Prevalence of porcine viral respiratory diseases in India

Molecular Analysis of Classical Swine Fever Virus Associated Field Infections Evidence Novel CSFV Sub Genotype in Tamil Nadu, Southern India

Classical swine fever (CSF) is an endemic and major viral infection of Indian swine husbandry, contributing to great economic losses with multiple genotypes associated with vast clinical and subclinical outcomes. Molecular detection and genotyping of CSF virus directly from field samples has great application in disease monitoring and control measures hence this study aimed to isolate and characterize CSFV genotypes circulating in southern states of India. Fifty-seven porcine post-mortem tissues (lymph nodes, spleens, livers, lungs, and kidneys) collected from pigs suspected of systemic infections and sudden death with the history of live attenuated CSF vaccination from different regions of Tamil Nadu were used in this study. An NS5B gene based CSFV specific RT-PCR screening confirmed CSFV positivity in 7% (4/57) of samples with a specific amplicon of 449 bp. Further molecular screening for other viral co-infections such as PCV2, PPV and PRRSV done by specific individual PCR assays to all the samples. Non-involvement of above screened three viral pathogens in all four field samples which showed positivity for CSFV confirming CSFV as primary pathogen. Two RT-PCR positive samples (TNI-4 and CHNL-2) selected randomly and sequenced. Aligned contig sequences of both samples were subjected to BLAST homology search and phylogentic characterization. BLAST study of TNI-4 sequence revealed 99% sequence identity with Indian CSFV sequences of genotype 1 and CHNL-2 showed 98% sequence identity with Indian CSFV sequences of genotype 2. Phylogenetic analysis of the TNI-4 and CHNL-2 sequences obtained in this study along with 38 published CSFV sequences consisting of all 5 new genotypes and 14 sub genotypes through the Maximum Likelihood tree method in MEGA 11 revealed that TNI-4 clustering together with 1.7 sub genotypes and CHNL-2 clustering together with 2.2 sub genotypes. TNI-4 and CHNL-2 partial NS5B gene sequences obtained in this study deposited in the GenBank database under accession numbers of MW822568 and MW822569 respectively. The study is the first to report CSF infections associated with the newer 1.7 sub genotype in Tamil Nadu, southern India. It is possible that vaccination could affect the genetic diversity of the CSFV through recombination and point mutations for immune evasion.

Development of CD163 receptor-based enzyme-linked immunosorbent assay for diagnosis of porcine reproductive and respiratory syndrome virus

Porcine reproductive and respiratory syndrome (PRRS) is an important economical disease in the global swine industry. The accurate detection of the PRRS virus (PRRSV) antigen is essential for the disease control and prevention programme. In this study, an indirect enzyme-linked immunosorbent test (PRRSVCD163-iELISA) was developed for the detection of the PRRSV antigen in samples of post-mortem swine tissue using the recombinant pig CD163 receptor protein as the capture ligand. The test was found to be specific for PRRSV, with no cross-reactions with other prevalent pig viral pathogens. The assay was validated by testing 217 post-mortem porcine tissue samples and the results were found to be satisfactory with a relative accuracy of 88.88%. Our assay is also quite precise, with intra- and inter-assay CVs of 6% and 10%, respectively. These findings imply that the PRRSVCD163-iELISA developed is capable of detecting the PRRSV antigen in swine post-mortem tissue samples. This research showed that porcine CD163, the PRRSV cellular receptor, can be exploited to build a diagnostic technique for the detection of PRRSV antigen.

Supplementary Information

The online version contains supplementary material available at 10.1007/s13205-022-03376-z.

Complete genome sequences of classical swine fever virus: Phylogenetic and evolutionary analyses

The classical swine fever virus (CSFV) outbreaks cause colossal losses of pigs and drastic economic impacts. The current phylogenetic CSFV groups were determined mainly based on the partial genome. Herein, 203 complete genomic sequences of CSFVs collected worldwide between 1998 and 2018 available on the GenBank database were retrieved for re-genotyping and recombination analysis. The maximum likelihood phylogenetic tree determined two main groups, GI and GII, with multiple sub-genotypes. The “strain 39” (GenBank ID: AF407339), previously identified as belonging to sub-genotypes 1.1 or 2.2 based on the partial sequences, is found to be genetically distinct and independent, forming a new lineage depicted as GI-2.2b. Ten potential natural recombination events were identified, seven of which were collected in China and found involved in the genetic diversity of CSFVs. Importantly, the vaccine strains and highly virulent strains were all involved in the recombination events, which would induce extra challenges to vaccine development. These findings alarm that attenuated vaccines should be applied with discretion and recommend using subunit vaccines in parallel with other preventive strategies for better management of CSFVs.