and application of an indirect ELISA for Getah virus E2 antibody detection.

Author

You, Dong, Wang, Yu-Ling, Ge, Liang-Peng, Zhou, Yuan-Cheng, Sun, Jing, Lang, Li-Qiao, Lai, Si-Yuan, Ai, Yan-Ru, Zhu, Ling, and Xu, Zhi-Wen

Subjects

*RECOMBINANT proteins, *MOSQUITO-borne diseases, *FEVER, *SERUM, *ANIMAL health, *IMMUNOGLOBULIN G, *WELL-being

Abstract

Getah virus (GETV) is a mosquito-transmitted disease that affects animals, causing fever, aseptic meningitis, and abortion. Its prevalence in China poses risks to both animal health and public well-being. Currently, there is a scarcity of seroepidemiological data on GETV due to the absence of commercial antibody detection kits for pigs. The aim of this study is to develop a rapid, accurate, and sensitive ELISA, providing a reliable tool for GETV seroepidemiology and laying the foundation for future commercial assay development. In this study, we removed specific hydrophobic domains and intracellular structures from E2 proteins and constructed the recombinant plasmid pCold-TF-E2. The recombinant protein was expressed using a prokaryotic expression system, and efficient purification of the rE2 protein was achieved using a nickel affinity column. The purified rE2 protein is suitable for the development of an indirect ELISA (rE2 ELISA). Following the optimization of reaction conditions for the rE2-ELISA, the cut-off value was 0.356. Additionally, the rE2-ELISA method showed a positive rate of 37.1% for IgG antibodies against GETV when testing 986 pig clinical serum samples collected from pigs in Sichuan between May 2022 and September 2022. The rE2-ELISA method displayed a 95.1% overall agreement with VNT, boasting a sensitivity of 98.2% and a specificity of 92.6%. These results indicate that IgG ELISA based on rE2 protein is an efficient and economical method for the detection of GETV antibodies in pigs, facilitating the diagnosis and prevention of GETV. • An indirect ELISA method for detecting GETV antibodies in swine was established. • The soluble recombinant E2 protein acts as the coated antigen. [ABSTRACT FROM AUTHOR]

Published

2024

34. Clinical and molecular aspects of human pegiviruses in the interaction host and infectious agent

Author

Samadi, Mehdi, Salimi, Vahid, Haghshenas, Mohammad Reza, Miri, Seyed Mohammad, Mohebbi, Seyed Reza, and Ghaemi, Amir

Published

2022

35. 抗猪瘟病毒中和性单克隆抗体的制备与鉴定.

Author

运超, 陈玉梅, 冯丽丽, 汪　磊, 王聚财, 陆东峰, and 张改平

Subjects

CLASSICAL swine fever virus, MONOCLONAL antibodies, CELL fusion, NEUTRALIZATION tests, CELL lines, WESTERN immunoblotting

Abstract

Copyright of Journal of Henan Agricultural Sciences is the property of Editorial Board of Journal of Henan Agricultural Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

36. Identification of Potential HCV Inhibitors Based on the Interaction of Epigallocatechin-3-Gallate with Viral Envelope Proteins

Author

Fareena Shahid, Noreen, Roshan Ali, Syed Lal Badshah, Syed Babar Jamal, Riaz Ullah, Ahmed Bari, Hafiz Majid Mahmood, Muhammad Sohaib, and Siddique Akber Ansari

Subjects

hepatitis C virus, E2 protein, homology modeling, epigallocatechin-3-gallate, virtual screening, Organic chemistry, QD241-441

Abstract

Hepatitis C is affecting millions of people around the globe annually, which leads to death in very high numbers. After many years of research, hepatitis C virus (HCV) remains a serious threat to the human population and needs proper management. The in silico approach in the drug discovery process is an efficient method in identifying inhibitors for various diseases. In our study, the interaction between Epigallocatechin-3-gallate, a component of green tea, and envelope glycoprotein E2 of HCV is evaluated. Epigallocatechin-3-gallate is the most promising polyphenol approved through cell culture analysis that can inhibit the entry of HCV. Therefore, various in silico techniques have been employed to find out other potential inhibitors that can behave as EGCG. Thus, the homology modelling of E2 protein was performed. The potential lead molecules were predicted using ligand-based as well as structure-based virtual screening methods. The compounds obtained were then screened through PyRx. The drugs obtained were ranked based on their binding affinities. Furthermore, the docking of the topmost drugs was performed by AutoDock Vina, while its 2D interactions were plotted in LigPlot+. The lead compound mms02387687 (2-[[5-[(4-ethylphenoxy) methyl]-4-prop-2-enyl-1,2,4-triazol-3-yl] sulfanyl]-N-[3(trifluoromethyl) phenyl] acetamide) was ranked on top, and we believe it can serve as a drug against HCV in the future, owing to experimental validation.

