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基于杆状病毒的滴鼻疫苗通过自然增强疫苗诱导的抗体在小鼠中提供针对疟疾的完全保护。

Baculovirus-based nasal drop vaccine confers complete protection against malaria by natural boosting of vaccine-induced antibodies in mice.

机构信息

Division of Medical Zoology, Department of Infection and Immunity, Jichi Medical University, 3311-1 Yakushiji, Shimotsuke, Tochigi 329-0498, Japan.

出版信息

Infect Immun. 2010 Feb;78(2):595-602. doi: 10.1128/IAI.00877-09. Epub 2009 Nov 9.

DOI:10.1128/IAI.00877-09
PMID:19901059
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2812197/
Abstract

Blood-stage malaria parasites ablate memory B cells generated by vaccination in mice, resulting in diminishing natural boosting of vaccine-induced antibody responses to infection. Here we show the development of a new vaccine comprising a baculovirus-based Plasmodium yoelii 19-kDa carboxyl terminus of merozoite surface protein 1 (PyMSP1(19)) capable of circumventing the tactics of parasites in a murine model. The baculovirus-based vaccine displayed PyMSP1(19) on the surface of the virus envelope in its native three-dimensional structure. Needle-free intranasal immunization of mice with the baculovirus-based vaccine induced strong systemic humoral immune responses with high titers of PyMSP1(19)-specific antibodies. Most importantly, this vaccine conferred complete protection by natural boosting of vaccine-induced PyMSP1(19)-specific antibody responses shortly after challenge. The protective mechanism is a mixed Th1/Th2-type immunity, which is associated with the Toll-like receptor 9 (TLR9)-dependent pathway. The present study offers a novel strategy for the development of malaria blood-stage vaccines capable of naturally boosting vaccine-induced antibody responses to infection.

摘要

疟原虫血期阶段可消除疫苗接种在小鼠中产生的记忆 B 细胞,从而导致疫苗诱导的针对感染的抗体反应自然增强减少。在这里,我们展示了一种新疫苗的开发,该疫苗由杆状病毒为基础的约氏疟原虫 19kDa 裂殖子表面蛋白 1(PyMSP1(19))组成,能够规避寄生虫在小鼠模型中的策略。杆状病毒疫苗在其天然的三维结构中,将 PyMSP1(19)展示在病毒包膜的表面。用杆状病毒疫苗进行无针鼻内免疫接种可诱导强烈的全身体液免疫反应,产生高滴度的 PyMSP1(19)特异性抗体。最重要的是,该疫苗在挑战后不久通过自然增强疫苗诱导的 PyMSP1(19)特异性抗体反应,提供了完全的保护。保护机制是一种混合的 Th1/Th2 型免疫,与 Toll 样受体 9(TLR9)依赖性途径有关。本研究为开发能够自然增强疫苗诱导的针对感染的抗体反应的疟原虫血期疫苗提供了一种新策略。

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