Vibrio parahaemolyticus en los productos marinos

Vibrio parahaemolyticus es la principal causa a nivel mundial de enfermedades diarreicas transmitidas por los alimentos de origen marino. Los factores de virulencia han sido profundamente estudiados pero siguen existiendo muchas dudas acerca de su rol en la patogenicidad y en los desencadenantes que determinan su activación. Se sabe que los factores climáticos y ambientales influyen en el desarrollo de la patogenicidad así como en su expansión a lugares donde previamente no se habían reportado casos. De hecho, el calentamiento global asociado al cambio climático se ha relacionado con dicha expansión. La aparición de cepas multirresistentes a antibióticos de uso habitual en medicina humana acompañado de la expansión global mencionada, ha levantado un mayor interés a nivel mundial en la vigilancia epidemiológica de su distribución y en el estudio y desarrollo de diferentes estrategias para su prevención y control.Abstract. Vibrio parahaemolyticus is the major cause of seafood-borne diarrheal disease in humans worldwide. The virulence factors have been thoroughly studied although many doubts remain about their role in pathogenicity and in the mechanisms that determine their activation. It is known that climatic and environmental factors influence the development of pathogenicity as well as its spread to places where previously no cases have been reported. In fact, global warming associated with climate change has been associated to this expansion. The emergence of multiresistant strains of antibiotics commonly used in human medicine accompanied by the global expansion mentioned, has raised greater interest worldwide in epidemiological surveillance of their distribution and in the study and development of different strategies for their prevention and control

Cross-species infectivity of H3N8 influenza virus in an experimental infection in swine

Avian influenza A viruses have gained increasing attention due to their ability to cross the species barrier and cause severe disease in humans and other mammal species as pigs. H3 and particularly H3N8 viruses, are highly adaptive since they are found in multiple avian and mammal hosts. H3N8 viruses have not been isolated yet from humans; however, a recent report showed that equine influenza A viruses (IAVs) can be isolated from pigs, although an established infection has not been observed thus far in this host. To gain insight into the possibility of H3N8 avian IAVs to cross the species barrier into pigs, in vitro experiments and an experimental infection in pigs with four H3N8 viruses from different origins (equine, canine, avian, and seal) were performed. As a positive control, an H3N2 swine influenza virus A was used. Although equine and canine viruses hardly replicated in the respiratory systems of pigs, avian and seal viruses replicated substantially and caused detectable lesions in inoculated pigs without previous adaptation. Interestingly, antibodies against hemagglutinin could not be detected after infection by hemagglutination inhibition (HAI) test with avian and seal viruses. This phenomenon was observed not only in pigs but also in mice immunized with the same virus strains. Our data indicated that H3N8 IAVs from wild aquatic birds have the potential to cross the species barrier and establish successful infections in pigs that might spread unnoticed using the HAI test as diagnostic tool.We thank Jaime Maldonado and HIPRA (Spain) for the A/Swine/Spain/ 54008/2004 (H3N2) strain, Edward J. Dubovi and Cornell University for the A/Canine/NY/105447/08 (H3N8) IAV strain, T. M. Chambers and the University of Kentucky for the A/Equine/OH/1/03 (H3N8) IAV strain, and Hon Ip and the U.S. Geological Survey National Wildlife Health Center for the A/American black duck/Maine/44411-532/2008 (H3N8) and the A/Harbor Seal/New Hampshire/179629/2011 (H3N8) IAV strains. We thank Sergio López, David Solanes, Francisco X. Abad, Jordi Alberola, Jaume Martorell, and Eduard J. Cunilleras for help in providing different samples and during the experimental infections, as well as the personnel in Cat3 laboratories and the animal house. We thank Adolfo García-Sastre for providing materials and for support as the principal investigator of the NIAID-funded Center for Research in Influenza Pathogenesis (HHSN266200700010C). The research leading to these results received funding from the European Community’s Seventh Framework Programme (FP7, 2007-2013), the Research Infrastructures Action under grant FP7-228393 (a NADIR project), and projects AGL2010-22200-C02-01 and AGL2007-60274 of the Spanish Ministry of Science and Innovation

Cross-species infectivity of H3N8 influenza virus in an experimental infection in swine

Avian influenza A viruses have gained increasing attention due to their ability to cross the species barrier and cause severe disease in humans and other mammal species as pigs. H3 and particularly H3N8 viruses, are highly adaptive since they are found in multiple avian and mammal hosts. H3N8 viruses have not been isolated yet from humans; however, a recent report showed that equine influenza A viruses (IAVs) can be isolated from pigs, although an established infection has not been observed thus far in this host. To gain insight into the possibility of H3N8 avian IAVs to cross the species barrier into pigs, in vitro experiments and an experimental infection in pigs with four H3N8 viruses from different origins (equine, canine, avian, and seal) were performed. As a positive control, an H3N2 swine influenza virus A was used. Although equine and canine viruses hardly replicated in the respiratory systems of pigs, avian and seal viruses replicated substantially and caused detectable lesions in inoculated pigs without previous adaptation. Interestingly, antibodies against hemagglutinin could not be detected after infection by hemagglutination inhibition (HAI) test with avian and seal viruses. This phenomenon was observed not only in pigs but also in mice immunized with the same virus strains. Our data indicated that H3N8 IAVs from wild aquatic birds have the potential to cross the species barrier and establish successful infections in pigs that might spread unnoticed using the HAI test as diagnostic tool