Efficacy of a turkey herpesvirus double construct vaccine (HVT-ND-IBD) against challenge with different strains of Newcastle disease, infectious bursal disease and Marek's disease viruses.

A double construct vaccine of turkey herpesvirus (HVT) was prepared that contains the fusion (F) gene from Newcastle disease virus (NDV) and the viral protein 2 (VP2) gene from infectious bursal disease virus (IBDV). Safety of the vaccine (HVT-ND-IBD) was confirmed and efficacy was evaluated after subcutaneous (SC) vaccination at 1 day of age or the in ovo route of vaccination. Challenges were performed with velogenic NDV strains (Texas GB and Herts Weybridge 33/56), with different strains of IBDV (classical strain STC; very virulent strain CS89 and variant E strain) and with Marek's disease virus (MDV) strain RB1B. Vaccination with HVT-ND-IBD induced a high level of protection against these challenges. Vaccination with HVT is often combined with Rispens CVI988 vaccine and live ND vaccines for higher and earlier, MD and ND protection, respectively. HVT-ND-IBD vaccination in combination with these vaccines showed MD protection as early as 4 days post vaccination and ND protection as early as 2 weeks post vaccination. The long protection as seen with HVT vaccination was confirmed by demonstrating protection against NDV up to 60 weeks. Finally, to evaluate the performance of the vaccine in commercial birds with maternally-derived antibodies, two field trials were performed, using in ovo vaccination in broilers and SC vaccination in combination with Rispens CVI988 vaccine in layer-type birds. The efficacy was confirmed for all components by challenges. These results demonstrate that HVT-ND-IBD is a safe and highly efficacious vaccine for simultaneous control of ND, IBD and MD. RESEARCH HIGHLIGHTS A double construct HVT vaccine with the NDV F and the IBDV VP2 genes was prepared. The vaccine protects against three important diseases: MDV, NDV and IBDV. In ovo and sub-cutaneous vaccination was evaluated in the field in commercial chickens.

A broad spectrum HVT-H5 avian influenza vector vaccine which induces a rapid onset of immunity.

Current methods to combat highly pathogenic avian influenza (HPAI) outbreaks in poultry rely on stamping out and preventive culling, which can lead to high economic losses and invoke ethical resistance. Emergency vaccination could be an alternative as vaccination is one of the most efficient and cost-effective measures to protect poultry from HPAI infection, preventing spreading to other poultry and greatly reducing the potential transmission to humans. Current conventional inactivated AI vaccines may be useful for combating AI outbreaks, but do not fulfil all targets of an ideal AI vaccine, including mass applicability and rapid onset of immunity. We aimed to further investigate the potential of Herpesvirus of Turkeys (HVT) as a vector containing a recombinant H5 hemagglutinin of HPAI H5N1. This HVT-H5 vector was analysed in vitro, tested for onset of immunity against AI challenge, breadth of protection, reduction of virus shedding, and induction of both antibody and cellular responses in SPF layers or broiler chicks containing maternal derived antibodies (MDA+). In SPF layers HVT-H5 provided full protection to lethal challenges with 4 antigenically diverse HPAI H5N1 strains from 2 weeks post vaccination (w.p.v.), while in MDA+ birds full protection was provided from 3 w.p.v. to homologous challenge. Also shedding of challenge virus was reduced in both SPF and MDA+ birds. HVT-H5 induced a protective HI titre (≥4) to 11 HPAI H5N1 strains at 3 w.p.v. in 3-week-old SPF layers and to HPAI H5N8 A/ch/Neth/14015531/2014. Besides inducing a protective antibody response HVT-H5 also induced an influenza-specific T cell response. This data demonstrates that HVT-H5 vaccine appears to fulfil many of the criteria for an ideal AI vaccine including early onset of immunity, a broad protection, reduced virus shedding, protection in presence of AI-MDA and could be a useful tool in the combat of AI outbreaks worldwide.