Madison Strine, PhD
Postdoctoral AssociateAbout
Research
Publications
Featured Publications
Intestinal tuft cell immune privilege enables norovirus persistence
Strine M, Fagerberg E, Darcy P, Barrón G, Filler R, Alfajaro M, D'Angelo-Gavrish N, Wang F, Graziano V, Menasché B, Damo M, Wang Y, Howitt M, Lee S, Joshi N, Mucida D, Wilen C. Intestinal tuft cell immune privilege enables norovirus persistence. Science Immunology 2024, 9: eadi7038. PMID: 38517952, PMCID: PMC11555782, DOI: 10.1126/sciimmunol.adi7038.Peer-Reviewed Original ResearchConceptsCD8<sup>+</sup> T cellsIntestinal tuft cellsT cellsTufted cellsViral persistenceSite of viral persistenceChemosensory epithelial cellsNormal antigen presentationImmune-privileged nicheIntestinal stem cellsMemory phenotypeImmune privilegeImmune escapeReporter miceAntigen presentationChronic infectionCytotoxic capacityEpithelial cellsNorovirus infectionStem cellsCell interactionsInfectionCell survivalEnteric microbesCellsDYRK1A promotes viral entry of highly pathogenic human coronaviruses in a kinase-independent manner
Strine M, Cai W, Wei J, Alfajaro M, Filler R, Biering S, Sarnik S, Chow R, Patil A, Cervantes K, Collings C, DeWeirdt P, Hanna R, Schofield K, Hulme C, Konermann S, Doench J, Hsu P, Kadoch C, Yan Q, Wilen C. DYRK1A promotes viral entry of highly pathogenic human coronaviruses in a kinase-independent manner. PLOS Biology 2023, 21: e3002097. PMID: 37310920, PMCID: PMC10263356, DOI: 10.1371/journal.pbio.3002097.Peer-Reviewed Original ResearchConceptsGenome-wide CRISPR/Cas9 screenCRISPR/Cas9 screenPathogenic human coronavirusesKinase-independent mannerRegulated kinase 1AProviral host factorNovel drug targetsMultiple cell typesDNA accessibilityHost factorsKinase functionHuman coronavirusesHost genesDistal enhancerNovel regulatorCas9 screenKinase 1AGene expressionNeuronal developmentDYRK1ADrug targetsDiverse coronavirusesProviral activityCell typesSevere acute respiratory syndrome coronavirus 2Tuft-cell-intrinsic and -extrinsic mediators of norovirus tropism regulate viral immunity
Strine M, Alfajaro M, Graziano V, Song J, Hsieh L, Hill R, Guo J, VanDussen K, Orchard R, Baldridge M, Lee S, Wilen C. Tuft-cell-intrinsic and -extrinsic mediators of norovirus tropism regulate viral immunity. Cell Reports 2022, 41: 111593. PMID: 36351394, PMCID: PMC9662704, DOI: 10.1016/j.celrep.2022.111593.Peer-Reviewed Original ResearchTuft cells are key mediators of interkingdom interactions at mucosal barrier surfaces
Strine MS, Wilen CB. Tuft cells are key mediators of interkingdom interactions at mucosal barrier surfaces. PLOS Pathogens 2022, 18: e1010318. PMID: 35271673, PMCID: PMC8912186, DOI: 10.1371/journal.ppat.1010318.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsInterkingdom interactionsTuft cellsCell biologyImmune responseMicrobial activationMicrobial sensingCell abundanceMucosal barrier surfacesAntiviral adaptive immune responsesType 2 immune responsesCell heterogeneityExquisite specificityMucosal barrier integrityAdaptive immune responsesMurine norovirusHuman healthKey orchestratorsMicrobial infectionsPathogenic bacteriaBroad intraFlavivirus replicationKey mediatorContext of coinfectionTissue repairImmune evasion
2024
Human Milk Supports Robust Intestinal Organoid Growth, Differentiation, and Homeostatic Cytokine Production
Smith L, Santiago E, Eke C, Gu W, Wang W, Llivichuzhca-Loja D, Kehoe T, St Denis K, Strine M, Taylor S, Tseng G, Konnikova L. Human Milk Supports Robust Intestinal Organoid Growth, Differentiation, and Homeostatic Cytokine Production. Gastro Hep Advances 2024, 3: 1030-1042. PMID: 39529649, PMCID: PMC11550179, DOI: 10.1016/j.gastha.2024.07.007.Peer-Reviewed Original ResearchHuman milk supplementationTNF-related apoptosis inducing ligandDonor human milkLevels of leukemia inhibitory factorNecrotizing enterocolitisCytokine productionInflammatory immune signaturesComplications of prematurityHuman milkChromogranin A stainingSevere gastrointestinal complicationsMilk supplementationCell cycle-promoting genesIntestinal organoidsApoptosis inducing ligandIntestinal epithelial proliferationIntestinal epithelial growthGrowth factor analysisCleaved caspase 3Preterm infantsGestational ageLeukemia inhibitory factorImmune signaturesImmune landscapeHydrolyzed formula
