Eryu Wang scite author profile

Endemic/epidemic dengue viruses (DEN) that are transmitted among humans by the mosquito vectors Aedes aegypti and Aedes albopictus are hypothesized to have evolved from sylvatic DEN strains that are transmitted among nonhuman primates in West Africa and Malaysia by other Aedes mosquitoes. We tested this hypothesis with phylogenetic studies using envelope protein gene sequences of both endemic/epidemic and sylvatic strains. The basal position of sylvatic lineages of DEN-1, -2, and -4 suggested that the endemic/epidemic lineages of these three DEN serotypes evolved independently from sylvatic progenitors. Time estimates for evolution of the endemic/epidemic forms ranged from 100 to 1,500 years ago, and the evolution of endemic/epidemic forms represents relatively recent events in the history of DEN evolution. Analysis of envelope protein amino acid changes predicted to have accompanied endemic/epidemic emergence suggested a role for domain III in adaptation to new mosquito and/or human hosts.Dengue viruses (DEN) (Flaviviridae: Flavivirus) are serious human pathogens that occur nearly throughout the tropics, with ca. 100 million cases annually (16). DEN comprise four serotypes (DEN-1 to DEN-4); although epidemiologically similar, they are genetically and antigenically distinct. Infection with one serotype leads to lifelong protection against homologous reinfection but only brief protection against heterologous challenge (21, 38).DEN cause dengue fever, a self-limited febrile illness lasting 2 to 10 days that has been known in the medical literature for over 200 years. Infrequent epidemics of dengue fever occurred in tropical areas until the 1950s. After War World II, this pattern of disease was disrupted by the emergence of dengue hemorrhagic fever and dengue shock syndrome, more severe diseases characterized by thrombocytopenia, hemorrhage, and excessive plasma leakage (16,28). Two principal hypotheses have been proposed to explain the hemorrhagic form of disease: (i) the immune enhancement theory maintains that hemorrhage occurs in secondary infections when DEN-specific antibodies and memory T cells resulting from primary infection with another serotype enhance the binding of virus-immunoglobulin G complexes to FcY receptors on monocytic cells, and (ii) certain phenotypes of DEN are more virulent than others. Recent phylogenetic studies suggest that an Asian genotype of DEN-2 recently introduced into the New World may be associated with increased risk for hemorrhagic fever and shock in the presence of heterologous antibody (32). DEN strains of reduced virulence have also been described; endemic transmission on the South Pacific islands of Tonga, involving vectors other than Aedes aegypti, may result in less severe disease because of the lesser selection for high viremia imposed by more susceptible vectors, like Aedes polynesiensis (13). Two distinct DEN transmission cycles occur: (i) endemic and epidemic DEN involving human hosts and transmission byA. aegypti, with Aedes albopictus and other Aedes mosquitoes serv...

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RNA viruses can hijack vertebrate microRNAs to suppress innate immunity

Trobaugh

Gardner

Sun

et al. 2013

Nature

207

257

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Novel Chikungunya Vaccine Candidate with an IRES-Based Attenuation and Host Range Alteration Mechanism

Plante¹,

Wang²,

Partidos³

et al. 2011

PLoS Pathog

157

183

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Chikungunya virus (CHIKV) is a reemerging mosquito-borne pathogen that has recently caused devastating urban epidemics of severe and sometimes chronic arthralgia. As with most other mosquito-borne viral diseases, control relies on reducing mosquito populations and their contact with people, which has been ineffective in most locations. Therefore, vaccines remain the best strategy to prevent most vector-borne diseases. Ideally, vaccines for diseases of resource-limited countries should combine low cost and single dose efficacy, yet induce rapid and long-lived immunity with negligible risk of serious adverse reactions. To develop such a vaccine to protect against chikungunya fever, we employed a rational attenuation mechanism that also prevents the infection of mosquito vectors. The internal ribosome entry site (IRES) from encephalomyocarditis virus replaced the subgenomic promoter in a cDNA CHIKV clone, thus altering the levels and host-specific mechanism of structural protein gene expression. Testing in both normal outbred and interferon response-defective mice indicated that the new vaccine candidate is highly attenuated, immunogenic and efficacious after a single dose. Furthermore, it is incapable of replicating in mosquito cells or infecting mosquitoes in vivo. This IRES-based attenuation platform technology may be useful for the predictable attenuation of any alphavirus.

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Chimeric alphavirus vaccine candidates for chikungunya

Wang

Volkova

Adams

et al. 2008

Vaccine

172

169

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Chikungunya virus (CHIKV) is an emerging alphavirus that has caused major epidemics in India and islands off the east coast of Africa since 2005. Importations into Europe and the Americas, including one that led to epidemic transmission in Italy during 2007, underscore the risk of endemic establishment elsewhere. Because there is no licensed human vaccine, and an attenuated Investigational New Drug product developed by the U.S. Army causes mild arthritis in some vaccinees, we developed chimeric alphavirus vaccine candidates using either Venezuelan equine encephalitis attenuated vaccine strain TC-83, a naturally attenuated strain of eastern equine encephalitis virus (EEEV), or Sindbis virus as a backbone and the structural protein genes of CHIKV. All vaccine candidates replicated efficiently in cell cultures, and were highly attenuated in mice. All of the chimeras also produced robust neutralizing antibody responses, although the TC-83 and EEEV backbones appeared to offer greater immunogenicity. Vaccinated mice were fully protected against disease and viremia after CHIKV challenge.

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Attenuation of Chikungunya Virus Vaccine Strain 181/Clone 25 Is Determined by Two Amino Acid Substitutions in the E2 Envelope Glycoprotein

Gorchakov¹,

Wang²,

Leal³

et al. 2012

J Virol

162

163

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Chikungunya virus (CHIKV) is the mosquito-borne alphavirus that is the etiologic agent of massive outbreaks of arthralgic febrile illness that recently affected millions of people in Africa and Asia. The only CHIKV vaccine that has been tested in humans, strain 181/clone 25, is a live-attenuated derivative of Southeast Asian human isolate strain AF15561. The vaccine was immunogenic in phase I and II clinical trials; however, it induced transient arthralgia in 8% of the vaccinees. There are five amino acid differences between the vaccine and its parent, as well as five synonymous mutations, none of which involves cis -acting genome regions known to be responsible for replication or packaging. To identify the determinants of attenuation, we therefore tested the five nonsynonymous mutations by cloning them individually or in different combinations into infectious clones derived from two wild-type (WT) CHIKV strains, La Reunion and AF15561. Levels of virulence were compared with those of the WT strains and the vaccine strain in two different murine models: infant CD1 and adult A129 mice. An attenuated phenotype indistinguishable from that of the 181/clone 25 vaccine strain was obtained by the simultaneous expression of two E2 glycoprotein substitutions, with intermediate levels of attenuation obtained with the single E2 mutations. The other three amino acid mutations, in nsP1, 6K, and E1, did not have a detectable effect on CHIKV virulence. These results indicate that the attenuation of strain 181/clone 25 is mediated by two point mutations, explaining the phenotypic instability observed in human vaccinees and also in our studies.

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Eryu Wang

Evolutionary Relationships of Endemic/Epidemic and Sylvatic Dengue Viruses

RNA viruses can hijack vertebrate microRNAs to suppress innate immunity

Novel Chikungunya Vaccine Candidate with an IRES-Based Attenuation and Host Range Alteration Mechanism

Chimeric alphavirus vaccine candidates for chikungunya

Attenuation of Chikungunya Virus Vaccine Strain 181/Clone 25 Is Determined by Two Amino Acid Substitutions in the E2 Envelope Glycoprotein

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