Rosati Margherita, Bergamaschi Cristina, Valentin Antonio, Kulkarni Viraj, Jalah Rashmi, Alicea Candido, Patel Vainav, von Gegerfelt Agneta S, Montefiori David C, Venzon David J, Khan Amir S, Draghia-Akli Ruxandra, Van Rompay Koen K A, Felber Barbara K, Pavlakis George N
Human Retrovirus Section, Vaccine Branch, Center for Cancer Research, National Cancer Institute at Frederick, Frederick, MD 21702-1201, USA.
Proc Natl Acad Sci U S A. 2009 Sep 15;106(37):15831-6. doi: 10.1073/pnas.0902628106. Epub 2009 Aug 28.
Optimized plasmid DNAs encoding the majority of SIVmac239 proteins and delivered by electroporation (EP) elicited strong immune responses in rhesus macaques. Vaccination decreased viremia in both the acute and chronic phases of infection after challenge with pathogenic SIVmac251. Two groups of macaques were vaccinated with DNA plasmids producing different antigen forms, "native" and "modified," inducing distinct immune responses. Both groups showed significantly lower viremia during the acute phase of infection, whereas the group immunized with the native antigens showed better protection during the chronic phase (1.7 log decrease in virus load, P = 0.009). Both groups developed strong cellular and humoral responses against the DNA vaccine antigens, which included Gag, Pol, Env, Nef, and Tat. Vaccination induced both central memory and effector memory T cells that were maintained at the day of challenge, suggesting the potential for rapid mobilization upon virus challenge. The group receiving the native antigens developed higher and more durable anti-Env antibodies, including neutralizing antibodies at the day of challenge. These results demonstrate that DNA vaccination in the absence of any heterologous boost can provide protection from high viremia comparable to any other vaccine modalities tested in this macaque model.
通过电穿孔(EP)递送的、编码大多数SIVmac239蛋白的优化质粒DNA在恒河猴中引发了强烈的免疫反应。在用致病性SIVmac251攻击后,疫苗接种降低了感染急性期和慢性期的病毒血症。两组恒河猴用产生不同抗原形式(“天然”和“修饰”)的DNA质粒进行疫苗接种,诱导了不同的免疫反应。两组在感染急性期的病毒血症均显著降低,而用天然抗原免疫的组在慢性期显示出更好的保护作用(病毒载量降低1.7个对数,P = 0.009)。两组均针对DNA疫苗抗原产生了强烈的细胞和体液反应,这些抗原包括Gag、Pol、Env、Nef和Tat。疫苗接种诱导了中枢记忆T细胞和效应记忆T细胞,这些细胞在攻击当天仍保持存在,表明在病毒攻击时具有快速动员的潜力。接受天然抗原的组产生了更高且更持久的抗Env抗体,包括在攻击当天的中和抗体。这些结果表明,在没有任何异源加强免疫的情况下,DNA疫苗接种可以提供与在该猕猴模型中测试的任何其他疫苗方式相当的针对高病毒血症的保护。