Relationship Between Values of Fowlpox ELISA and the Presence of "Takes" After Vaccination.

Values from an ELISA for evaluating the immune response induced by a commercial vaccine against fowlpox virus and the lesion at the site of inoculation (i.e., swelling of the skin or a pox where the vaccine was applied) were compared. The ELISA was carried out with an antigen prepared by precipitation of a cell culture-propagated virus suspension with ammonium sulfate and concentration by centrifugation. A 0.1 M acetate buffer (pH 5) was used as the sensitizing solution for maximum specific binding of the antigen to the microplate plastic well. Four experiments were conducted where the birds were bled once a week before and after vaccination and then were examined simultaneously for evidence of "takes." This study showed that there is a relationship between the ELISA values to the fowlpox vaccine that are considered positive and the presence of postvaccination lesions.

Protection against H7N3 high pathogenicity avian influenza in chickens immunized with a recombinant fowlpox and an inactivated avian influenza vaccines.

Beginning on June 2012, an H7N3 highly pathogenic avian influenza (HPAI) epizootic was reported in the State of Jalisco (Mexico), with some 22.4 million chickens that died, were slaughtered on affected farms or were preemptively culled on neighboring farms. In the current study, layer chickens were vaccinated with a recombinant fowlpox virus vaccine containing a low pathogenic AI (LPAI) H7 gene insert (rFPV-H7-AIV) and an inactivated oil-emulsified H7N3 AIV vaccine, and subsequently challenged against the Jalisco H7N3 HPAIV. All vaccine combinations provided similar and significant protection against mortality, morbidity, and shedding of challenge virus from the respiratory and gastrointestinal tracts. Serological data also suggested analogous protection from HPAIV among immunized birds. Control of the recent Jalisco AIV infection could be achieved by using various combinations of the two vaccines tested. Even though a single dose of rFPV-H7-AIV vaccine at 1-day-of-age would be the most pragmatic option, optimal protection may require a second dose of vaccine administered in the field.

Characterization and efficacy determination of commercially available Central American H5N2 avian influenza vaccines for poultry.

A poultry vaccination program was implemented in Central America beginning in January 1995 to control both H5N2 low (LPAI) and high pathogenicity avian influenza. This study was conducted to identify seed strain composition and the efficacy of 10 commercially available H5 vaccines against challenge with H5N2 LPAI viruses isolated from Latin America in 2003. The original 1994 vaccine seed virus in commercial inactivated vaccines did not significantly reduce challenge virus shed titers. However, two seed strains of inactivated vaccines, genetically more closely related to the challenge virus, did significantly reduce titers of challenge virus shed from respiratory tract. In addition, a live recombinant fowlpox virus vaccine containing a more distantly related Eurasian lineage H5 gene insert significantly reduced respiratory shedding as compared to sham vaccinates. These results demonstrate the feasibility of identifying vaccine seed strains in commercial finished products for regulatory verification and the need for periodic challenge testing against current field strains in order to select efficacious vaccine seed strains.

Immunization with a recombinant fowlpox virus expressing a hepatitis C virus core-E1 polyprotein variant, protects mice and African green monkeys (Chlorocebus aethiops sabaeus) against challenge with a surrogate vaccinia virus.

HCV (hepatitis C virus) is a worldwide health problem nowadays. No preventive vaccine is available against this pathogen, and therapeutic treatments currently in use have important drawbacks, including limited efficacy. In the present work a recombinant fowlpox virus, FPCoE1, expressing a truncated HCV core-E1 polyprotein, was generated. FPCoE1 virus generally failed to elicit a humoral immune response against HCV antigens in BALB/c mice. By contrast, mice inoculated with FPCoE1 elicited a positive interferon-gamma secretion response against HCV core in ex-vivo ELISPOT (enzyme-linked immunospot) assays. Remarkably, mice inoculated with FPCoE1 significantly controlled viraemia in a surrogate challenge model with vvRE, a recombinant vaccinia virus expressing HCV structural antigens. In fact, 40% of the mice had no detectable levels of vvRE in their ovaries. Administration of FPCoE1 in vervet monkeys [Chlorocebus (formerly Cercophitecus) aethiops sabaeus] induced lymphoproliferative response against HCV core and E1 proteins in 50% of immunized animals. Monkeys immunized with FPCoE1 had no detectable levels of vvRE in their blood, whereas monkeys inoculated with FP9, the negative control virus, had detectable levels of vvRE in blood up to 7 days after challenge. In conclusion, recombinant fowlpox virus FPCoE1 is able to induce an anti-HCV immune response in mice and monkeys. This ability could be rationally employed to develop effective strategies against HCV infection by using FPCoE1 in combination with other vaccine candidates or antiviral treatments.

A vaccination strategy consisting of Semliki-Forest-virus (SFV) DNA prime and fowlpox-virus boost significantly protects mice from a recombinant (HIV-1) vaccinia-virus infection.

