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经工程改造表达病原体特异性抗体的 B 细胞可预防感染。

B cells engineered to express pathogen-specific antibodies protect against infection.

机构信息

Vaccine and Infectious Disease Division, Fred Hutchinson Cancer Research Center, 1100 Fairview Ave. N. Seattle, WA 98109, USA.

Department of Global Health, University of Washington, 1510 San Juan Road, Seattle, WA 98195, USA.

出版信息

Sci Immunol. 2019 May 17;4(35). doi: 10.1126/sciimmunol.aax0644.

DOI:10.1126/sciimmunol.aax0644
PMID:31101673
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6913193/
Abstract

Effective vaccines inducing lifelong protection against many important infections such as respiratory syncytial virus (RSV), HIV, influenza virus, and Epstein-Barr virus (EBV) are not yet available despite decades of research. As an alternative to a protective vaccine, we developed a genetic engineering strategy in which CRISPR-Cas9 was used to replace endogenously encoded antibodies with antibodies targeting RSV, HIV, influenza virus, or EBV in primary human B cells. The engineered antibodies were expressed efficiently in primary B cells under the control of endogenous regulatory elements, which maintained normal antibody expression and secretion. Using engineered mouse B cells, we demonstrated that a single transfer of B cells engineered to express an antibody against RSV resulted in potent and durable protection against RSV infection in -deficient mice. This approach offers the opportunity to achieve sterilizing immunity against pathogens for which traditional vaccination has failed to induce or maintain protective antibody responses.

摘要

尽管已经进行了数十年的研究,但仍然没有能够诱导针对许多重要感染(如呼吸道合胞病毒(RSV)、HIV、流感病毒和 Epstein-Barr 病毒(EBV))产生终身保护的有效疫苗。作为一种保护性疫苗的替代方法,我们开发了一种基因工程策略,该策略使用 CRISPR-Cas9 将针对 RSV、HIV、流感病毒或 EBV 的抗体替代内源性编码的抗体,在原代人 B 细胞中。工程化抗体在原代 B 细胞中高效表达,受内源性调节元件的控制,这维持了正常的抗体表达和分泌。使用工程化的小鼠 B 细胞,我们证明了单次转移表达 RSV 抗体的工程化 B 细胞可在缺乏的小鼠中对 RSV 感染产生强大而持久的保护作用。这种方法为那些传统疫苗未能诱导或维持保护性抗体反应的病原体提供了实现杀菌免疫的机会。

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