grant

mRNA-Based Vaccines Against Tick Borne Thogotoviruses

Organization WASHINGTON UNIVERSITYLocation SAINT LOUIS, UNITED STATESPosted 1 Mar 2025Deadline 28 Feb 2027
NIHUS FederalResearch GrantFY20252019 novel corona virus2019 novel coronavirus2019-nCoVAddressAlpha-Beta-Omega Interferon Receptor-1Animal ModelAnimal Models and Related StudiesAnti-viral TherapyAntibodiesAntigensAntiseraAntiviral Protein Alpha TypeArthropod VectorsAssayAttenuatedB blood cellsB cellB cellsB-CellsB-LymphocytesB-cellBioassayBiological AssayBody Weight decreasedBourbon virusCOVID crisisCOVID epidemicCOVID pandemicCOVID-19 crisisCOVID-19 epidemicCOVID-19 eraCOVID-19 global health crisisCOVID-19 global pandemicCOVID-19 health crisisCOVID-19 infectionCOVID-19 pandemicCOVID-19 periodCOVID-19 public health crisisCOVID-19 virusCOVID-19 virus infectionCOVID-19 yearsCOVID19 infectionCOVID19 virusCenters for Disease ControlCenters for Disease Control and PreventionCenters for Disease Control and Prevention (U.S.)ClinicalCoV-2CoV2Cost of IllnessDataDhori virusDiseaseDisease CostsDisorderDoseELISAEconomicsEnzyme-Linked Immunosorbent AssayFamilyFlow CytofluorometriesFlow CytofluorometryFlow CytometryFlow MicrofluorimetryFlow MicrofluorometryFutureGenerationsGlycoproteinsGoalsHealthHeartland virusHuIFN-Alpha-RecHumanIFNBRIFRCImmuneImmune SeraImmunesImmunityImmunizeIncidenceInterferon Alpha-Beta Receptor Alpha ChainInterferon Type IIxodidaKO miceKnock-outKnock-out MiceKnockoutKnockout MiceKnowledgeLicensingLifeMapsMeasuresMessenger RNAMiceMice MammalsModelingModern ManMurineMusNucleoproteinsNull MouseOrthomyxoviridaeOrthomyxovirusesPopulationPowassanPowassan virusProteinsRNA VirusesRNA vaccineRNA-based vaccineSARS corona virus 2SARS-CO-V2SARS-COVID-2SARS-CoV-2SARS-CoV-2 epidemicSARS-CoV-2 global health crisisSARS-CoV-2 global pandemicSARS-CoV-2 infectionSARS-CoV-2 pandemicSARS-CoV2SARS-CoV2 infectionSARS-associated corona virus 2SARS-associated coronavirus 2SARS-coronavirus-2SARS-coronavirus-2 epidemicSARS-coronavirus-2 pandemicSARS-related corona virus 2SARS-related coronavirus 2SARSCoV2ScientistSevere Acute Respiratory Coronavirus 2Severe Acute Respiratory Distress Syndrome CoV 2Severe Acute Respiratory Distress Syndrome Corona Virus 2Severe Acute Respiratory Distress Syndrome Coronavirus 2Severe Acute Respiratory Syndrome CoV 2Severe Acute Respiratory Syndrome CoV 2 epidemicSevere Acute Respiratory Syndrome CoV 2 pandemicSevere Acute Respiratory Syndrome-associated coronavirus 2Severe Acute Respiratory Syndrome-related coronavirus 2Severe acute respiratory syndrome associated corona virus 2Severe acute respiratory syndrome coronavirus 2Severe acute respiratory syndrome coronavirus 2 epidemicSevere acute respiratory syndrome coronavirus 2 infectionSevere acute respiratory syndrome coronavirus 2 pandemicSevere acute respiratory syndrome related corona virus 2Sickness CostT cell responseT-Cell EpitopesT-CellsT-LymphocyteT-Lymphocyte EpitopesTechnologyTestingThogoto-Like VirusesThogotovirusTick-Borne DiseasesTick-Borne Encephalitis VirusTickborne Encephalitis VirusTicksTransmissionUnited StatesUnited States Centers for Disease ControlUnited States Centers for Disease Control and PreventionVaccine AntigenVaccine DesignVaccinesViralViral AntigensViral Gene ProductsViral Gene ProteinsViral ProteinsVirusWeight LossWeight ReductionWild Type MouseWuhan coronavirusaccess to vaccinationaccess to vaccinesadaptive immunityanti-tick immunizationanti-tick vaccineattenuateattenuatesbody weight lossclimate changeclimatic changescombatcompare to controlcomparison controlcoronavirus disease 2019 crisiscoronavirus disease 2019 epidemiccoronavirus disease 2019 global health crisiscoronavirus disease 2019 