The use of DNA vectors based on the SFV (Semliki Forest virus) replicon have not been reported in the modality of DNA prime virus boost. In the present study, SFV DNA vectors (DNA vectors based on the SFV replicon) bearing the HIV-1 TAB9 multiepitopic polypeptide minigene were evaluated as priming DNA immunogens followed by a recombinant fowlpox expressing the TAB9 mutiepitope (FPTAB9LZ) boost. The results indicated that mice primed with pSFV(k)tab9 and boosted with FPTAB9LZ significantly decreased the HIV-1 recombinant (VVTAB13, a recombinant vaccinia virus expressing the TAB13 multiepitope) vaccinia virus replication, compared with groups given pSFV(k)tab9 vector and FPTAB9LZ virus alone. Additionally, the viral titre in ovary correlated with the number of specific gamma-interferon-secreting T-cells in spleen. These results support the possible use of SFV DNA vectors in prime-boost approaches implemented in therapeutic/prophylactic treatments for infectious diseases such as HIV-1.

Modified-vaccinia-virus-Ankara (MVA) priming and fowlpox-virus booster elicit a stronger CD8+ T-cell response in mice against an HIV-1 epitope than does a DNA/poxvirus prime-booster approach.

A prime-boost strategy combining FWPV (fowlpox virus) and the MVA (modified vaccinia virus Ankara), both expressing HIV-1 multi-V3 epitope polypeptides, was compared with a DNA-based Semliki Forest virus replicon/poxvirus approach for the induction of a CD8(+) T-cell response. Priming mice with recombinant MVA and boosting with recombinant FWPV, and not in the reverse order, increased the number of specific interferon-gamma-secreting cells in relation to the homologous combinations. Moreover, the improvement of the CD8(+) T-cell response with this combination was remarkably higher than that obtained by priming with a DNA vector containing a Semliki Forest virus replicon expressing the multi-epitope polypeptide and boosting either with recombinant MVA or FWPV. These results open a new and attractive alternative for vaccine preparation against HIV-1 using different immunogens.

Effect of promoters on cellular immune response induced by recombinant fowlpox virus expressing multi-epitope polypeptides from HIV-1.

HIV stimulates strong immune CD8(+) cytotoxic T lymphocytes (CTL) response in infected people, despite causing an immunodeficiency. It has been demonstrated that this response could be very important for the control of the virus. We have shown previously that a recombinant fowlpox virus (rFWPV), expressing the multi-epitope polypeptide (MEP) from HIV-1 TAB9, induces strong and protective Th1 and CTL responses in Balb/c mice. Here, we have studied the CTL response against MEPs TAB9 and CR3 after immunizing with rFWPVs, where these genes are under the control of a strong synthetic early/late promoter or the 7.5 kDa promoter from vaccinia virus. TAB9 expression was increased by more than 9-fold using the strong promoter, which was translated into a two times increase in CTL response. The overall expression of CR3 was already ten times higher when compared with TAB9 with the 7.5 kDa promoter, but the use of a stronger promoter showed no effect either on the expression or CTL response. Moreover, rFWPV expressing TAB9 induced a stronger CTL response than those expressing CR3, measured as the number of interferon- gamma -secreting splenocytes, in spite of its lower antigen expression levels. These results suggest that the capacity of a stronger promoter to increase the MEP expression and/or CTL response against their epitopes is highly dependent on the nature of the polypeptide used.

Induction of a strong HIV-specific CD8+ T cell response in mice using a fowlpox virus vector expressing an HIV-1 multi-CTL-epitope polypeptide.

Recombinant avipoxvirus vectors are attractive candidates for use in vaccination strategies for infections such as human immunodeficiency virus type 1 (HIV-1), where induction of a CD8+ T cell response is thought to be an important component of protective immunity. Here, we report the expression of a multiepitope polypeptide (TAB9) composed of the central 15 amino acids of the V3 loop from six different isolates of HIV-1 in a fowlpox virus (FWPV) vector, and the use of this vector (FPTAB9LZ) to induce strong HIV-specific CD8+ T cell responses in mice. In animals immunized twice intravenously with FPTAB9LZ, almost 2% of the CD8+ T cells in the spleen were shown to produce IFN-gamma in response to stimulation with HIV-1 peptides 1 week after the second immunization. The most dominant response was to the HIV-1 IIIB peptide. A strong HIV-specific response was also induced by intraperitoneal immunization of mice with FPTAB9LZ, whilst subcutaneous immunization elicited a weaker response. Intraperitoneal immunization with FPTAB9LZ was also shown to provide protection against challenge with a recombinant vaccinia virus expressing antigens, including those in TAB9. These results confirm the potential of FWPV vectors for use in HIV vaccination strategies.

Immunity to Mexican H5N2 avian influenza viruses induced by a fowl pox-H5 recombinant.

The presence of highly pathogenic H5N2 avian influenza in domestic poultry in Mexico that is not being eradicated by conventional depopulation methods constitutes an imminent problem for poultry producers and agricultural authorities in the United States. The present report considers the candidate vaccines available to H5N2 influenza virus and establishes that a fowl pox-H5 recombinant can provide protection from lethal Mexican H5N2, and prevent shedding in the feces and transmission to contact birds. Inactivated and recombinant vaccines may be useful adjuncts to eradication if the H5N2 influenza virus spreads to the United States or the countries in Central America.