Published

2021

37. IgM-specific linear epitopes on the E2 protein for serodiagnosis of Chikungunya.

Author

Li, Qianlin, Dai, Jun, Shi, Yongxia, Deng, Qiang, Liao, Conghui, Huang, Jicheng, and Lu, Jiahai

Subjects

*CHIKUNGUNYA, *SERODIAGNOSIS, *WEST Nile virus, *PEPTIDES, *EPITOPES, *AEDES albopictus

Abstract

• A serological assay to detect human CHIKV IgM antibodies. • Six potential peptides are able to serologically differentiate CHIKV from DENV infections. • A novel ELISA using a peptide is proposed for the identification of IgM antibodies specific to the CHIKV. • The proposed peptide-ELISA method offers a valuable alternative to existing techniques for detecting CHIKV IgM antibodies. Chikungunya virus (CHIKV) and Dengue virus (DENV) are vector-borne diseases transmitted by Aedes aegypti and Aedes albopictus that pose a significant threat to global public health. Cases of acute Chikungunya fever often present similar clinical symptoms to other vector-borne diseases, such as Dengue fever. In regions where multiple vector-borne diseases coexist, CHIKV is often overlooked or misdiagnosed as Dengue virus, West Nile virus, Zika virus or other viral infections, which delays its prevention and control. However, IgM antibodies directed against the E2 protein of CHIKV have not yet been generalized to clinical settings due to the low sensitivity and high cost in commercial kits. Indirect ELISA with peptides provides an effective supplementary tool for detecting CHIKV IgM antibodies. Our study aims at examining the potential of linear epitopes on the E2 glycoprotein that specifically bind to IgM antibodies as serodiagnostic tool for CHIKV. The sensitivity of the established peptide indirect ELISA method for detecting clinical samples is significantly better than that of commercial kits, realizing a beneficial supplement to the existing IgM antibody assay. It also established the groundwork for comprehending the biological mechanisms of the CHIKV E2 protein and the advancement of innovative epitope peptide vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

38. Development and evaluation of a monoclonal antibody-based blocking ELISA to detect antibodies against the E2 protein of bovine viral diarrhea virus-1.

Author

Liu, Xinhuan, Cheng, Zilong, Zhang, Wenwen, Mao, Li, Pan, Zihao, Yang, Leilei, Liu, Maojun, Long, Yunfeng, Bai, Juan, and Li, Wenliang

Subjects

*BOVINE viral diarrhea, *MONOCLONAL antibodies, *BOVINE viral diarrhea virus, *VIRAL proteins, *CLASSICAL swine fever virus, *RECOMBINANT proteins

