Optimized properties of live vaccine influenza reassortant strains obtained by reverse genetics

N. Larionova, I. Kiseleva, E. Bazhenova, E. Stepanova, L. G. Rudenko
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Abstract

Classical reassortment in developing chicken eggs is a well-established technique for obtaining LAIV strains. Naturally generated reassortant vaccine strains are characterized by high reproductive capacity, genetically stable characteristics of temperature sensitivity and cold resistance, which correspond to the characteristics of the MDV involved in crossing with the epidemic virus. Along with antigenic relevance, natural reassortment ensures attenuation of vaccine strains, good reproduction capacity in upper respiratory tract cells and inability to reproduction in the lower respiratory tract. With classical reassortment, the speed and efficiency of obtaining vaccine reassortants largely depend on the properties of epidemic virus, and therefore cannot be stable. The potential of reverse genetics is attractive because it allows to obtain vaccine reassortants quickly and efficiently, reduce the likelihood of spontaneous mutations; however, the vaccine strain is deprived of the advantages of natural selection, in which the most viable clones are selected. This study presents the results of comparatively assessed A(H3N2) LAIVs obtained in parallel by classical reassortment and reverse genetics according to criteria confirming that vaccine strains inherit the necessary properties that guarantee their harmlessness and high reproduction in chicken embryos. Strains for LAIV obtained by both methods retained all attenuating mutations inherited from the MDV, were highly reproductive at the optimal temperature, with temperature sensitivity corresponded to the MDV. However, strains obtained by reverse genetics, was observed to have partial loss of cold resistance in comparison with that of the MDV and classical reassortants. Reduced cold adaptation may negatively affect vaccine effectiveness. It is important that after several additional passages in chicken embryos at low temperature, the cold resistance of the vaccine strain, assembled by reverse genetics, was increased. Credibly that cold resistance is a phenotypic trait, the degree of manifestation of which depends on the temperature conditions of virus multiplication. The selective factor of reduced incubation temperature is missing in reverse genetics. In order for the cold-adapted phenotype to be fully realized, additional passages at low temperature of RG-reassortants are necessary. Thus, the reverse genetics method using plasmid technology allows to effectively prepare reassortant strains for LAIV. An important stage in obtaining vaccine strains using genetic engineering techniques should be the control of their cold-adapted phenotype and its optimization by additional passages at low temperature.
通过反向遗传学获得的流感活疫苗变异株的优化特性
在发育中的鸡卵中进行经典重配是一种获得 LAIV 株系的成熟技术。自然产生的重配疫苗毒株具有繁殖能力强、温度敏感性和耐寒性基因稳定的特点,这与与流行病毒杂交的 MDV 的特点相符。除了抗原相关性外,自然重配还能确保疫苗株的衰减、在上呼吸道细胞中的良好繁殖能力以及在下呼吸道中的繁殖能力。而传统的重配,获得疫苗重配株的速度和效率在很大程度上取决于流行病毒的特性,因此无法保持稳定。反向遗传学的潜力很有吸引力,因为它可以快速高效地获得疫苗重配株,降低自发变异的可能性;但是,疫苗株失去了自然选择的优势,在自然选择中,最有生命力的克隆被选中。本研究介绍了通过经典重配和反向遗传同时获得的 A(H3N2)LAIV 的比较评估结果,评估标准确认疫苗株继承了保证其无害性和在鸡胚中高繁殖率的必要特性。通过这两种方法获得的 LAIV 株系保留了从 MDV 继承的所有减毒突变,在最适温度下繁殖力强,温度敏感性与 MDV 相当。然而,与 MDV 和经典重配株相比,通过反向遗传学方法获得的菌株丧失了部分抗寒性。低温适应性降低可能会对疫苗效果产生负面影响。重要的是,在鸡胚中进行多次低温传代后,通过反向遗传组装的疫苗株的抗寒性增强了。耐寒性是一种表型特征,其表现程度取决于病毒繁殖的温度条件。反向遗传学中缺少降低孵育温度这一选择性因素。为了充分实现冷适应表型,需要在低温下对 RG 重配株进行额外的传代。因此,利用质粒技术的反向遗传学方法可以有效地制备用于 LAIV 的重组株。利用基因工程技术获得疫苗菌株的一个重要阶段应该是控制其冷适应表型,并通过在低温下进行更多的传代来优化其表型。
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