Ana Lemos de Matos scite author profile

In the 1950s the myxoma virus was released into European rabbit populations in Australia and Europe, decimating populations and resulting in the rapid evolution of resistance. We investigated the genetic basis of resistance by comparing the exomes of rabbits collected before and after the pandemic. We found a strong pattern of parallel evolution, with selection on standing genetic variation favouring the same alleles in Australia, France and the United Kingdom. Many of these changes occurred in immunity-related genes, supporting a polygenic basis of resistance. We experimentally validated the role of several genes in viral replication and showed that selection acting on an interferon protein has increased its antiviral effect.

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Oncolytic Viruses and the Immune System: The Dynamic Duo

Matos

Franco

McFadden

2020

Molecular Therapy - Methods & Clinical Development

184

128

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The wide utility of rabbits as models of human diseases

Esteves

Abrantes

Baldauf³

et al. 2018

Exp Mol Med

137

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Studies using the European rabbit Oryctolagus cuniculus contributed to elucidating numerous fundamental aspects of antibody structure and diversification mechanisms and continue to be valuable for the development and testing of therapeutic humanized polyclonal and monoclonal antibodies. Additionally, during the last two decades, the use of the European rabbit as an animal model has been increasingly extended to many human diseases. This review documents the continuing wide utility of the rabbit as a reliable disease model for development of therapeutics and vaccines and studies of the cellular and molecular mechanisms underlying many human diseases. Examples include syphilis, tuberculosis, HIV-AIDS, acute hepatic failure and diseases caused by noroviruses, ocular herpes, and papillomaviruses. The use of rabbits for vaccine development studies, which began with Louis Pasteur’s rabies vaccine in 1881, continues today with targets that include the potentially blinding HSV-1 virus infection and HIV-AIDS. Additionally, two highly fatal viral diseases, rabbit hemorrhagic disease and myxomatosis, affect the European rabbit and provide unique models to understand co-evolution between a vertebrate host and viral pathogens.

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Genetic Characterization of a Recombinant Myxoma Virus in the Iberian Hare (Lepus granatensis)

Águeda-Pinto

Matos

Abrantes

et al. 2019

Viruses

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Myxomatosis is a lethal disease in wild European and domestic rabbits (Oryctolagus cuniculus), which is caused by a Myxoma virus (MYXV) infection—a leporipoxvirus that is found naturally in some Sylvilagus rabbit species in South America and California. The introduction of MYXV into feral European rabbit populations of Australia and Europe, in the early 1950s, demonstrated the best-documented field example of host–virus coevolution, following a cross-species transmission. Recently, a new cross-species jump of MYXV has been suggested in both Great Britain and Spain, where European brown hares (Lepus europaeus) and Iberian hares (Lepus granatensis) were found dead with lesions consistent with those observed in myxomatosis. To investigate the possibility of a new cross-species transmission event by MYXV, tissue samples collected from a wild Iberian hare found dead in Spain (Toledo region) were analyzed and deep sequenced. Our results reported a new MYXV isolate (MYXV Toledo) in the tissues of this species. The genome of this new virus was found to encode three disruptive genes (M009L, M036L, and M152R) and a novel ~2.8 kb recombinant region, which resulted from an insertion of four novel poxviral genes towards the 3’ end of the negative strand of its genome. From the open reading frames inserted into the MYXV Toledo virus, a new orthologue of a poxvirus host range gene family member was identified, which was related to the MYXV gene M064R. Overall, we confirmed the identity of a new MYXV isolate in Iberian hares, which, we hypothesized, was able to more effectively counteract the host defenses in hares and start an infectious process in this new host.

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Evolution and divergence of the mammalian SAMD9/SAMD9L gene family

et al. 2013

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BackgroundThe physiological functions of the human Sterile Alpha Motif Domain-containing 9 (SAMD9) gene and its chromosomally adjacent paralogue, SAMD9-like (SAMD9L), currently remain unknown. However, the direct links between the deleterious mutations or deletions in these two genes and several human disorders, such as inherited inflammatory calcified tumors and acute myeloid leukemia, suggest their biological importance. SAMD9 and SAMD9L have also recently been shown to play key roles in the innate immune responses to stimuli such as viral infection. We were particularly interested in understanding the mammalian evolutionary history of these two genes. The phylogeny of SAMD9 and SAMD9L genes was reconstructed using the Maximum Likelihood method. Furthermore, six different methods were applied to detect SAMD9 and SAMD9L codons under selective pressure: the site-specific model M8 implemented in the codeml program in PAML software and five methods available on the Datamonkey web server, including the Single Likelihood Ancestor Counting method, the Fixed Effect Likelihood method, the Random Effect Likelihood method, the Mixed Effects Model of Evolution method and the Fast Unbiased Bayesian AppRoximation method. Additionally, the house mouse (Mus musculus) genome has lost the SAMD9 gene, while keeping SAMD9L intact, prompting us to investigate whether this loss is a unique event during evolution.ResultsOur evolutionary analyses suggest that SAMD9 and SAMD9L arose through an ancestral gene duplication event after the divergence of Marsupialia from Placentalia. Additionally, selection analyses demonstrated that both genes have been subjected to positive evolutionary selection. The absence of either SAMD9 or SAMD9L genes from some mammalian species supports a partial functional redundancy between the two genes.ConclusionsTo the best of our knowledge, this work is the first study on the evolutionary history of mammalian SAMD9 and SAMD9L genes. We conclude that evolutionary selective pressure has acted on both of these two genes since their divergence, suggesting their importance in multiple cellular processes, such as the immune responses to viral pathogens.

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