Abstract

With the rapid development of cattle industry, bovine viral diarrhea virus (BVDV) is becoming widespread in China, which causes serious economic losses to the industry. Effective vaccination and viral surveillance are critical for the prevent and control of BVDV infection. In the present study, the immunogenic domain of E2 protein of BVDV-1 was expressed by prokaryotic pET-28a vector. Monoclonal antibodies (mAbs) against E2 protein were prepared and systemically examined by western blot, immunofluorescence assay, blocking ELISA (bELISA) and virus neutralization test (VNT). The mAb 1E2B3, which showed good reactivity and neutralizing activity to BVDV-1 strains, was selected for ELISA establishment. After a series of screening and optimization, a novel bELISA for highly sensitive and specific detection of BVDV-1 antibodies was established, using HRP-labeled 1E2B3 and recombinant E2 protein. ROC analysis of 91 positive and 84 negative reference bovine serum samples yielded the area under the curve (AUC) of 0.9903. A diagnostic specificity of 96.43 % and a sensitivity of 95.6 % were achieved when the cutoff value was set at 24.31 %. There was no cross reaction to the positive sera of classical swine fever virus (CSFV), BVDV-2, border disease virus (BDV), bovine parainfluenza virus type 3 (BPIV3), infectious bovine rhinotracheitis virus (IBRV), foot-and-mouth disease virus (FMDV), Mycoplasma bovis (M.bovis) and Brucella. The total agreement rate of bELISA with VNT was 93.96 % (249/265). In addition, the result of bELISA was positively correlated with neutralizing antibody titer, and the bELISA could well distinguish the serum samples before and after BVDV vaccination. These results indicate that the established bELISA in this study is specific, sensitive, simple and convenient, which provides technical support for the vaccine efficacy evaluation, prevention and control of BVD in the future. • Monoclonal antibodies (mAbs) against BVDV-1 E2 protein were prepared and identified. • mAb 1E2B3 and 3D3D4 showed neutralizing activity to BVDV-1 strains. • A novel blocking ELISA (bELISA) detecting BVDV-1 antibodies was established. • The bELISA should be suitable for the vaccine efficacy evaluation, prevention and control of BVDV-1. [ABSTRACT FROM AUTHOR]

Published

2024

39. Optimized Hepatitis C Virus (HCV) E2 Glycoproteins and their Immunogenicity in Combination with MVA-HCV

Author

María Q. Marín, Kwinten Sliepen, Juan García-Arriaza, Sylvie M. Koekkoek, Patricia Pérez, Carlos Óscar S. Sorzano, Carmen E. Gómez, Rogier W. Sanders, and Mariano Esteban

Subjects

HCV, E2 protein, cysteines, disulfide bonds, MVA, vaccine, Medicine

Abstract

Hepatitis C virus (HCV) represents a major global health challenge and an efficient vaccine is urgently needed. Many HCV vaccination strategies employ recombinant versions of the viral E2 glycoprotein. However, recombinant E2 readily forms disulfide-bonded aggregates that might not be optimally suited for vaccines. Therefore, we have designed an E2 protein in which we strategically changed eight cysteines to alanines (E2.C8A). E2.C8A formed predominantly monomers and virtually no aggregates. Furthermore, E2.C8A also interacted more efficiently with broadly neutralizing antibodies than conventional E2. We used mice to evaluate different prime/boost immunization strategies involving a modified vaccinia virus Ankara (MVA) expressing the nearly full-length genome of HCV (MVA-HCV) in combination with either the E2 aggregates or the E2.C8A monomers. The combined MVA-HCV/E2 aggregates prime/boost strategy markedly enhanced HCV-specific effector memory CD4+ T cell responses and antibody levels compared to MVA-HCV/MVA-HCV. Moreover, the aggregated form of E2 induced higher levels of anti-E2 antibodies in vaccinated mice than E2.C8A monomers. These antibodies were cross-reactive and mainly of the IgG1 isotype. Our findings revealed how two E2 viral proteins that differ in their capacity to form aggregates are able to enhance to different extent the HCV-specific cellular and humoral immune responses, either alone or in combination with MVA-HCV. These combined protocols of MVA-HCV/E2 could serve as a basis for the development of a more effective HCV vaccine.

Published

2020

40. Enhanced protective immunity to CSFV E2 subunit vaccine by using IFN-γ as immunoadjuvant in weaning piglets.

Author

Zhang, Huawei, Wen, Wei, Zhao, Zekai, Wang, Jianjian, Chen, Huanchun, Qian, Ping, and Li, Xiangmin

Subjects

*IMMUNOLOGICAL adjuvants, *GLYCOPROTEINS, *IMMUNE response, *THERAPEUTIC use of immunoglobulins, *MATHEMATICAL models

