PF-D-Trimer, a protective SARS-CoV-2 subunit vaccine: immunogenicity and application.
Zhihao ZhangJinhu ZhouPeng NiBing HuNormand JolicoeurShuang DengQian XiaoQian HeGai LiYan XiaMei LiuCong WangZhizheng FangNan XiaZhe-Rui ZhangBo ZhangKun CaiYan XuBinlei LiuPublished in: NPJ vaccines (2023)
The COVID-19 pandemic, caused by the SARS-CoV-2 virus, has had and continues to have a significant impact on global public health. One of the characteristics of SARS-CoV-2 is a surface homotrimeric spike protein, which is primarily responsible for the host immune response upon infection. Here we present the preclinical studies of a broadly protective SARS-CoV-2 subunit vaccine developed from our trimer domain platform using the Delta spike protein, from antigen design through purification, vaccine evaluation and manufacturability. The pre-fusion trimerized Delta spike protein, PF-D-Trimer, was highly expressed in Chinese hamster ovary (CHO) cells, purified by a rapid one-step anti-Trimer Domain monoclonal antibody immunoaffinity process and prepared as a vaccine formulation with an adjuvant. Immunogenicity studies have shown that this vaccine candidate induces robust immune responses in mouse, rat and Syrian hamster models. It also protects K18-hACE2 transgenic mice in a homologous viral challenge. Neutralizing antibodies induced by this vaccine show cross-reactivity against the ancestral WA1, Delta and several Omicrons, including BA.5.2. The formulated PF-D Trimer is stable for up to six months without refrigeration. The Trimer Domain platform was proven to be a key technology in the rapid production of PF-D-Trimer vaccine and may be crucial to accelerate the development and accessibility of updated versions of SARS-CoV-2 vaccines.
Keyphrases
- zika virus
- sars cov
- immune response
- respiratory syndrome coronavirus
- public health
- monoclonal antibody
- oxidative stress
- dendritic cells
- protein protein
- dna damage
- drug delivery
- high throughput
- early stage
- toll like receptor
- cell death
- induced apoptosis
- binding protein
- coronavirus disease
- bone marrow
- signaling pathway
- global health
- quantum dots
- pi k akt
- recombinant human