疟原虫感染的子孢子挑战后，恒河猴经 DNA 疫苗初免、痘病毒疫苗加强免疫策略，可诱导针对红内期抗原的高功能抗体滴度。

Malaria infection by sporozoite challenge induces high functional antibody titres against blood stage antigens after a DNA prime, poxvirus boost vaccination strategy in Rhesus macaques.

机构信息

Department of Parasitology, Biomedical Primate Research Centre, Rijswijk, The Netherlands.

出版信息

Malar J. 2011 Feb 8;10:29. doi: 10.1186/1475-2875-10-29.

DOI:10.1186/1475-2875-10-29

PMID:21303498

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3046915/

Abstract

BACKGROUND

A DNA prime, poxvirus (COPAK) boost vaccination regime with four antigens, i.e. a combination of two Plasmodium knowlesi sporozoite (csp/ssp2) and two blood stage (ama1/msp142) genes, leads to self-limited parasitaemia in 60% of rhesus monkeys and survival from an otherwise lethal infection with P. knowlesi. In the present study, the role of the blood stage antigens in protection was studied in depth, focusing on antibody formation against the blood stage antigens and the functionality thereof.

METHODS

Rhesus macaques were immunized with the four-component vaccine and subsequently challenged i.v. with 100 P. knowlesi sporozoites. During immunization and challenge, antibody titres against the two blood stage antigens were determined, as well as the in vitro growth inhibition capacity of those antibodies. Antigen reversal experiments were performed to determine the relative contribution of antibodies against each of the two blood stage antigens to the inhibition.

RESULTS

After vaccination, PkAMA1 and PkMSP1₁₉ antibody titres in vaccinated animals were low, which was reflected in low levels of inhibition by these antibodies as determined by in vitro inhibition assays. Interestingly, after sporozoite challenge antibody titres against blood stage antigens were boosted over 30-fold in both protected and not protected animals. The in vitro inhibition levels increased to high levels (median inhibitions of 59% and 56% at 6 mg/mL total IgG, respectively). As growth inhibition levels were not significantly different between protected and not protected animals, the ability to control infection appeared cannot be explained by GIA levels. Judged by in vitro antigen reversal growth inhibition assays, over 85% of the inhibitory activity of these antibodies was directed against PkAMA1.

CONCLUSIONS

This is the first report that demonstrates that a DNA prime/poxvirus boost vaccination regimen induces low levels of malaria parasite growth inhibitory antibodies, which are boosted to high levels upon challenge. No association could, however, be established between the levels of inhibitory capacity in vitro and protection, either after vaccination or after challenge.

摘要

背景

一种包含四种抗原的 DNA 初免、痘病毒（COPAK）加强型疫苗接种方案，即两种疟原虫 knowlesi （csp/ssp2）裂殖子和两种血期（ama1/msp142）基因的组合，可导致 60%的恒河猴出现自限性寄生虫血症，并从 otherwise lethal 的 P. knowlesi 感染中存活。在本研究中，深入研究了血期抗原在保护中的作用，重点研究了针对血期抗原的抗体形成及其功能。

方法

恒河猴用四价疫苗免疫，随后静脉内用 100 个 P. knowlesi 裂殖子进行攻击。在免疫和攻击期间，测定针对两种血期抗原的抗体滴度，以及这些抗体的体外生长抑制能力。进行抗原逆转实验，以确定针对两种血期抗原中的每一种的抗体相对贡献。

结果

接种疫苗后，接种动物的 PkAMA1 和 PkMSP1₁₉ 抗体滴度较低，这反映在体外抑制试验中这些抗体的抑制水平较低。有趣的是，裂殖子攻击后，无论是否受保护，两种血期抗原的抗体滴度均提高了 30 多倍。体外抑制水平升高至高水平（分别在 6mg/ml 总 IgG 时的中位数抑制率为 59%和 56%）。由于保护和未保护动物之间的抑制水平没有显著差异，因此控制感染的能力似乎不能用 GIA 水平来解释。根据体外抗原逆转生长抑制试验，这些抗体的抑制活性中有超过 85%针对 PkAMA1。

结论

这是首次报道 DNA 初免/痘病毒加强型疫苗接种方案诱导低水平的疟疾寄生虫生长抑制抗体，这些抗体在受到挑战时会被提升到高水平。然而，无论是在接种疫苗后还是在受到挑战后，都不能建立体外抑制能力与保护之间的关联。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/87b5/3046915/eeee25130019/1475-2875-10-29-1.jpg

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疟原虫感染的子孢子挑战后，恒河猴经 DNA 疫苗初免、痘病毒疫苗加强免疫策略，可诱导针对红内期抗原的高功能抗体滴度。

Malaria infection by sporozoite challenge induces high functional antibody titres against blood stage antigens after a DNA prime, poxvirus boost vaccination strategy in Rhesus macaques.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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