Immunity, suicide or both Ecological determinants for the combined evolution of anti-pathogen defense systemsReport as inadecuate




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BMC Evolutionary Biology

, 15:43

First Online: 13 March 2015Received: 12 December 2014Accepted: 24 February 2015DOI: 10.1186-s12862-015-0324-2

Cite this article as: Iranzo, J., Lobkovsky, A.E., Wolf, Y.I. et al. BMC Evol Biol 2015 15: 43. doi:10.1186-s12862-015-0324-2

Abstract

BackgroundParasite-host arms race is one of the key factors in the evolution of life. Most cellular life forms, in particular prokaryotes, possess diverse forms of defense against pathogens including innate immunity, adaptive immunity and programmed cell death altruistic suicide. Coevolution of these different but interacting defense strategies yields complex evolutionary regimes.

ResultsWe develop and extensively analyze a computational model of coevolution of different defense strategies to show that suicide as a defense mechanism can evolve only in structured populations and when the attainable degree of immunity against pathogens is limited. The general principle of defense evolution seems to be that hosts do not evolve two costly defense mechanisms when one is sufficient. Thus, the evolutionary interplay of innate immunity, adaptive immunity and suicide, leads to an equilibrium state where the combination of all three defense strategies is limited to a distinct, small region of the parameter space. The three strategies can stably coexist only if none of them are highly effective. Coupled adaptive immunity-suicide systems, the existence of which is implied by the colocalization of genes for the two types of defense in prokaryotic genomes, can evolve either when immunity-associated suicide is more efficacious than other suicide systems or when adaptive immunity functionally depends on the associated suicide system.

ConclusionsComputational modeling reveals a broad range of outcomes of coevolution of anti-pathogen defense strategies depending on the relative efficacy of different mechanisms and population structure. Some of the predictions of the model appear compatible with recent experimental evolution results and call for additional experiments.

AbbreviationsAbiAbortive infection

AIAdaptive immunity

IIInnate immunity

PCDProgrammed cell death

R-MRestriction-modification

TAToxin-antitoxin

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Author: Jaime Iranzo - Alexander E Lobkovsky - Yuri I Wolf - Eugene V Koonin

Source: https://link.springer.com/







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