Suppression of viral infectivity through lethal defection

Grande-Pérez, Ana; Lázaro, Ester; Löwenstein, Pedro R.; Domingo, Esteban; Manrubia, Susanna C.

doi:10.1073/pnas.0408871102

Cited by 173 publications

(231 citation statements)

References 25 publications

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“…Since mutagens are not expected to act as chain terminators, no significant decrease in viral DNA would be expected from compounds acting as lethal mutagens. In fact, previous studies have demonstrated that even when mutagens eliminate infectivity, there are still detectable levels of viral RNA (13). This is likely due to the production of defective viruses that are not infectious and can interfere with the infectivity of viruses that were not lethally mutagenized, a process known as lethal defection (13).…”

Section: Discussionmentioning

confidence: 99%

Exploiting Drug Repositioning for Discovery of a Novel HIV Combination Therapy

Clouser

Patterson

Mansky

2010

J Virol

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The development of HIV drugs is an expensive and a lengthy process. In this study, we used drug repositioning, a process whereby a drug approved to treat one condition is used to treat a different condition, to identify clinically approved drugs that have anti-HIV activity. The data presented here show that a combination of two clinically approved drugs, decitabine and gemcitabine, reduced HIV infectivity by 73% at concentrations that had minimal antiviral activity when used individually. Decreased infectivity coincided with a significant increase in mutation frequency and a shift in the HIV mutation spectrum. These results indicate that an increased mutational load is the primary antiviral mechanism for inhibiting the generation of infectious progeny virus from provirus. Similar results were seen when decitabine was used in combination with another ribonucleotide reductase inhibitor. Our results suggest that HIV infectivity can be decreased by combining a nucleoside analog that forms noncanonical base pairs with certain ribonucleotide reductase inhibitors. Such drug combinations are relevant since members of these drug classes are used clinically. Our observations support a model in which increased mutation frequency decreases infectivity through lethal mutagenesis.

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Section: Discussionmentioning

confidence: 99%

Exploiting Drug Repositioning for Discovery of a Novel HIV Combination Therapy

Clouser

Patterson

Mansky

2010

J Virol

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“…Extinction through lethal defection was first observed in persistent infections of lymphocytic choriomeningitis virus (LCMV) treated with the mutagen 5-fluorouracil (5-FU). About 90 h post-infection, the ability of the virus to produce infective particles disappeared, though its replicative capacity, understood as the capacity of an RNA virus to produce RNA progeny, was not affected (Grande-Pérez et al 2005). The interpretation of the experiment was as follows.…”

Section: The Role Of Defective Formsmentioning

confidence: 99%

“…The production and maintenance of defectors and the selection of different traits in different environments may offer an alternative pathway to extinction, as has been suggested (Grande-Pérez et al 2005) and theoretically demonstrated (Iranzo & Manrubia 2009). The key for a phenotypic trait to become useless requires (i) an environment where that trait is either neutral or not subject to strong selection and (ii) a finite number of individuals in the quasispecies, since extinction through the action of defectors is a purely stochastic phenomenon.…”

Section: The Critical Mutation Rate: a Relative Conceptmentioning

confidence: 99%

“…We believe that the key to use that pathway as an efficient extinction mechanism relies in the identification of environments different from the one where the quasispecies has been optimized and where one basic trait would behave as neutral. In such a situation it could accumulate mutations and create a subpopulation of defectors able to induce the extinction of the whole when confronted again with the first environment (Grande-Pérez et al 2005;Herrera et al 2007).…”

Section: The Critical Mutation Rate: a Relative Conceptmentioning

confidence: 99%

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Pathways to extinction: beyond the error threshold

Manrubia

Domingo

Lázaro

2010

Phil. Trans. R. Soc. B

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Since the introduction of the quasispecies and the error catastrophe concepts for molecular evolution by Eigen and their subsequent application to viral populations, increased mutagenesis has become a common strategy to cause the extinction of viral infectivity. Nevertheless, the high complexity of virus populations has shown that viral extinction can occur through several other pathways apart from crossing an error threshold. Increases in the mutation rate enhance the appearance of defective forms and promote the selection of mechanisms that are able to counteract the accelerated appearance of mutations. Current models of viral evolution take into account more realistic scenarios that consider compensatory and lethal mutations, a highly redundant genotype-to-phenotype map, rough fitness landscapes relating phenotype and fitness, and where phenotype is described as a set of interdependent traits. Further, viral populations cannot be understood without specifying the characteristics of the environment where they evolve and adapt. Altogether, it turns out that the pathways through which viral quasispecies go extinct are multiple and diverse.

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“…Within-host diversity may be achieved when inoculum comprises a diverse pool of virus genomes (Lord et al 1997;Bonneau et al 2001;Cory et al 2005;Herring et al 2005;Jerzak et al 2005), when genotypically distinct viruses cooperate to achieve infection, such as the facilitation observed in homologous or heterologous 'helper viruses' (Eckner 1973;Stenger 1998), or when viruses are capable of generating de novo diversity during the replication process in the newly infected host (Domingo et al 1998;Chang et al 2002;Ló pez-Bueno et al 2003). Genotypic diversity within infected hosts can have dramatic repercussions for both host and virus, including alterations in virulence (harm suffered by the host) (Sedarati et al 1988;Brown et al 2002;Schjørring & Koella 2002;Alizon 2008), within-host population dynamics (Miralles et al 2001;Rauch et al 2008), virus fitness (Hodgson et al 2004;Arends et al 2005;Č ičin-Š ain et al 2005;Simó n et al 2006), and if frequent, may favour the evolution of cheating genotypes (Turner & Chao 1999;Frank 2000;Grande-Pérez et al 2005).…”

Section: Introductionmentioning

confidence: 99%

Mixed genotype transmission bodies and virions contribute to the maintenance of diversity in an insect virus

et al. 2009

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An insect nucleopolyhedrovirus naturally survives as a mixture of at least nine genotypes. Infection by multiple genotypes results in the production of virus occlusion bodies (OBs) with greater pathogenicity than those of any genotype alone. We tested the hypothesis that each OB contains a genotypically diverse population of virions. Few insects died following inoculation with an experimental two-genotype mixture at a dose of one OB per insect, but a high proportion of multiple infections were observed (50%), which differed significantly from the frequencies predicted by a non-associated transmission model in which genotypes are segregated into distinct OBs. By contrast, insects that consumed multiple OBs experienced higher mortality and infection frequencies did not differ significantly from those of the non-associated model. Inoculation with genotypically complex wild-type OBs indicated that genotypes tend to be transmitted in association, rather than as independent entities, irrespective of dose. To examine the hypothesis that virions may themselves be genotypically heterogeneous, cell culture plaques derived from individual virions were analysed to reveal that one-third of virions was of mixed genotype, irrespective of the genotypic composition of the OBs. We conclude that co-occlusion of genotypically distinct virions in each OB is an adaptive mechanism that favours the maintenance of virus diversity during insect-to-insect transmission.

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Suppression of viral infectivity through lethal defection

Cited by 173 publications

References 25 publications

Exploiting Drug Repositioning for Discovery of a Novel HIV Combination Therapy

Exploiting Drug Repositioning for Discovery of a Novel HIV Combination Therapy

Pathways to extinction: beyond the error threshold

Mixed genotype transmission bodies and virions contribute to the maintenance of diversity in an insect virus

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