2022
Lipases secreted by a gut bacterium inhibit arbovirus transmission in mosquitoes
Yu X, Tong L, Zhang L, Yang Y, Xiao X, Zhu Y, Wang P, Cheng G. Lipases secreted by a gut bacterium inhibit arbovirus transmission in mosquitoes. PLOS Pathogens 2022, 18: e1010552. PMID: 35679229, PMCID: PMC9182268, DOI: 10.1371/journal.ppat.1010552.Peer-Reviewed Original ResearchConceptsJapanese encephalitis virusYellow fever virusZika virusDengue virusSindbis virusGlobal public healthBroad-spectrum virucidal activityEffective prophylacticLipase activityViral envelope structureViral infectionSevere human diseasesEncephalitis virusAedes aegypti midgutVirucidal activityEtiological agentTremendous burdenFever virusVirusMost arbovirusesPublic healthVector-borne diseasesAegypti midgutDiseaseVirucidal ability
2019
Progress towards Understanding the Mosquito-Borne Virus Life Cycle
Yu X, Zhu Y, Xiao X, Wang P, Cheng G. Progress towards Understanding the Mosquito-Borne Virus Life Cycle. Trends In Parasitology 2019, 35: 1009-1017. PMID: 31669148, DOI: 10.1016/j.pt.2019.09.006.Peer-Reviewed Original ResearchHost serum iron modulates dengue virus acquisition by mosquitoes
Zhu Y, Tong L, Nie K, Wiwatanaratanabutr I, Sun P, Li Q, Yu X, Wu P, Wu T, Yu C, Liu Q, Bian Z, Wang P, Cheng G. Host serum iron modulates dengue virus acquisition by mosquitoes. Nature Microbiology 2019, 4: 2405-2415. PMID: 31527795, DOI: 10.1038/s41564-019-0555-x.Peer-Reviewed Original ResearchConceptsSerum ironDengue virusVirus acquisitionDengue virus infectionIron-deficient miceDengue virus prevalenceIron metabolism pathwaysViral loadIron supplementationA. aegypti mosquitoesHigh prevalenceVirus infectionArbovirus infectionHuman donorsIron deficiencyInfectionBlood componentsGut epitheliumReactive oxygen speciesSusceptibility of mosquitoesVirus prevalenceAegypti mosquitoesBlood mealHuman bloodVirusChikungunya Virus and (Re-) Emerging Alphaviruses
Wang P, Zhang R. Chikungunya Virus and (Re-) Emerging Alphaviruses. Viruses 2019, 11: 779. PMID: 31450552, PMCID: PMC6784149, DOI: 10.3390/v11090779.Peer-Reviewed Original ResearchLack of efficacy of ivermectin for prevention of a lethal Zika virus infection in a murine system
Ketkar H, Yang L, Wormser GP, Wang P. Lack of efficacy of ivermectin for prevention of a lethal Zika virus infection in a murine system. Diagnostic Microbiology And Infectious Disease 2019, 95: 38-40. PMID: 31097261, PMCID: PMC6697611, DOI: 10.1016/j.diagmicrobio.2019.03.012.Peer-Reviewed Original ResearchConceptsZika virus infectionAnti-Zika virus activityVirus infectionAnimal modelsZika virusLethal Zika Virus InfectionIFNAR1 knockout miceZika virus strainLack of efficacyEffectiveness of ivermectinLethal infectionKnockout miceVirus activityAntiviral activityMurine systemVirus strainsDrug ivermectinInfectionIvermectinStudy limitationsPreventionVirusSenegal strainMiceAedes mosquitoes acquire and transmit Zika virus by breeding in contaminated aquatic environments
Du S, Liu Y, Liu J, Zhao J, Champagne C, Tong L, Zhang R, Zhang F, Qin CF, Ma P, Chen CH, Liang G, Liu Q, Shi PY, Cazelles B, Wang P, Tian H, Cheng G. Aedes mosquitoes acquire and transmit Zika virus by breeding in contaminated aquatic environments. Nature Communications 2019, 10: 1324. PMID: 30902991, PMCID: PMC6430813, DOI: 10.1038/s41467-019-09256-0.Peer-Reviewed Original ResearchArbovirus lifecycle in mosquito: acquisition, propagation and transmission
Wu P, Yu X, Wang P, Cheng G. Arbovirus lifecycle in mosquito: acquisition, propagation and transmission. Expert Reviews In Molecular Medicine 2019, 21: e1. PMID: 30862324, DOI: 10.1017/erm.2018.6.Peer-Reviewed Original ResearchConceptsDistinct host environmentsBlood mealHaematophagous vectorsVertebrate animalsVertebrate hostsMosquito-Borne VirusesHuman diseasesNaive mosquitoesHost environmentMosquito tissuesNext blood mealInfected hostVector factorsMosquitoesPathogenic virusesHostVirus reservoirVirus survivalRecent studiesAetiological agentVirusTissueMealDiseaseGenetic Determinants of the Re-Emergence of Arboviral Diseases
