Kim Shin-Hee, Paldurai Anandan, Xiao Sa, Collins Peter L, Samal Siba K
Virginia-Maryland Regional College of Veterinary Medicine, University of Maryland, 8075 Greenmead Drive, College Park, MD, United States.
Laboratory of Infectious Diseases, National Institute of Allergy and Infectious Diseases, Bethesda, MD, United States.
Vaccine. 2014 Jul 31;32(35):4428-4435. doi: 10.1016/j.vaccine.2014.06.061. Epub 2014 Jun 23.
Naturally-occurring attenuated strains of Newcastle disease virus (NDV) are being developed as vaccine vectors for use in poultry and humans. However, some NDV strains, such as Beaudette C (BC), may retain too much virulence in poultry for safe use, and more highly attenuated strains may be suboptimally immunogenic. We therefore modified the BC strain by changing the multibasic cleavage site sequence of the F protein to the dibasic sequence of avirulent strain LaSota. Additionally, the BC, F, and HN proteins were modified in several ways to enhance virus replication. These modified BC-derived vectors and the LaSota strain were engineered to express the hemagglutin (HA) protein of H5N1 highly pathogenic influenza virus (HPAIV). In general, the modified BC-based vectors expressing HA replicated better than LaSota/HA, and expressed higher levels of HA protein. Pathogenicity tests indicated that all the modified viruses were highly attenuated in chickens. Based on in vitro characterization, two of the modified BC vectors were chosen for evaluation in chickens as vaccine vectors against H5N1 HPAIV A/Vietnam/1203/04. Immunization of chickens with rNDV vector vaccines followed by challenge with HPAIV demonstrated high levels of protection against clinical disease and mortality. However, only those chickens immunized with modified BC/HA in which residues 271-330 from the F protein had been replaced with the corresponding sequence from the NDV AKO strain conferred complete protection against challenge virus shedding. Our findings suggest that this modified rNDV can be used safely as a vaccine vector with enhanced replication, expression, and protective efficacy in avian species, and potentially in humans.
新城疫病毒(NDV)的天然减毒株正被开发用作家禽和人类的疫苗载体。然而,一些NDV毒株,如博德特C株(BC),在家禽中可能保留过多毒力而无法安全使用,而减毒程度更高的毒株免疫原性可能欠佳。因此,我们通过将F蛋白的多碱性裂解位点序列改变为无毒力的LaSota株的双碱性序列来改造BC株。此外,还对BC、F和HN蛋白进行了多种修饰以增强病毒复制。这些改造后的源自BC的载体和LaSota株被设计用于表达H5N1高致病性禽流感病毒(HPAIV)的血凝素(HA)蛋白。总体而言,表达HA的改造后的基于BC的载体比LaSota/HA复制得更好,且表达的HA蛋白水平更高。致病性试验表明,所有改造后的病毒在鸡中均高度减毒。基于体外特性分析,选择了两种改造后的BC载体在鸡中作为针对H5N1 HPAIV A/越南/1203/04的疫苗载体进行评估。用重组NDV载体疫苗免疫鸡后再用HPAIV攻毒,结果显示对临床疾病和死亡率具有高水平的保护作用。然而,只有那些用F蛋白271 - 330位残基被NDV AKO株相应序列取代的改造后的BC/HA免疫的鸡,才对攻毒病毒的排出具有完全的保护作用。我们的研究结果表明,这种改造后的重组NDV可以安全地用作疫苗载体,在禽类中具有增强的复制、表达和保护效力,并且可能在人类中也适用。
