Wodarz D, Page K M, Arnaout R A, Thomsen A R, Lifson J D, Nowak M A
Institute for Advanced Study, Princeton, NJ 08540, USA.
Philos Trans R Soc Lond B Biol Sci. 2000 Mar 29;355(1395):329-43. doi: 10.1098/rstb.2000.0570.
We use simple mathematical models to examine the dynamics of primary and secondary cytotoxic T-lymphocyte (CTL) responses to viral infections. In particular, we are interested in conditions required to resolve the infection and to protect the host upon secondary challenge. While protection against reinfection is only effective in a restricted set of circumstances, we find that resolution of the primary infection requires persistence of CTL precursors (GTLp), as well as a fast rate of activation of the CTLp. Since these are commonly the defining characteristics of CTL memory, we propose that CTL memory may have evolved in order to clear the virus during primary challenge. We show experimental data from lymphocytic choriomeningitis virus infection in mice, supporting our theory on CTL memory. We adapt our models to HIV and find that immune impairment during the primary phase of the infection may result in the failure to establish CTL memory which in turn leads to viral persistence. Based on our models we suggest conceptual treatment regimes which ensure establishment of CTL memory. This would allow the immune response to control HIV in the long term in the absence of continued therapy.
我们使用简单的数学模型来研究原发性和继发性细胞毒性T淋巴细胞(CTL)对病毒感染的反应动力学。特别地,我们感兴趣的是解决感染并在二次攻击时保护宿主所需的条件。虽然预防再感染仅在有限的情况下有效,但我们发现解决原发性感染需要CTL前体(GTLp)的持续存在,以及CTLp的快速激活率。由于这些通常是CTL记忆的定义特征,我们提出CTL记忆可能已经进化以在初次攻击期间清除病毒。我们展示了来自小鼠淋巴细胞性脉络丛脑膜炎病毒感染的实验数据,支持我们关于CTL记忆的理论。我们将模型应用于HIV,发现感染初期的免疫损伤可能导致无法建立CTL记忆,进而导致病毒持续存在。基于我们的模型,我们提出了确保建立CTL记忆的概念性治疗方案。这将使免疫反应在没有持续治疗的情况下长期控制HIV。