2023
Bacillus subtilis Phages Related to SIOphi from Desert Soils of the Southwest United States
Magness L, Delesalle V, Vill A, Strine M, Chaudhry B, Lichty K, Guffey A, DeCurzio J, Krukonis G. Bacillus subtilis Phages Related to SIOphi from Desert Soils of the Southwest United States. PHAGE 2023, 4: 165-172. DOI: 10.1089/phage.2023.0021.Peer-Reviewed Original ResearchPutative protein coding genesDouble-stranded DNA genomeBacillus subtilis phagePhage host rangeLow GC contentProtein coding genesDiversity of phagesAmino acid similarityPhage clusterPhage evolutionPhage genomeGC contentUnique genesBacillus phagesCoding genesDNA genomeReplication genesModel organismsPhageHost rangeMicrobial dynamicsGenetic differencesGenomeGenesDesert soilsComparative Genomics of Bacillus subtilis Phages Related to phiNIT1 from Desert Soils of the Southwest United States
Vill A, Delesalle V, Magness L, Chaudhry B, Lichty K, Strine M, Guffey A, DeCurzio J, Krukonis G. Comparative Genomics of Bacillus subtilis Phages Related to phiNIT1 from Desert Soils of the Southwest United States. PHAGE 2023, 4: 173-180. DOI: 10.1089/phage.2023.0027.Peer-Reviewed Original ResearchGenomic structureBacillus phagesBacillus subtilis phageGram-positive bacteriumPathogenic Bacillus speciesDiverse genomesIntergenic regionSequence similarityGenetic diversityRepeat sequencesProtein familyRepresentative phagesPhageB. subtilisBacillus subtilisHost rangeBacillus speciesGenomeVirion structureCapsid structureDesert soilsTail lengthSequenceMyovirusesLysis assayA Novel Subcluster of Closely Related Bacillus Phages with Distinct Tail Fiber/Lysin Gene Combinations
Loney R, Delesalle V, Chaudry B, Czerpak M, Guffey A, Goubet-McCall L, McCarty M, Strine M, Tanke N, Vill A, Krukonis G. A Novel Subcluster of Closely Related Bacillus Phages with Distinct Tail Fiber/Lysin Gene Combinations. Viruses 2023, 15: 2267. PMID: 38005943, PMCID: PMC10674732, DOI: 10.3390/v15112267.Peer-Reviewed Original ResearchMurine Norovirus: Additional Protocols for Basic and Antiviral Studies
Wobus C, Peiper A, McSweeney A, Young V, Chaika M, Lane M, Lingemann M, Deerain J, Strine M, Alfajaro M, Helm E, Karst S, Mackenzie J, Taube S, Ward V, Wilen C. Murine Norovirus: Additional Protocols for Basic and Antiviral Studies. Current Protocols 2023, 3: e828. PMID: 37478303, PMCID: PMC10375541, DOI: 10.1002/cpz1.828.Peer-Reviewed Original ResearchThe KDM6A-KMT2D-p300 axis regulates susceptibility to diverse coronaviruses by mediating viral receptor expression
Wei J, Alfajaro M, Cai W, Graziano V, Strine M, Filler R, Biering S, Sarnik S, Patel S, Menasche B, Compton S, Konermann S, Hsu P, Orchard R, Yan Q, Wilen C. The KDM6A-KMT2D-p300 axis regulates susceptibility to diverse coronaviruses by mediating viral receptor expression. PLOS Pathogens 2023, 19: e1011351. PMID: 37410700, PMCID: PMC10325096, DOI: 10.1371/journal.ppat.1011351.Peer-Reviewed Original ResearchConceptsMouse hepatitis virusReceptor expressionTherapeutic targetMERS-CoVMajor SARS-CoV-2 variantsPrimary human airwaySARS-CoV-2 variantsNovel therapeutic targetViral receptor expressionSARS-CoV-2Histone methyltransferase KMT2DIntestinal epithelial cellsCoronavirus SusceptibilityDiverse coronavirusesHistone demethylase KDM6ADPP4 expressionCoronavirus receptorsHost determinantsHepatitis virusHuman airwaysSARS-CoVSmall molecule inhibitionViral entryPotential drug targetsViral receptors