Porcine circovirus type 3 capsid protein induces NF-κB activation and upregulates pro-inflammatory cytokine expression in HEK-293T cells

Abstract The recently identified pathogenic Porcine circovirus type 3 (PCV3) may threaten to reduce the pig population dramatically worldwide. In our previous study, a PCV3-specific monoclonal antibody (mAb-1H11) was successfully applied in immune-histochemistry staining and ELISA, which specifically recognize PCV3 capsid protein in PCV3-positive pig tissues. In the present study, we expressed and purified the soluble sole capsid protein of PCV3. The purified capsid protein was capable of self-assembly into virus-like-particles (VLPs), which is validated by transmission electron microscopy and dynamic light scattering assays. Moreover, the epitope of mAb-1H11 was identified in the CD-loop region (a.a. 72-79) on the VLP surface, which is confirmed by PCV2-PCV3 epitope swapping assay. For the first time, we determined the cryo-EM structure of PCV3-VLP at 8.5 Å resolution that reveals the detailed structural information of PCV3-VLP. In our cryo-EM structure, PCV3-VLP is composed of 60 capsid protein subunits assembled with T = 1 icosahedral symmetry. Consistent to our bio-dot Western blot assay, the structural comparison between PCV3 and PCV2 revealed significant structural differences in the surface-exposed loops, including the CD-loop (a.a. 72-79) and the EF-loop (a.a. 109-131). Our work provides a structural framework for engineering future PCV3 vaccine and diagnosis kits development.

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High repetitive arginine in the anterior of PCV3 capsid protein is a severe obstacle for its expression in E. coli

AMB Express ◽

10.1186/s13568-020-01163-8 ◽

2020 ◽

Vol 10 (1) ◽

Author(s):

Bing Yan Liu ◽

Bin Gao ◽

Meng Zhi Liu ◽

Ting Ting Zhang ◽

Bao Shan Liu ◽

...

Keyword(s):

Capsid Protein ◽

Vaccine Candidate ◽

Clinical Signs ◽

Porcine Circovirus Type ◽

Reproductive Failure ◽

Porcine Circovirus ◽

Effective Vaccine ◽

E Coli ◽

Efficient Expression ◽

Type 3

AbstractPorcine circovirus type 3 (PCV3) is a novel circovirus identified in sows with PDNS-like clinical signs and reproductive failure. The capsid protein (CAP) of PCV3 is expected to be an effective vaccine candidate. Here, we expressed the original capsid protein, truncated capsid protein without anterior highly repetitive arginine (ΔCAP) and their codon-optimized counterparts in E. coli. These results showed that lots of repeated arginine could severely lower the expression of PCV3 capsid protein in E. coli. At the same time, the recombined truncated PCV3 capsid protein forms typic virions. The efficient expression of capsid protein is expected to serve the development of PCV3 vaccines and other studies of PCV3 capsid protein.

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The serine-48 residue of nucleolar phosphoprotein nucleophosmin-1 plays critical role in subcellular localization and interaction with porcine circovirus type 3 capsid protein

Veterinary Research ◽

10.1186/s13567-020-00876-9 ◽

2021 ◽

Vol 52 (1) ◽

Author(s):

Jianwei Zhou ◽

Juan Li ◽

Haimin Li ◽

Ying Zhang ◽

Weiren Dong ◽

...

Keyword(s):

Capsid Protein ◽

Critical Role ◽

Porcine Circovirus Type ◽

Porcine Circovirus ◽

Nucleolar Localization ◽

Nucleolar Localization Signal ◽

Localization Signal ◽

Charge Property ◽

Type 3 ◽

First Time

AbstractThe transport of circovirus capsid protein into nucleus is essential for viral replication in infected cell. However, the role of nucleolar shuttle proteins during porcine circovirus 3 capsid protein (PCV3 Cap) import is still not understood. Here, we report a previously unidentified nucleolar localization signal (NoLS) of PCV3 Cap, which hijacks the nucleolar phosphoprotein nucleophosmin-1 (NPM1) to facilitate nucleolar localization of PCV3 Cap. The NoLS of PCV3 Cap and serine-48 residue of N-terminal oligomerization domain of NPM1 are essential for PCV3 Cap/NPM1 interaction. In addition, charge property of serine-48 residue of NPM1 is critical for nucleolar localization and interaction with PCV3 Cap. Taken together, our findings demonstrate for the first time that NPM1 interacts with PCV3 Cap and is responsible for its nucleolar localization.

