豬環狀病毒第二型外殼蛋白 Cap 之結構與功能分析

Abstract

Porcine circovirus type 2 (PCV2) is considered to be associated with post-weaning multisystemic wasting syndrome (PMWS), which is a newly emerged economically important swine disease. The entire coding region of open reading frame 2 (ORF2), encoding the viral capsid protein (Cap), of PCV2 was cloned and sequenced from the clinical specimen obtained from PMWS-affected piglets. Six recombinant subunits, A–F, spanning the defined regions of Cap were produced by Escherichia coli (E. coli) expression system and used as antigens for testing their reactivities with swine sera in the indirect enzyme-linked immunosorbent assay (indirect ELISA). The recombinant Cap subunit-based ELISA was evaluated by examining a panel of 12 PCV2-negative and 26 PCV2-positive sera. When the positive/negative cut-off value was set at the mean value of negative sera plus 3 standard deviations, all subunits-based ELISA demonstrated 100% specificities. The N-terminal subunits, A and B, revealed poor reactivity with positive swine sera, whereas, greater immunoreactivity was observed for the C-terminal subunits of which subunits C and D demonstrated good sensitivities of 96.2% and 84.6%, respectively. The recombinant Cap subunits possessing defined antigenicity are easy to produce and the subunit-based ELISA was developed with a high specificity and sensitivity that may provide a useful method for routine serodiagnosis of PCV2 infection. Moreover, the sole structural capsid protein of PCV2, Cap, consists of major antigenic domains, but little is known about the assembly of capsid particles. The purpose of this study is to produce a large amount of Cap protein using E. coli expression system for further studying the essential sequences contributing to formation of particles. By using codon optimization of rare arginine codons near the 5′-end of the ORF2 gene for E. coli, a full-length Cap without any fusion tag recombinant protein (Cap1-233) was expressed and proceeded to form virus-like particles (VLPs) in normal Cap appearance that resembled the authentic PCV2 capsid. The N-terminal deletion mutant (Cap51-233) deleted the nuclear localization signal (NLS) domain, while the internal deletion mutant (CapΔ51-103) deleted a likely dimerization domain that failed to form VLPs. The unique Cys108 substitution mutant (CapC/S) exhibited most irregular aggregates, and only few VLPs were formed. These results suggest that the N-terminal region within the residues 1 to 103 possessing the NLS and dimerization domains are essential for self-assembly of stable Cap VLPs, and the unique Cys108 plays an important role in the integrity of VLPs. The immunogenicity of PCV2 VLPs was further evaluated by immunization of pigs followed by challenge infection. The Cap1-233-immunized pigs demonstrated specific antibody immune responses and are prevented from PCV2 challenge, thus implying its potential use for a VLP-based PCV2 vaccine.