Mechanisms of cell division as regulators of acute immune response.

Systems and Synthetic Biology Pub Date : 2014-09-01 Epub Date: 2014-04-29 DOI:10.1007/s11693-014-9149-3
Andrey Kan, Philip D Hodgkin
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Abstract

The acute adaptive immune response is complex, proceeding through phases of activation of quiescent lymphocytes, rapid expansion by cell division and cell differentiation, cessation of division and eventual death of greater than 95 % of the newly generated population. Control of the response is not central but appears to operate as a distributed process where global patterns reliably emerge as a result of collective behaviour of a large number of autonomous cells. In this review, we highlight evidence that competing intracellular timed processes underlie the distribution of individual fates and control cell proliferation, cessation and loss. These principles can be captured in a mathematical model to illustrate consistency with previously published experimentally observed data.

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细胞分裂作为急性免疫反应调节器的机制。
急性适应性免疫反应非常复杂,要经历静止淋巴细胞激活、细胞分裂和细胞分化快速扩张、分裂停止以及最终超过 95% 的新生成细胞死亡等阶段。这种反应的控制不是集中式的,似乎是一个分布式的过程,在这个过程中,大量自主细胞的集体行为导致可靠的全球模式出现。在这篇综述中,我们将重点介绍细胞内相互竞争的定时过程是个体命运分布和控制细胞增殖、停止和消失的基础。这些原理可以用数学模型来捕捉,以说明与之前发表的实验观察数据的一致性。
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