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The construction and immunogenicity analyses of a recombinant pseudorabies virus with porcine circovirus type 3 capsid protein co-expression

Veterinary Microbiology ◽

10.1016/j.vetmic.2021.109283 ◽

2021 ◽

pp. 109283

Author(s):

Lun Yao ◽

Yufang Cheng ◽

Hao Wu ◽

Ahmed. H. Ghonaim ◽

Shengxian Fan ◽

...

Keyword(s):

Capsid Protein ◽

Pseudorabies Virus ◽

Porcine Circovirus Type ◽

Porcine Circovirus ◽

Recombinant Pseudorabies Virus ◽

Type 3

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Two Amino Acid Mutations in the Capsid Protein of Type 2 Porcine Circovirus (PCV2) Enhanced PCV2 Replication In Vitro and Attenuated the Virus In Vivo

Journal of Virology ◽

10.1128/jvi.78.24.13440-13446.2004 ◽

2004 ◽

Vol 78 (24) ◽

pp. 13440-13446 ◽

Cited By ~ 78

Author(s):

M. Fenaux ◽

T. Opriessnig ◽

P. G. Halbur ◽

F. Elvinger ◽

X. J. Meng

Keyword(s):

Capsid Protein ◽

Vaccine Development ◽

Porcine Circovirus Type ◽

Postweaning Multisystemic Wasting Syndrome ◽

Porcine Circovirus ◽

Entire Genome ◽

Wasting Syndrome

ABSTRACT Porcine circovirus type 2 (PCV2) is the primary causative agent of postweaning multisystemic wasting syndrome (PMWS) in pigs. To identify potential genetic determinants for virulence and replication, we serially passaged a PCV2 isolate 120 times in PK-15 cells. The viruses harvested at virus passages 1 (VP1) and 120 (VP120) were biologically, genetically, and experimentally characterized. The PCV2 VP120 virus replicated in PK-15 cells to a titer similar to that of the PK-15 cell line-derived nonpathogenic PCV1 but replicated more efficiently than PCV2 VP1 with a difference of about 1 log unit in the titers. The complete genomic sequences of viruses at passages 0, 30, 60, 90, and 120 were determined. After 120 passages, only two nucleotide mutations were identified in the entire genome, and both were located in the capsid gene: the mutations were located at nucleotide positions 328 (C328G) and 573 (A573C). The C328G mutation, in which a proline at position 110 of the capsid protein changed to an alanine (P110A), occurred at passage 30 and remained in the subsequent passages. The second mutation, A573C, resulting in a change from an arginine to a serine at position 191 (R191S), appeared at passage 120. To experimentally characterize the VP120 virus, 31 specific-pathogen-free pigs were randomly divided into three groups. Ten pigs in group 1 received phosphate-buffered saline as negative controls. Each pig in group 2 (11 pigs) was inoculated intramuscularly and intranasally with 104.9 50% tissue culture infective doses (TCID50) of PCV2 VP120. Each pig in group 3 (10 pigs) was similarly inoculated with 104.9 TCID50 of PCV2 VP1. Viremia was detected in 9 of 10 pigs in the PCV2 VP1 group with a mean duration of 3 weeks, but in only 4 of 11 pigs in the PCV2 VP120 group with a mean duration of 1.6 weeks. The PCV2 genomic copy numbers in serum in the PCV2 VP1 group were significantly higher than those in the PCV2 VP120 group (P < 0.0001). Gross and histopathologic lesions in pigs inoculated with PCV2 VP1 were more severe than those inoculated with PCV2 VP120 at both day 21 and 42 necropsies (P = 0.0032 and P = 0.0274, respectively). Taken together, the results from this study indicated that the P110A and R191S mutations in the capsid of PCV2 enhanced the growth ability of PCV2 in vitro and attenuated the virus in vivo. This finding has important implications for PCV2 vaccine development.

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