Myxoma Virus and the Leporipoxviruses:  An Evolutionary Paradigm

Kerr, Peter J.; Liu, June; Cattadori, Isabella M.; Ghedin, Elodie; Read, Andrew F.; Holmes, Edward C.

doi:10.3390/v7031020

Cited by 88 publications

(107 citation statements)

References 173 publications

(242 reference statements)

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“…The second possibility is that rather than being a single key mutation, the acute collapse syndrome is caused by independent mutations in different viral lineages, such that there is convergence at the phenotypic level, but not the genetic level. There being multiple genetic routes to the same virulence phenotypes is a consistent feature of the radiation of the Australian (22,31,37) and European (38) MYXV lineages. For instance, the hypervirulent BRK 4/93, the most lethal of the viruses we tested, has only 2 unique nonsynonymous mutations outside M009L: a large deletion with probable loss of function in M036L and A47V in M112, a Holliday junction resolvase.…”

Section: Discussionmentioning

confidence: 87%

“…The simplest is that it is the result of a single key mutation. All the 1990s viruses tested here have reading frame disruptions in M009L, a member of a threegene family that encodes a putative E3 ubiquitin ligase (36), although this gene has not previously been reported to affect virulence (37). It is unclear how the loss of this gene could cause a gain of function (massive immunosuppression).…”

Section: Discussionmentioning

confidence: 97%

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Next step in the ongoing arms race between myxoma virus and wild rabbits in Australia is a novel disease phenotype

Kerr

Cattadori

Liu

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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113

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In host–pathogen arms races, increases in host resistance prompt counteradaptation by pathogens, but the nature of that counteradaptation is seldom directly observed outside of laboratory models. The best-documented field example is the coevolution of myxoma virus (MYXV) in European rabbits. To understand how MYXV in Australia has continued to evolve in wild rabbits under intense selection for genetic resistance to myxomatosis, we compared the phenotypes of the progenitor MYXV and viral isolates from the 1950s and the 1990s in laboratory rabbits with no resistance. Strikingly, and unlike their 1950s counterparts, most virus isolates from the 1990s induced a highly lethal immune collapse syndrome similar to septic shock. Thus, the next step in this canonical case of coevolution after a species jump has been further escalation by the virus in the face of widespread host resistance.

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Section: Discussionmentioning

confidence: 87%

Section: Discussionmentioning

confidence: 97%

Next step in the ongoing arms race between myxoma virus and wild rabbits in Australia is a novel disease phenotype

Kerr

Cattadori

Liu

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

113

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“…Indeed, it is theoretically possible that RCV-A1 was introduced into Australia with MYXV. Early preparations of MYXV brought from the Rockefeller Institute in the United States to Australia were material that had been maintained by regular rabbit passage for over 40 years (27). If RCV was present in any rabbit used during passage, then it could have been present in the material harvested for virus preparations (3).…”

Section: Figmentioning

confidence: 99%

“…Prior to that, myxoma virus (MYXV) had been introduced into Australia in the 1950s to combat the ever-increasing rabbit population and was initially extremely effective (25,26). However, host-pathogen coevolution led to a combination of MYXV attenuation and mounting host resistance in Australian rabbits, which allowed a degree of reexpansion of the rabbit population (27).…”

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confidence: 99%

Benign Rabbit Caliciviruses Exhibit Evolutionary Dynamics Similar to Those of Their Virulent Relatives

Mahar

Nicholson

Eden

et al. 2016

J Virol

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Two closely related caliciviruses cocirculate in Australia: rabbit hemorrhagic disease virus (RHDV) and rabbit calicivirus Australia 1 (RCV-A1). RCV-A1 causes benign enteric infections in the European rabbit (Oryctolagus cuniculus) in Australia and New Zealand, while its close relative RHDV causes a highly pathogenic infection of the liver in the same host. The comparison of these viruses provides important information on the nature and trajectory of virulence evolution, particularly as highly virulent strains of RHDV may have evolved from nonpathogenic ancestors such as RCV-A1. To determine the evolution of RCV-A1 we sequenced the full-length genomes of 44 RCV-A1 samples isolated from healthy rabbits and compared key evolutionary parameters to those of its virulent relative, RHDV. Despite their marked differences in pathogenicity and tissue tropism, RCV-A1 and RHDV have evolved in a very similar manner. Both viruses have evolved at broadly similar rates, suggesting that their dynamics are largely shaped by high background mutation rates, and both exhibit occasional recombination and an evolutionary environment dominated by purifying selection. In addition, our comparative analysis revealed that there have been multiple changes in both virulence and tissue tropism in the evolutionary history of these and related viruses. Finally, these new genomic data suggest that either RCV-A1 was introduced into Australia after the introduction of myxoma virus as a biocontrol agent in 1950 or there was drastic reduction of the rabbit population, and hence of RCV-A1 genetic diversity, perhaps coincident with the emergence of myxoma virus. IMPORTANCEThe comparison of closely related viruses that differ profoundly in propensity to cause disease in their hosts offers a powerful opportunity to reveal the causes of changes in virulence and to study how such changes alter the evolutionary dynamics of these pathogens. Here we describe such a novel comparison involving two closely related RNA viruses that cocirculate in Australia, the highly virulent rabbit hemorrhagic disease virus (RHDV) and the nonpathogenic rabbit calicivirus Australia 1 (RCV-A1). Both viruses infect the European rabbit, but they differ in virulence, tissue tropism, and mechanisms of transmission. Surprisingly, and despite these fundamental differences, RCV-A1 and RHDV have evolved at very similar (high) rates and with strong purifying selection. Furthermore, candidate key mutations were identified that may play a role in virulence and/or tissue tropism and therefore warrant further investigation. R evealing the factors that determine the evolution of virulence in viruses and identifying how changes in virulence might impact viral evolutionary dynamics are key queries in the study of infectious disease evolution. Although there is a large body of work on revealing the relationship between virulence and transmissibility, most studies of virulence evolution involve the retrospective analysis of single viruses (1-4). However, the comparison of closely related...

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“…There also occurred a co-evolutionary increased resistance in the wild rabbit population, presumably caused by the severe selective pressures of a highly lethal disease epidemic. In addition, there was some evidence for a resulting compensatory rebound of myxoma virulence [47] in a manner reminiscent of a “red queen” effect [48–52]. I note that these attempts at biological control did not eliminate the target population, nor could they.…”

Section: Trade-off Theory and The Evolution Of Parasite Virulencementioning

confidence: 99%

Understanding Immunity through the Lens of Disease Ecology

Hedrick

2017

Trends in Immunology

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As we describe the immune system in ever more exquisite detail, we might find that no matter how successful, this approach will not be sufficient to understand the spread of infectious agents, their susceptibility to vaccine therapy, and human disease resistance. Compared with the strict reductionism practiced as a means of characterizing most biological processes, I propose that the progression and outcome of disease-causing host-parasite interactions will be more clearly understood through a focus on disease ecology.

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Myxoma Virus and the Leporipoxviruses: An Evolutionary Paradigm

Cited by 88 publications

References 173 publications

Next step in the ongoing arms race between myxoma virus and wild rabbits in Australia is a novel disease phenotype

Next step in the ongoing arms race between myxoma virus and wild rabbits in Australia is a novel disease phenotype

Benign Rabbit Caliciviruses Exhibit Evolutionary Dynamics Similar to Those of Their Virulent Relatives

Understanding Immunity through the Lens of Disease Ecology

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