Abstract

Highlights • The immunogenicity of the E2 protein of CSFV and porcine IFN-γ protein was evaluated in weaning piglets. • Results of animal experiments showed that porcine IFN-γ can increase cellular immune responses to E2 subunit vaccine. • IFN-γ as an adjuvant can improve the protective efficacy of E2 subunit vaccine against CSFV. Abstract The glycoprotein E2 of classical swine fever virus (CSFV) is a major immunogenic protein that induces neutralizing antibodies and protective immunity. Thus, E2 is a suitable target antigen for the development of genetically engineered CSFV vaccines. However, these vaccines cannot generate complete protective immunity in their hosts, thereby limiting the scope of applications under field conditions. IFN-γ is an immune adjuvant that has been shown to enhance antigen immune response in various experimental models. In this study, porcine IFN-γ was used to improve the immunogenicity of the CSFV E2 subunit vaccine in pigs. Pigs were immunized with E2 subunit vaccine alone or in combination with IFN-γ. Results demonstrated that porcine IFN-γ did not enhance the CSFV-specific antibody and neutralizing antibody titers compared with the E2 subunit vaccine alone. However, co-administration of the E2 and IFN-γ subunit vaccines significantly enhanced the CSFV-specific IFN-γ expression. These findings indicated that porcine IFN-γ can increase cellular immune responses to E2 protein in pigs. Furthermore, co-immunization with E2 + IFN-γ subunit vaccine and C-strain conferred complete protection against CSFV. In contrast, E2 subunit vaccines provided incomplete protection in pigs. These results indicated that using IFN-γ as an adjuvant with CSFV E2 subunit vaccines can enhance the specific protective immune response. Therefore, E2 + IFN-γ subunit vaccine is a promising marker vaccine candidate for the control and eradication of CSF. [ABSTRACT FROM AUTHOR]

Published

2018

41. Enhanced immune responses to E2 protein and DNA formulated with ISA 61 VG administered as a DNA prime–protein boost regimen against bovine viral diarrhea virus.

Author

Cai, Dongjie, Song, Quanjiang, Duan, Cong, Wang, Shenghua, Wang, Jiufeng, and Zhu, Yaohong

Subjects

*IMMUNE response, *DNA analysis, *BOVINE viral diarrhea, *IMMUNIZATION, *VIREMIA

Abstract

The aim of this study was to develop and test an optimal vaccination strategy against bovine viral diarrhea virus (BVDV) based on the E2 glycoprotein of the BJ1305 strain. To achieve higher E2-specific antibody titers and to broaden the cellular immune response, a plasmid encoding the E2 protein (pcDNA3.1-E2) was constructed and a purified recombinant E2 protein was generated. The E2 protein was emulsified in the adjuvant ISA 61 VG prior to administration. We immunized mice three times with pcDNA3.1-E2 or the recombinant E2 protein or primed twice with pcDNA3.1-E2 and boosted once with the E2 protein. To evaluate the protection against BVDV conferred by the vaccines, the mice were challenged with BVDV strain Oregon C24V after the third immunization. Although all immunized mice developed humoral and cellular immune responses, the E2-specific antibody titers in the DNA prime–protein boost group were significantly higher than those elicited by either the DNA or the protein vaccine. In addition, vaccination with the E2 DNA vaccine induced higher percentages of CD4 + IFN-γ + T cells and CD8 + IFN-γ + T cells among total CD3 + T cells than the other regimens. The predominant antibody subclass in the vaccinated mice was IgG1. Serum tumor necrosis factor alpha (TNF-α) levels in the DNA prime–protein boost group were significantly higher after the third immunization than in the other groups. Moreover, the mice treated with the DNA prime–protein boost vaccination regimen acquired protection against BVDV challenge, as shown by a significant reduction of viremia, only minor pathological changes, and a lower viral antigen burden than in the control and solo vaccinated mice. These results demonstrate the potential advantage of a DNA prime–protein boost vaccination approach over a solo vaccination for the prevention of BVDV. The ability of this vaccine strategy to control and eradicate BVD in herds warrants further investigation. [ABSTRACT FROM AUTHOR]

Published

2018

42. The E2 glycoprotein is necessary but not sufficient for the adaptation of classical swine fever virus lapinized vaccine C-strain to the rabbit.

