Leibniz Institute of Plant Genetics and Crop Plant Research-IPK, Gatersleben, Germany.
Plant Biotechnol J. 2013 Jun;11(5):582-93. doi: 10.1111/pbi.12049. Epub 2013 Feb 11.
Reducing the cost of vaccine production is a key priority for veterinary research, and the possibility of heterologously expressing antigen in plants provides a particularly attractive means of achieving this. Here, we report the expression of the avian influenza virus haemagglutinin (AIV HA) in tobacco, both as a monomer and as a trimer in its native and its ELPylated form. We firstly presented evidence to produce stabilized trimers of soluble HA in plants. ELPylation of these trimers does not influence the trimerization. Strong expression enhancement in planta caused by ELPylation was demonstrated for trimerized H5-ELP. ELPylated trimers could be purified by a membrane-based inverse transition cycling procedure with the potential of successful scale-up. The trimeric form of AIV HA was found to enhance the HA-specific immune response compared with the monomeric form. Plant-derived AIV HA trimers elicited potentially neutralizing antibodies interacting with both homologous virus-like particles from plants and heterologous inactivated AIV. ELPylation did not influence the functionality and the antigenicity of the stabilized H5 trimers. These data allow further developments including scale-up of production, purification and virus challenge experiments with the final goal to achieve suitable technologies for efficient avian flu vaccine production.
降低疫苗生产成本是兽医研究的一个关键重点,而在植物中异源表达抗原提供了一种特别有吸引力的实现方法。在这里,我们报告了在烟草中表达禽流感病毒血凝素(AIV HA),既可以作为单体,也可以作为其天然形式和 ELP 化形式的三聚体。我们首先提供了在植物中生产稳定的可溶性 HA 三聚体的证据。这些三聚体的 ELP 化不会影响三聚体化。对于三聚化的 H5-ELP,我们证明了 ELP 化导致在植物中强烈的表达增强。ELP 化的三聚体可以通过基于膜的逆转变循环程序进行纯化,具有成功扩大规模的潜力。与单体形式相比,AIV HA 的三聚体形式增强了 HA 特异性免疫反应。植物来源的 AIV HA 三聚体引发了潜在的中和抗体,与来自植物的同源病毒样颗粒和异源失活的 AIV 相互作用。ELP 化不影响稳定的 H5 三聚体的功能和抗原性。这些数据允许进一步开发,包括生产、纯化和病毒挑战实验的扩大规模,最终目标是实现高效禽流感疫苗生产的合适技术。
