Ananya Ghosal, MAKAUT (WB)
Porcine epidemic diarrhoea virus (PEDV) is a highly infectious virus and has a high mortality rate in neonates. A vaccine’s goal is to co-assemble Nomo trimer spikes on PEDV membranes to enable host cell entry. The PEDV S protein’s immunogenicity in mice assessed using a silkworm-baculovirus expression vector system. Trimerized S protein contains strong humoral immunity includes the S protein-specific IgG in the serum. Virus-neutralized antibodies in the serum protect Vero cells from infection. Thus, BEVS facilitates the production of trimeric S protein, which is a good vaccine against Coronavirus.
What is PEDV?
Porcine Epidemic Diarrhoea Virus (PEDV) causes vomiting, watery diarrhoea, dehydration, and a high mortality rate in neonatal pigs. The PEDV belongs to the alpha coronavirus family and has a single positive-stranded RNA genome. It contains four major structural proteins: spike protein (S), envelop protein (E), nucleocapsid protein (N) and membrane protein (M). S protein is a highly glycosylated protein consisting of S1 and S2 domains forming homotrimer. The binding of the different receptors of coronavirus by the use of S1 domain like N: APN. The N terminal domain of the S protein is specific to the alpha coronavirus genus, which plays a role in PEDV infection in the intestines, the second candidate region binds sialic acid-specific to the intestines. However, in the N terminal region of the S2, many linear neutralizing epitopes can be found. By administering a recombinant S1 protein produced by cultured porcine cells, pregnant cows can be protected from PEDV infection by passive immunity. A complex, regular protein structure produces a strong immunity, such as VLPs. The native Coronavirus S protein forms a trimer as a result of structural stabilization, leading to stronger immunity.
Immunogenic study of the S protein
Vaccination of pigs is the best strategy for the prevention of PEDV. By genetically fusing silkworm-BEVS and CMP trimeric sequences, the PEDV-S protein is highly immunogenic. CMP improves protein expression in silkworm larvae compared to S ectodomain. In mice, generation of sera administered by S protein-specific IgG trimerized PEDVs protein and neutralizing antibodies. Purification of antigenic Porcine Epidemic Diarrhoea Viruses protein trimer contains both S1 and S2 domain of silkworm serum. BEVS expresses a full-length S protein, including a transmembrane domain, in a commercial silkworm F1 hybrid. Piglets were not immune to PEDV by administering pupa orally. Rather than this, S1 protein shows far fewer neutralizing antibodies than S protein as a whole. Neutralizing antibodies against Porcine Epidemic Diarrhoea Virus using this protein induces a high level of the S protein. In silkworm larvae, improved PEDV spike protein expression was seen when the CMP trimerization motif was fused to a suitable silkworm strain. An immunization experiment on mice proved the immunogenicity of the S protein, producing sufficient neutralizing antibodies. The suggestion is that the oligomeric silkworm protein A protein can be a promising candidate as a subunit vaccine against PEDV.
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Source: Masuda, A., Lee, J.M., Miyata, T. et al. Stable trimer formation of spike protein from porcine epidemic diarrhoea virus improves the efficiency of secretory production in silkworms and induces neutralizing antibodies in mice. Vet Res 52, 102 (2021). https://doi.org/10.1186/s13567-021-00971-5
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