Author

Li, Yongfeng, Xie, Libao, Zhang, Lingkai, Wang, Xiao, Li, Chao, Han, Yuying, Hu, Shouping, Sun, Yuan, Li, Su, Luo, Yuzi, Liu, Lihong, Munir, Muhammad, and Qiu, Hua-Ji

Subjects

*CLASSICAL swine fever virus, *GLYCOPROTEINS, *VIRAL vaccines, *AMINO acids, *MICROBIAL virulence

Abstract

Classical swine fever virus (CSFV) C-strain was developed through hundreds of passages of a highly virulent CSFV in rabbits. To investigate the molecular basis for the adaptation of C-strain to the rabbit (ACR), a panel of chimeric viruses with the exchange of glycoproteins E rns , E1, and/or E2 between C-strain and the highly virulent Shimen strain and a number of mutant viruses with different amino acid substitutions in E2 protein were generated and evaluated in rabbits. Our results demonstrate that Shimen-based chimeras expressing E rns -E1-E2, E rns -E2 or E1-E2 but not E rns -E1, E rns , E1, or E2 of C-strain can replicate in rabbits, indicating that E2 in combination with either E rns or E1 confers the ACR. Notably, E2 and the amino acids P108 and T109 in Domain I of E2 are critical in ACR. Collectively, our data indicate that E2 is crucial in mediating the ACR, which requires synergistic contribution of E rns or E1. [ABSTRACT FROM AUTHOR]

Published

2018

43. The construction of recombinant Lactobacillus casei expressing BVDV E2 protein and its immune response in mice.

Author

Bhuyan, Anjuman Ara, Memon, Atta Muhammad, Bhuiyan, Ali Akbar, Zhonghua, Li, Zhang, Bingzhou, Ye, Shiyi, Mengying, Li, and He, Qi-Gai

Subjects

*BOVINE viral diarrhea virus, *LACTOBACILLUS casei, *IMMUNE response, *IMMUNOFLUORESCENCE, *IMMUNIZATION

Abstract

Bovine viral diarrhea virus (BVDV) is the etiological agent of BVD causes substantial economic losses and endemic in world-wide cattle population. Mucosal immunity plays an important role in protection against BVDV infection and Lactobacillus casei is believed as an excellent live vaccine vector for expressing foreign genes. In this study, we have constructed a novel recombinant L. casei /pELX1-E2 strain expressing the most immunogenic E2 antigen of BVDV; using growth phage dependent surface expression system pELX1. The expression of E2 protein was verified by SDS-PAGE, Western blotting, and Immunofluorescence microscopic analysis. The immune responses triggered by the E2 producing recombinant L. casei were evaluated in BALB/c mice revealed that oral and intranasal (IN) administration of the recombinant strain was able to induce a significantly higher level of specific anti-E2 mucosal IgA and serum IgG as well as the greater level of cellular response by IFN-γ and IL-12 than those of intramuscular (IM) and control groups of mice. However, IN inoculation was found the most potent route of immunization. The ability of the recombinant strain to induce serum neutralizing antibody against BVDV and reduced viral load after viral challenge indicated better protection of BVDV infection. Therefore, this recombinant L. casei expressing E2 could be a safe and promising mucosal vaccine candidate against BVD. [ABSTRACT FROM AUTHOR]

Published

2018

44. 猪瘟病毒E2蛋白在大肠杆菌中的表达及免疫原性分析.

Author

王冬雨, 魏 蔷, 刘运超, 刘 畅, 杨 棋, 崔颖磊, and 张改平

Abstract

Copyright of Journal of Henan Agricultural Sciences is the property of Editorial Board of Journal of Henan Agricultural Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

45. Assessment of New E2 Protein Domain Interaction with PKR Protein to Control IFN Signaling

Author

Dehghani Behzad, Mousavi Zahra, Hashempour Tayebeh, Merat Shahin, Hasanshahi Zahra, and Moayedi Javad

Subjects

Chemistry, E2 protein, Molecular Biology, Biochemistry, Protein kinase R, Domain (software engineering), Cell biology

