Update on Senecavirus Infection in Pigs.

Senecavirus A (SVA) is a positive-sense single-stranded RNA virus that belongs to the Senecavirus genus within the Picornaviridae family. The virus has been silently circulating in pig herds of the USA since 1988. However, cases of senecavirus-associated vesicular disease were reported in Canada in 2007 and in the USA in 2012. Since late 2014 and early 2015, an increasing number of senecavirus outbreaks have been reported in pigs in different producing categories, with this virus being detected in Brazil, China, and Thailand. Considering the novel available data on senecavirus infection and disease, 2015 may be a divisor in the epidemiology of the virus. Among the aspects that reinforce this hypothesis are the geographical distribution of the virus, the affected pig-producing categories, clinical signs associated with the infection, and disease severity. This review presents the current knowledge regarding the senecavirus infection and disease, especially in the last two years. Senecavirus epidemiology, pathogenic potential, host immunological response, diagnosis, and prophylaxis and control measures are addressed. Perspectives are focused on the need for complete evolutionary, epidemiological and pathogenic data and the capability for an immediate diagnosis of senecavirus infection. The health risks inherent in the swine industry cannot be neglected.

Behavior of intertypic recombinants between virulent and attenuated aphthovirus strains in tissue culture and cattle.

Two aphthovirus intertypic recombinants between the virulent strain A Venceslau and guanidine-resistant attenuated mutants of either strain C3 Resende or O1 Campos were obtained in an attempt to establish the region(s) of the viral genome responsible for attenuation in cattle. Recombinants that inherited the 3' half of the genome from either attenuated parent and the 5' half from the virulent strain were selected and analyzed with respect to their ability to grow in cells of bovine origin and for their virulence in cattle. The results obtained support our previous conclusion, derived from studies with homotypic recombinants between attenuated aphthovirus type O1 and its original virulent strain, that the host range restriction phenotype for fetal bovine kidney cells of the attenuated strain is inherited from the 3' half of the genome. For the intertypic recombinants, however, this restriction is enhanced, presumably by the presence of a heterologous 5' half of the genomic region. In addition, we demonstrate that the results in vitro correlate with those of virulence tests in cattle.