2024
A naturally isolated symbiotic bacterium suppresses flavivirus transmission by Aedes mosquitoes
Zhang L, Wang D, Shi P, Li J, Niu J, Chen J, Wang G, Wu L, Chen L, Yang Z, Li S, Meng J, Ruan F, He Y, Zhao H, Ren Z, Wang Y, Liu Y, Shi X, Wang Y, Liu Q, Li J, Wang P, Wang J, Zhu Y, Cheng G. A naturally isolated symbiotic bacterium suppresses flavivirus transmission by Aedes mosquitoes. Science 2024, 384: eadn9524. PMID: 38669573, DOI: 10.1126/science.adn9524.Peer-Reviewed Original ResearchConceptsColony forming unitsFlavivirus envelope proteinCommensal microbiotaIrreversible conformational changesGlucose dehydrogenaseMosquito gutConformational changesGut lumenPrevent viral infectionGutBacteriumFlavivirus transmissionEnvelope proteinsVector competencePrevent viral entryViral entryRefractory to infectionDengue virusForming unitsField mosquitoesTransmission of dengue virusFlavivirusesMosquitoesSemifield conditionsAdult mosquitoes
2022
Neighboring mutation‐mediated enhancement of dengue virus infectivity and spread
Chen L, Zhang X, Guo X, Peng W, Zhu Y, Wang Z, Yu X, Shi H, Li Y, Zhang L, Wang L, Wang P, Cheng G. Neighboring mutation‐mediated enhancement of dengue virus infectivity and spread. EMBO Reports 2022, 23: embr202255671. PMID: 36197120, PMCID: PMC9638853, DOI: 10.15252/embr.202255671.Peer-Reviewed Original Research
2019
Host 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 bloodVirusGenetic 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
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
Dengue Virus Capsid Protein Binds Core Histones and Inhibits Nucleosome Formation in Human Liver Cells
Colpitts TM, Barthel S, Wang P, Fikrig E. Dengue Virus Capsid Protein Binds Core Histones and Inhibits Nucleosome Formation in Human Liver Cells. PLOS ONE 2011, 6: e24365. PMID: 21909430, PMCID: PMC3164731, DOI: 10.1371/journal.pone.0024365.Peer-Reviewed Original ResearchConceptsDENV infectionDENV CHuman liver cellsDengue virusLiver cellsDengue virus infectionTime-dependent mannerSpecific antiviralsVirus infectionInfectionAlters levelsSerious human diseasesInteresting new roleViral RNANuclear presenceMature virus particlesVirus particlesHuman diseasesFlaviviral replicationCellsCellular responsesCapsid proteinStructural proteinsVaccineAn In Vivo Transfection Approach Elucidates a Role for Aedes aegypti Thioester-Containing Proteins in Flaviviral Infection
Cheng G, Liu L, Wang P, Zhang Y, Zhao YO, Colpitts TM, Feitosa F, Anderson JF, Fikrig E. An In Vivo Transfection Approach Elucidates a Role for Aedes aegypti Thioester-Containing Proteins in Flaviviral Infection. PLOS ONE 2011, 6: e22786. PMID: 21818390, PMCID: PMC3144946, DOI: 10.1371/journal.pone.0022786.Peer-Reviewed Original Research