Abstract

Introduction: Controversy exists regarding the impact of Phosphorylation Homology Domain (PePHD) of Hepatitis C Virus (HCV) E2 protein on the interruption of the antiviral signaling pathway. A mechanism by which the virus evades the antiviral effect of interferon (IFN) alpha involves protein kinase (PKR) eukaryotic Initiation Factor 2 alpha (eIF2a) PePHD. By binding to PKR, PePHD inhibits its activity and, therefore, causes the virus to evade the antiviral activity of IFN. This study aimed to clarify the inconsistency of different conclusions reached in previous studies using reliable bioinformatics tools. Methods: Fifty-eight Iranian patients infected with HCV genotypes 1a and 3a and 58 healthy control individuals were examined. Plasma viral RNA was used to amplify and sequence the HCV E2 gene; also, HCV viral load, genotyping, IL-28B genotyping, alanine Aminotransferase (ALT), and aspartate aminotransferase (AST) test were determined. Bioinformatics tools determined the physicochemical properties, B-cell epitopes, post-modification changes, and secondary/tertiary structures, and also evaluated the interactions between E2 and PePHD regions. Results: The results showed a new domain that is responsible for binding to PKR protein and is important to the intrigued antiviral response. Physicochemical features and post-modifications were defined, showing that E2 is highly phosphorylated and there were numerous possible disulfide bonds. Secondary and tertiary structures for E2 protein were constructed. No significant relationship between ALT and AST and treatment failure was detected. Conclusions: Docking analysis showed a new domain in E2 protein that can be involved in the interaction between PKR and E2 protein. This finding may justify our results revealing the non-significant relationship between mutations in PePHD and treatment failure.

Published

2021

46. Identification of two novel T cell epitopes on the E2 protein of classical swine fever virus C-strain.

Author

Zhao, Xiaotian, Wang, Xiao, Yuan, Mengqi, Zhang, Xin, Yang, Xiaoke, Guan, Xiangyu, Li, Shuwen, Ma, Jifei, Qiu, Hua-Ji, and Li, Yongfeng

Subjects

*CLASSICAL swine fever, *CLASSICAL swine fever virus, *T cells, *EPITOPES, *PEPTIDES, *INTERFERON gamma

Abstract

C-strain, also known as the HCLV strain, is a well-known live attenuated vaccine against classical swine fever (CSF), a devastating disease caused by classical swine fever virus (CSFV). Vaccination with C-strain induces a rapid onset of protection, which is associated with virus-specific gamma interferon (IFN- γ)-secreting CD8+ T cell responses. The E2 protein of CSFV is a major protective antigen. However, the T cell epitopes on the E2 protein remain largely unknown. In this study, eight overlapping nonapeptides of the E2 protein were predicted and synthesized to screen for potential T cell epitopes on the CSFV C-strain E2 protein. Molecular docking was performed on the candidate epitopes with the swine leukocyte antigen-1*0401. The analysis obtained two highly conserved T cell epitopes, 90STEEMGDDF98 and 331ATDRHSDYF339, which were further identified by enzyme-linked immunospot assay. Interestingly, the mutants deleting or substituting the epitopes are nonviable. Further analysis demonstrated that 90STEEMGDDF98 is crucial for the E2 homodimerization, while CSFV infection is significantly inhibited by the 331ATDRHSDYF339 peptide treatment. The two novel T cell epitopes can be used to design new vaccines that are able to provide rapid-onset protection. • Two novel T cell epitopes were identified on the E2 protein of the CSFV C-strain. • The epitope 90STEEMGDDF98 was crucial for E2 homodimerization. • The epitope 331ATDRHSDYF339 was critical for CSFV infection. [ABSTRACT FROM AUTHOR]

Published

2023

47. Nuclear myosin 1 associates with papillomavirus E2 regulatory protein and influences viral replication.

Author

Sankovski, Eve, Abroi, Aare, Jr.Ustav, Mart, and Ustav, Mart

Subjects

*MYOSIN, *PAPILLOMAVIRUSES, *VIRAL replication, *VIRAL proteins, *GENOMES

Abstract

Nuclear myosin 1c (NM1) associates with RNA polymerases and is a partner in the chromatin remodeling complex B-WICH. This complex, which also contains WSTF and SNF2h proteins, is involved in transcriptional regulation. We report herein that papillomavirus protein E2 binds to NM1 and co-precipitates with the WSTF and SNF2h proteins. Our data suggest that E2 associates with the cellular B-WICH complex through binding to NM1. E2 and NM1 associate via their N-terminal domains and this interaction is ATP dependent. The cellular multifunctional protein Brd4 and beta-actin are also present in the NM1-E2 complex. NM1 downregulation by siRNA increases the replication of the BPV1 and HPV5 genomes but does not affect HPV18 genome replication. These results suggest that the B-WICH complex may play a role in the papillomavirus life cycle through NM1 and E2 protein interaction. [ABSTRACT FROM AUTHOR]

