VA-MD College of Veterinary Medicine, University of Maryland, College Park, MD, USA.
University of Maryland Institute for Bioscience and Biotechnology Research, Rockville, MD, USA; Department of Cell Biology and Molecular Genetics, University of Maryland, College Park, MD, USA.
Vaccine. 2019 Aug 14;37(35):4956-4962. doi: 10.1016/j.vaccine.2019.07.028. Epub 2019 Jul 15.
Continuous outbreaks of highly pathogenic avian influenza (HPAI) viruses in commercial poultry have caused devastating losses to domestic poultry with a raising public health concern. The outbreaks of HPAI viruses have increased worldwide, including the North America. Therefore, vaccination has been considered as an alternative strategy for an efficient control of HPAI viruses. In this study, we aimed to generate Newcastle disease virus (NDV) vectored H7 serotype-specific vaccines by expressing the consensus sequence of the HA protein. Conventional NDV strain LaSota vector and a chimeric NDV vector containing the avian paramyxovirus type-2 F and HN protein were able to express the consensus sequence of HA protein. The protective efficacy of vaccines was evaluated in broiler chickens and in turkeys. One-day-old poults were prime immunized with the chimeric vector expressing the HA protein followed by boost immunization with LaSota vector expressing the HA protein or co-expressing the HA and NA proteins. Our vaccine candidates provided complete protection of broiler chickens from mortality and shedding of H7N8 HPAI challenge virus. Turkeys were better protected by boosting with the LaSota vector co-expressing the HA and NA proteins than the LaSota vector expressing only the HA protein. Our study demonstrated a potential use of heterologous prime and boost vaccination strategy to protect poultry against H7 HPAI viruses.
持续暴发的高致病性禽流感 (HPAI) 病毒对商业家禽造成了毁灭性的损失,同时也引起了公众对公共卫生的关注。HPAI 病毒的暴发在全球范围内有所增加,包括北美地区。因此,疫苗接种已被视为控制 HPAI 病毒的一种有效替代策略。在本研究中,我们旨在通过表达 HA 蛋白的共识序列来生成针对 NDV 载体的 H7 血清型特异性疫苗。传统的 NDV 株 LaSota 载体和含有禽副粘病毒 2 型 F 和 HN 蛋白的嵌合 NDV 载体能够表达 HA 蛋白的共识序列。在肉鸡和火鸡中评估了疫苗的保护效力。一日龄雏鸡用表达 HA 蛋白的嵌合载体进行基础免疫,然后用表达 HA 蛋白或同时表达 HA 和 NA 蛋白的 LaSota 载体进行加强免疫。我们的候选疫苗能够完全保护肉鸡免受 H7N8 HPAI 挑战病毒的致死和脱落。与仅表达 HA 蛋白的 LaSota 载体相比,用同时表达 HA 和 NA 蛋白的 LaSota 载体加强免疫能更好地保护火鸡。本研究表明,异源基础和加强免疫接种策略有潜力用于保护家禽免受 H7 HPAI 病毒的侵害。
