Abstract
BackgroundCanine circovirus is a deadly pathogen of dogs and causes vasculitis and hemorrhagic enteritis. It causes lethal gastroenteritis in pigs, fox, and dogs. Canine circovirus genome contains two main (and opposite) transcription units which encode two open reading frames (ORFs), a replicase-associated protein (Rep) and the capsid (Cap) protein. The replicase protein and capsid protein consist of 303 amino acids and 270 amino acids respectively. Several immuno-informatics methods such as epitope screening, molecular docking, and molecular-dynamics simulations were used to craft peptide-based vaccine construct against canine circovirus. ResultsThe vaccine construct was designed by joining the selected epitopes with adjuvants by suitable linker. The cloning and expression of the vaccine construct was also performed using in silico methods. Screening of epitopes was conducted by NetMHC server that uses ANN (Artificial neural networking) algorithm. These methods are fast and cost-effective for screening epitopes that can interact with dog leukocyte antigens (DLA) and initiate an immune response. Overall, 5 epitopes, YQHLPPFRF, YIRAKWINW, ALYRRLTLI, HLQGFVNLK, and GTMNFVARR, were selected and used to design a vaccine construct. The molecular docking and molecular dynamics simulation studies show that these epitopes can bind with DLA molecules with stability. The codon adaptation and in silico cloning studies show that the vaccine can be expressed by Escherichia coli K12 strain. ConclusionThe results suggest that the vaccine construct can be useful in preventing the dogs from canine circovirus infections. However, the results need further validation by performing other in vitro and in vivo experiments.
Highlights
Canine circovirus is a deadly pathogen of dogs and causes vasculitis and hemorrhagic enteritis
Predicted epitopes and dog leukocyte antigen (DLA) structure NetMHCpan 4.1 server was deployed to find out interacting epitopes; lowest values were preferred while selecting epitopes based on prediction scores
For viral replicase 294 epitopes interacting with each DLA, the allele was identified, while for viral capsid protein 261 epitopes interacting with each DLA allele were identified
Summary
Canine circovirus is a deadly pathogen of dogs and causes vasculitis and hemorrhagic enteritis. In this study, a multi epitope vaccine construct has been designed against canine circovirus by targeting their replicase and capsid proteins via in silico approach As, these proteins are highly conserved, are involved in viral pathogenesis, and can help to generate immune response, they can be a good target for identifying epitopes that could be used to design a vaccine construct which can help protect the dog population from potentially lethal canine circovirus infections [13,14,15]. This vaccine construct could be beneficial in protecting the dogs from canine circovirus infections
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