Immunity after natural exposure to enteric canine coronavirus does not provide complete protection against infection with the new pantropic CB/05 strain.

Recently, an outbreak of fatal infection caused by a pantropic variant (strain CB/05) of canine coronavirus (CCoV) has been reported. In this study, evidence is provided that immunity induced by natural exposure to enteric CCoV is not fully protective against strain CB/05. Twenty-two, 10-week-old beagles with a recent natural infection by enteric CCoV were randomly distributed in two experimental groups of eight (groups A and B) and one control group of six (group C) dogs. Dogs in groups A and B were inoculated oronasally with different doses (4 x 10(5) or 4 x 10(3)TCID(50)) of the pantropic strain CB/05, whereas dogs in group C were used as negative controls. Clinical, post-mortem and virological investigations showed that, despite the high serum antibody titres induced by the prior natural infection with enteric CCoV, dogs were susceptible to experimental infection with strain CB/05. This was shown by the occurrence of faecal shedding, and dogs displaying moderate clinical signs, mainly vomiting and diarrhoea. Involvement of the lymphoid tissues was evident as demonstrated by the acute lymphopenia (below 70% of the initial counts), gross lesions in spleen and lymph nodes and detection of CB/05 RNA in thymus, spleen and lymph nodes of some infected dogs. The presence of viral RNA in lymphoid tissues was observed only in dogs euthanised in the early stages of infection and the clinical course of the infection was unrelated to the viral dose administered. The present study demonstrates that strain CB/05 is able to induce infection and disease in dogs seropositive to enteric CCoV, thus highlighting the need for extensive epidemiological investigation and for the possible development of novel antigenically relevant vaccines.

DNA vaccination can protect Cyprinus Carpio against spring viraemia of carp virus.

Several DNA constructs containing the spring viraemia of carp virus (SVCV) glycoprotein (G) gene were investigated for their ability to induce protection against SVCV following injection into myofibres. The constructs were pooled into four groups and co-injected with a plasmid encoding murine granulocyte-macrophage colony-stimulating factor. Group 1 contained one full-length and two truncated G constructs under the control of the cytomegalovirus (CMV) promoter. Group 2 contained full-length constructs with the CMV promoter, the simian virus 40 promoter and a muscle-specific promoter. Group 3 contained constructs in which the G-gene was fused with a second gene in order to improve secretion of the G-protein or to enhance destruction of transfected myocytes by T cells. Group 4 contained constructs with the CMV-Intron A promoter in plasmids with or without CpG motifs. A small-scale trial in goldfish showed that antibody responses in at least half the fish were induced by three injections of plasmids from Groups 1 and 3 whereas T-cell like responses with stimulation indices of above 3 were induced in at least half the fish by Groups 2 and 4. A single-dose of each plasmid mix was then used to protect carp in a large-scale trial. Following challenge with a heterologous strain of SVCV that killed 64% of fish, the strongest protection was observed in carp that received the full length G-gene expressed by two plasmids driven by the CMV-Intron A promoter (Group 4), with a relative percentage survival of 48% (p=0.00008).

Cationic polymers that enhance the performance of HbsAg DNA in vivo.

In this paper, different cationic polymers were investigated as a DNA delivery system both in vitro in dendritic and muscle cells and in vivo, in a murine model. Expression of the reporter gene beta-galactosidase was used in order to determine the in vitro transfection efficiency of these polymer-DNA complexes (polyplexes) and both specific mRNA and protein expression were monitored in parallel with polyplex toxicity on the cells. Interestingly, the enhancing expression activities of the different polyplexes were tissue-dependent, implying that they may gain entrance to the cells through specific receptors. Subsequently, complexes of polymers and DNA plasmid (pCMV-S) encoding the human hepatitis B virus (HBV) surface antigen (HBsAg) were injected into the skeletal muscles of BALB/c mice. Higher levels of both HBsAg local expression in the tibial anterior muscles and systemic humoral immune responses were detected when the selected polymers complexed with pCMV-S were compared to those complexed with pCMV-S alone. Induction of immunoglobulin G2a (IgG2a) against HbsAg in the serum of pCMV-S-polyplex vaccinated mice varied with the polymer used, suggesting that polyplex-mediated DNA vaccination can potentially modulate the type of helper T cell immunity (Th). The effect of some polyplexes to switch the host immune response more towards a Th1 response may be associated with their differential efficiency to transfect dendritic cells and/or other antigen-presenting cells (APC) as was observed in vitro. These results suggest that the investigated cationic polymers can be effective as delivery/adjuvant compounds for DNA.