Wild-type rotavirus infection leads to significant mucosal inflammation and although this inflammatory response is not fully characterised in humans, there is evidence that at least interferon-γ is Pexidartinib cell line implicated in the systemic response [20]. In cell culture models using rat and human cells, TNFα, IFN-β and IL-6 were induced by rotavirus dsRNA [21]. In animal models, an early IL-8 response is seen [22]. Our data are surprising in as much as the IL-8 response was delayed, appearing to rise from an initial down-regulation, for up to 7 days. The participants we enrolled were drawn from a community
cohort study where most HIV infected adults have been offered, and agree to, monitoring in an HIV treatment programme, and take HAART where necessary. Only 6 of our participants had CD4 counts below 200 cells/μl, all of whom had experienced a rapid drop in CD4 count from their previous clinic visit. Thus we cannot be inhibitors confident that these vaccines are safe in adults with severe immunodeficiency (although the bacterial strains are sensitive to ciprofloxacin and could be easily treated if symptoms develop). For certain infections, parenteral vaccines are available (such as the Vi polysaccharide vaccine for typhoid) or oral killed vaccines (such as the killed whole-cell cholera vaccine which has been shown to be
safe in an outbreak in Mozambique [23]). However, oral administration of live, attenuated vaccines combines the advantage of ease of administration on a large scale with GSK-3 phosphorylation good immunogenicity, at least over 2–3 years, and these vaccines remain attractive for further development. While our findings need to be confirmed in larger studies, they do suggest that safety may not be an obstacle to exploiting the potential for oral vaccination in southern Africa, and we do not support the view [9] that live oral vaccines
should be withheld from all HIV-infected adults. However, further else studies are needed of vaccine safety in severely immunocompromised adults and children. The authors have no commercial or other associations which might pose a conflict of interest. The funding agency played no part in the collection of data, analysis, or preparation of the manuscript. The authors are grateful to Webby Mbuzi and Michelo Simuyandi for laboratory work, and to the other members of the clinical team for vaccine administration and follow up: Stayner Mwanamakondo and Rose Soko. Financial support: Financial support was obtained from the Wellcome Trust, UK [grant number 067948]. “
“Pancreas disease (PD) in Atlantic salmon (Salmo salar) and rainbow trout (Oncorhynchus mykiss) is caused by strains of the Salmon Pancreas Disease virus (family Togaviridae), commonly named Salmonid alphavirus (SAV) [1] and [2]. The disease has been reported from farmed fish in most European countries that farm salmonids [3].