Ketkar H, Herman D, Wang P. Genetic Determinants of the Re-Emergence of Arboviral Diseases. Viruses 2019, 11: 150. PMID: 30759739, PMCID: PMC6410223, DOI: 10.3390/v11020150.Peer-Reviewed Original ResearchConceptsViral genetic determinantsPublic health threatGenetic determinantsZika virusViral transmissionInfectious diseasesArboviral diseasesWest NileHealth threatYellow feverDiseaseViral fitnessViral geneticsVector competenceInternational travelVirusMosquitoesGlobal climate changeMosquito populationsFeverHost
2018
A Gut Commensal Bacterium Promotes Mosquito Permissiveness to Arboviruses
Wu P, Sun P, Nie K, Zhu Y, Shi M, Xiao C, Liu H, Liu Q, Zhao T, Chen X, Zhou H, Wang P, Cheng G. A Gut Commensal Bacterium Promotes Mosquito Permissiveness to Arboviruses. Cell Host & Microbe 2018, 25: 101-112.e5. PMID: 30595552, DOI: 10.1016/j.chom.2018.11.004.Peer-Reviewed Original ResearchConceptsArboviral infectionsCommensal bacteriumGut bacteriaDengue virus infectionGut commensal bacteriumCultivable gut bacteriaAedes aegypti mosquitoesVirus infectionViral disseminationAntibiotic depletionIntestinal tractOral introductionGut microbiomeGut epitheliumInfectionMembrane-bound mucinsHuman virusesAegypti mosquitoesHematophagous vectorsVector competenceArbovirusesField mosquitoesSerratia marcescensMosquitoesVirus
2017
Sophoraflavenone G Restricts Dengue and Zika Virus Infection via RNA Polymerase Interference
Sze A, Olagnier D, Hadj SB, Han X, Tian XH, Xu HT, Yang L, Shi Q, Wang P, Wainberg MA, Wu JH, Lin R. Sophoraflavenone G Restricts Dengue and Zika Virus Infection via RNA Polymerase Interference. Viruses 2017, 9: 287. PMID: 28972551, PMCID: PMC5691638, DOI: 10.3390/v9100287.Peer-Reviewed Original ResearchConceptsZika virus infectionHepatitis C virusHepatitis C replicationPost-infection treatmentGlobal health concernAntiviral treatmentC virusVirus infectionVesicular stomatitis virusZika virusAntiviral compoundsHealth concernChinese medicinePolymerase inhibitionDengueStomatitis virusVirusTreatmentRNA polymerase inhibitionInfectionDiseaseFlaviviruses
2011
prM-antibody renders immature West Nile virus infectious in vivo
Colpitts TM, Rodenhuis-Zybert I, Moesker B, Wang P, Fikrig E, Smit JM. prM-antibody renders immature West Nile virus infectious in vivo. Journal Of General Virology 2011, 92: 2281-2285. PMID: 21697345, PMCID: PMC3347797, DOI: 10.1099/vir.0.031427-0.Peer-Reviewed Original ResearchConceptsWest Nile virusInfectious West Nile virusNile virusDeath of micePrM antibodiesNeurotropic pathogensWNV particlesSevere human diseasesFamily FlaviviridaeVivo proofImmature flavivirus particlesInfectious potentialAntibodiesDiseaseViral surfaceVirus particlesPrM proteinFlavivirus particlesVirusHuman diseasesInfectionMiceFlavivirusesBrainSerum
2008
ICAM-1 Participates in the Entry of West Nile Virus into the Central Nervous System
Dai J, Wang P, Bai F, Town T, Fikrig E. ICAM-1 Participates in the Entry of West Nile Virus into the Central Nervous System. Journal Of Virology 2008, 82: 4164-4168. PMID: 18256150, PMCID: PMC2292986, DOI: 10.1128/jvi.02621-07.Peer-Reviewed Original ResearchConceptsWest Nile virusICAM-1Control animalsWest Nile virus neuroinvasionBlood-brain barrier leakagePathogenesis of encephalitisNile virusBlood-brain barrierLow viral loadWest Nile encephalitisCentral nervous systemICAM-1 participatesVirus neuroinvasionNeuronal damageLeukocyte infiltrationViral encephalitisViral loadBarrier leakageViral infectionNervous systemEncephalitisMiceICAMVirusAnimals