Boots Michael, Bowers Roger G
Department of Animal and Plant Sciences, The University of Sheffield, Alfred Denny Building, Western Bank, Sheffield S10 2TN, UK.
Proc Biol Sci. 2004 Apr 7;271(1540):715-23. doi: 10.1098/rspb.2003.2655.
We examine the evolutionary dynamics of resistance to parasites through acquired immunity. Resistance can be achieved through the innate mechanisms of avoidance of infection and reduced pathogenicity once infected, through recovery from infection and through remaining immune to infection: acquired immunity. We assume that each of these mechanisms is costly to the host and find that the evolutionary dynamics of innate immunity in hosts that also have acquired immunity are quantitatively the same as in hosts that possess only innate immunity. However, compared with resistance through avoidance or recovery, there is less likely to be polymorphism in the length of acquired immunity within populations. Long-lived organisms that can recover at intermediate rates faced with fast-transmitting pathogens that cause intermediate pathogenicity (mortality of infected individuals) are most likely to evolve long-lived acquired immunity. Our work emphasizes that because whether or not acquired immunity is beneficial depends on the characteristics of the disease, organisms may be selected to only develop acquired immunity to some of the diseases that they encounter.
我们通过获得性免疫来研究对寄生虫抗性的进化动态。抗性可以通过避免感染的先天机制以及一旦感染后降低致病性来实现,也可以通过从感染中恢复以及对感染保持免疫(即获得性免疫)来实现。我们假设这些机制中的每一种对宿主来说都是有代价的,并发现同时具有获得性免疫的宿主中先天免疫的进化动态在数量上与仅具有先天免疫的宿主相同。然而,与通过避免或恢复产生的抗性相比,群体中获得性免疫的持续时间出现多态性的可能性较小。面对导致中等致病性(感染个体死亡率)的快速传播病原体,能够以中等速度恢复的长寿生物最有可能进化出长寿的获得性免疫。我们的研究强调,由于获得性免疫是否有益取决于疾病的特征,生物体可能会被选择仅对它们遇到的某些疾病产生获得性免疫。