佐剂
免疫系统
免疫增强剂
氢氧化铝
免疫
抗体
氢氧化物
纳米颗粒
化学
病毒学
作者
Jairam Meena,Priyank Singhvi,Sudeepa Srichandan,Jyotsna Dandotiya,Juhi Verma,None MamtaSingh,Rahul Ahuja,Neha Panwar,Tabiya Qayoom Wani,Ritika Khatri,Gazala Siddiqui,Anuradha Gupta,Sweety Samal,Amulya Kumar Panda
标识
DOI:10.1016/j.ejpb.2022.05.008
摘要
Schematic representation of RDB entrapped PLA nanoparticle formulation and immunization in combination with aluminium hydroxide and Th1 and Th2 immune response in BALB/c mice. Nanoparticles-based multivalent antigen display has the capability of mimicking natural virus infection characteristics, making it useful for eliciting potent long-lasting immune response. Several vaccines are developed against global pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). However these subunit vaccines use mammalian expression system, hence mass production with rapid pace is a bigger challenge. In contrast E. coli based subunit vaccine production circumvents these limitations.The objective of the present investigation was to develop nanoparticle vaccine with multivalent display of receptor binding domain (RBD) of SARS-CoV-2 expressed in E. coli . Results showed that RBD entrapped PLA (Poly lactic acid) nanoparticle in combination with aluminum hydroxide elicited 9-fold higher immune responses as compared to RBD adsorbed aluminum hydroxide, a common adjuvant used for human immunization. It was interesting to note that RBD entrapped PLA nanoparticle with aluminum hydroxide not only generated robust and long-lasting antibody response but also provided Th1 and Th2 balanced immune response. Moreover, challenge with 1 µg of RBD alone was able to generate secondary antibody response, suggesting that immunization with RBD-PLA nanoparticleshas the ability to elicit memory antibody against RBD. Plaque assay revealed that the antibody generated using the polymeric formulation was able to neutralize SARS-CoV-2.The RBD entrapped PLA nanoparticles blended with aluminum hydroxide thus has potential to develop asa subunit vaccine against COVID-19.
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