global pandemiccoronavirus disease 2019 health crisiscoronavirus disease 2019 infectioncoronavirus disease 2019 pandemiccoronavirus disease 2019 public health crisiscoronavirus disease 2019 viruscoronavirus disease crisiscoronavirus disease epidemiccoronavirus disease pandemiccoronavirus disease-19 global pandemiccoronavirus disease-19 pandemiccoronavirus disease-19 viruscross reactivitydemographicsdesigndesigningdetermine efficacydevelop a vaccinedevelop vaccinesdevelopment of a vaccineeconomicefficacy analysisefficacy assessmentefficacy determinationefficacy evaluationefficacy examinationemergent virusemerging pathogenemerging virusenzyme linked immunoassayevaluate efficacyevaluate vaccinesexamine efficacyflow cytophotometryglobal climate changehCoV19ifnar1 gene productimmune serumimmunization against ticksimmunogenimmunogenicin vivoinfected with COVID-19infected with COVID19infected with SARS-CoV-2infected with SARS-CoV2infected with coronavirus disease 2019infected with severe acute respiratory syndrome coronavirus 2lipid based nanoparticlelipid nanoparticlemRNAmRNA vaccinemRNA-based vaccinemodel of animalmouse modelmurine modelnCoV2neutralizing antibodynew pathogennovel pathogenpathogenpathogenic viruspre-clinicalpreclinicalpreventpreventingsevere acute respiratory syndrome coronavirus 2 global health crisissevere acute respiratory syndrome coronavirus 2 global pandemicthymus derived lymphocytetick mediated transmissiontick transmissiontick transmittedtick-bornetick-borne illnesstick-borne pathogentick-borne virustickbornetickborne diseasetickborne illnesstickborne pathogentickborne virustransmission processtype I IFN receptortype I interferon receptoruniversal vaccinevaccination accessvaccination availabilityvaccine accessvaccine against ticksvaccine availabilityvaccine developmentvaccine efficacyvaccine evaluationvaccine screeningvaccine testingvector controlvector transmissionviral emergenceviral infectious disease treatmentviral pathogenvirologyvirus antigenvirus pathogenvirus proteinwildtype mousewt-loss
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Full Description

The incidence of tick-borne diseases has increased significantly over the past 25 years due to ecological changes and shifting population demographics of both humans and ticks, and inadequate vector control. Including economic and societal burden, it is estimated that tick-borne diseases costs between 50 and 100 billion dollars each year. The Center for Disease Control and Prevention currently recognizes 18 different tick-transmitted pathogens in the United States. This number is likely to rise as novel pathogens are being discovered each year.

One of these pathogens is Bourbon virus (BRBV), an emerging tick-borne RNA virus that can infect and cause disease in humans. No antiviral therapies or vaccines are available, highlighting the need to develop countermeasures against this life-threatening diseases. The primary objective of this application is to develop an mRNA vaccine against BRBV, evaluate its efficacy in vivo in a mouse model of BRBV and determine the mechanism of action. A secondary objective is to test different viral antigens and combinations of antigens and evaluate heterologous protection against divergent thogotoviruses, therefore developing a road map for panpathogen mRNA vaccines.

Successful completion of the proposed studies will provide the preliminary data for a R01 application aimed at developing a universal vaccine that confers protection against tick-borne pathogens in the United States and beyond.

Grant Number: 1R21AI185820-01A1
NIH Institute/Center: NIH
Principal Investigator: Adrianus Boon

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