Kumar Sudeep, Sunagar Raju, Pham Giang, Gosselin Edmund J, Nalin David
Department of Immunology and Microbial Disease, 47 New Scotland Avenue, MC-151, Albany Medical College, Albany, NY 12208, United States.
Department of Immunology and Microbial Disease, 47 New Scotland Avenue, MC-151, Albany Medical College, Albany, NY 12208, United States.
Vaccine. 2017 Feb 15;35(7):1080-1086. doi: 10.1016/j.vaccine.2016.12.035. Epub 2017 Jan 6.
Numerous studies have demonstrated that administration of antigen (Ag)-pulsed dendritic cells (DCs) is an effective strategy for enhancing immunity to tumors and infectious disease organisms. However, the generation and/or isolation of DCs can require substantial time and expense. Therefore, using inactivated F. tularensis (iFt) Ag as a model immunogen, we first sought to determine if DCs could be replaced with peripheral blood mononuclear cells (PBMCs) during the ex-vivo pulse phase and still provide protection against Ft infection. Follow up studies were then conducted using the S. pneumoniae (Sp) vaccine Prevnar ®13 as the Ag in the pulse phase followed by immunization and Sp challenge. In both cases, we demonstrate that PBMCs can be used in place of DCs when pulsing with iFt and/or Prevnar ®13 ex vivo and re-administering the Ag-pulsed PBMCs as a vaccine. In addition, utilization of the i.n. route for Ag-pulsed PBMC administration is superior to use of the i.v. route in the case of Sp immunization, as well as when compared to direct injection of Prevnar ®13 vaccine i.m. or i.n. Furthermore, this PBMC-based vaccine strategy provides a more marked and enduring protective immune response and is also capable of serving as a multi-organism vaccine platform. The potential for this ex-vivo vaccine strategy to provide a simpler, less time consuming, and less expensive approach to DC-based vaccines and vaccination in general is also discussed.
众多研究表明,给予抗原(Ag)脉冲处理的树突状细胞(DCs)是增强针对肿瘤和感染性生物体免疫力的有效策略。然而,DCs的生成和/或分离可能需要大量时间和费用。因此,我们以灭活的土拉弗朗西斯菌(iFt)Ag作为模型免疫原,首先试图确定在体外脉冲阶段DCs是否可以被外周血单核细胞(PBMCs)替代,并且仍然提供针对Ft感染的保护。随后进行了后续研究,使用肺炎链球菌(Sp)疫苗沛儿13(Prevnar®13)作为脉冲阶段的Ag,随后进行免疫和Sp攻击。在这两种情况下,我们都证明,当在体外与iFt和/或沛儿13(Prevnar®13)一起进行脉冲处理并将Ag脉冲处理的PBMCs作为疫苗重新给药时,PBMCs可以替代DCs。此外,在Sp免疫的情况下,以及与直接肌内或皮下注射沛儿13(Prevnar®13)疫苗相比,经鼻途径给予Ag脉冲处理的PBMCs优于静脉途径。此外,这种基于PBMCs的疫苗策略提供了更显著和持久的保护性免疫反应,并且还能够作为多生物体疫苗平台。还讨论了这种体外疫苗策略为基于DCs的疫苗和一般疫苗接种提供更简单、耗时更少且成本更低的方法的潜力。