Published

2018

48. Expression and purification of classical swine fever virus E2 protein from Sf9 cells using a modified vector.

Author

Yang, Ling, Lu, Xingmeng, and Fang, Weihuan

Subjects

CLASSICAL swine fever virus, SWINE diseases, BACULOVIRUS diseases, CLASSICAL swine fever diagnosis, CLASSICAL swine fever vaccines

Abstract

Objective: To develop a simple method for efficient expression of classical swine fever virus (CSFV) E2 protein. Results: The pFastBac HT B vector (pFastHTB-M1) was modified by adding a melittin signal peptide sequence. The E2 gene fragment without the transmembrane region was cloned into pFastHTB-M1. The modified vector has clear advantage over the original one, as evidenced by the purified recombinant E2 protein that was detected significantly by SDS-PAGE. Conclusions: The modified vector has the potential for large-scale production and easy purification of the CSFV E2 protein or other proteins of interests. [ABSTRACT FROM AUTHOR]

Published

2017

49. Targeting Persistent Human Papillomavirus Infection.

Author

Shanmugasundaram, Srinidhi and Jianxin You

Subjects

*PAPILLOMAVIRUSES, *CERVICAL cancer treatment, *CERVICAL cancer prevention, *EPISOMES, *IMMUNE response

Abstract

While the majority of Human papillomavirus (HPV) infections are transient and cleared within a couple of years following exposure, 10-20% of infections persist latently, leading to disease progression and, ultimately, various forms of invasive cancer. Despite the clinical efficiency of recently developed multivalent prophylactic HPV vaccines, these preventive measures are not effective against pre-existing infection. Additionally, considering that the burden associated with HPV is greatest in regions with limited access to preventative vaccination, the development of effective therapies targeting persistent infection remains imperative. This review discusses not only the mechanisms underlying persistent HPV infection, but also the promise of immunomodulatory therapeutic vaccines and small-molecular inhibitors, which aim to augment the host immune response against the viral infection as well as obstruct critical viral-host interactions. [ABSTRACT FROM AUTHOR]

Published

2017

50. Local innate responses and protective immunity after intradermal immunization with bovine viral diarrhea virus E2 protein formulated with a combination adjuvant in cattle.

Author

Sadat, Sams M.A., Snider, Marlene, Garg, Ravendra, Brownlie, Robert, and van Drunen Littel-van den Hurk, Sylvia

Subjects

*NATURAL immunity, *IMMUNIZATION, *BOVINE viral diarrhea virus, *IMMUNOLOGICAL adjuvants, *PHOSPHAZENES, *THERAPEUTICS

Abstract

Bovine viral diarrhea virus (BVDV) is one of the most serious pathogens in cattle. Recently, we developed a novel adjuvant platform (TriAdj) that includes a toll-like receptor 3 agonist, poly (I:C); an innate defense regulatory peptide; and water-soluble polymer, poly[di(sodiumcarboxylatoethylphenoxy)]-phosphazene (PCEP). To develop a needle-free intradermal (ID) subunit vaccine, the BVDV type-2 E2 protein was formulated with TriAdj, and immune protection was evaluated in calves against a BVDV-2 strain. Intradermal delivery of E2/TriAdj elicited robust virus neutralizing antibodies and cell-mediated immune responses including CD4 + and CD8 + T-cell responses. The development of CD8 + T-cell responses in vaccinated calves indicates that TriAdj promotes cross-presentation. Upon challenge with virulent BVDV-2, the vaccinated calves showed no weight loss, leukopenia or virus shedding, and almost no temperature increase, in contrast to the control animals, which had severe clinical disease and shed virus for three to six days in nasal fluids and white blood cells. Intradermal vaccination was shown to attract various immune cell populations including dendritic cells, the most important antigen presenting cells. These data demonstrate that ID delivery is suitable as an administration route in cattle and that ID delivered, TriAdj-formulated E2 can protect cattle from BVDV-2. [ABSTRACT FROM AUTHOR]

Published

2017