2023
Apoptosis recognition receptors regulate skin tissue repair in mice
Justynski O, Bridges K, Krause W, Forni M, Phan Q, Sandoval-Schaefer T, Carter K, King D, Hsia H, Gazes M, Vyce S, Driskell R, Miller-Jensen K, Horsley V. Apoptosis recognition receptors regulate skin tissue repair in mice. ELife 2023, 12: e86269. PMID: 38127424, PMCID: PMC10735221, DOI: 10.7554/elife.86269.Peer-Reviewed Original Research
2022
Reindeer light the way to scarless wound healing
Caves E, Horsley V. Reindeer light the way to scarless wound healing. Cell 2022, 185: 4675-4677. PMID: 36493748, DOI: 10.1016/j.cell.2022.11.013.Peer-Reviewed Original ResearchSingle cell transcriptomic landscape of diabetic foot ulcers
Theocharidis G, Thomas BE, Sarkar D, Mumme HL, Pilcher WJR, Dwivedi B, Sandoval-Schaefer T, Sîrbulescu RF, Kafanas A, Mezghani I, Wang P, Lobao A, Vlachos IS, Dash B, Hsia HC, Horsley V, Bhasin SS, Veves A, Bhasin M. Single cell transcriptomic landscape of diabetic foot ulcers. Nature Communications 2022, 13: 181. PMID: 35013299, PMCID: PMC8748704, DOI: 10.1038/s41467-021-27801-8.Peer-Reviewed Original ResearchMeSH KeywordsBiomarkersCell Adhesion MoleculesChitinase-3-Like Protein 1Diabetes MellitusDiabetic FootEndothelial CellsExome SequencingFibroblastsGene Expression RegulationHigh-Throughput Nucleotide SequencingHumansHypoxia-Inducible Factor 1, alpha SubunitKeratinocytesLeukocytesMacrophagesMatrix Metalloproteinase 1Matrix Metalloproteinase 11Matrix Metalloproteinase 3Single-Cell AnalysisSkinTranscriptomeWound HealingConceptsDiabetic foot ulcerationSpatial transcriptomicsSingle-cell transcriptomic landscapeSingle-cell RNA sequencingPeripheral blood mononuclear cellsBlood mononuclear cellsDiabetic foot ulcersM1 macrophage polarizationNovel therapeutic approachesTranscriptomic landscapeWound healing microenvironmentRNA sequencingDFU patientsDevastating complicationFoot ulcerationDFU healingFoot ulcersDFU treatmentMononuclear cellsM1 macrophagesM2 macrophagesMacrophage polarizationTherapeutic approachesSame patientHigh abundance
2021
Skin Fibrosis and Recovery Is Dependent on Wnt Activation via DPP4
Jussila AR, Zhang B, Caves E, Kirti S, Steele M, Hamburg-Shields E, Lydon J, Ying Y, Lafyatis R, Rajagopalan S, Horsley V, Atit RP. Skin Fibrosis and Recovery Is Dependent on Wnt Activation via DPP4. Journal Of Investigative Dermatology 2021, 142: 1597-1606.e9. PMID: 34808238, PMCID: PMC9120259, DOI: 10.1016/j.jid.2021.10.025.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBeta CateninDipeptidyl Peptidase 4FibroblastsFibrosisMiceSkinSkin DiseasesWnt Signaling PathwayConceptsWnt/β-catenin-responsive geneWnt activationExtracellular matrix homeostasisGenetic evidenceHuman fibrotic diseasesLipid-filled cellsFunctional mediatorsExtracellular matrixDermal adipocytesMatrix homeostasisGenetic modelsNew targetsWntKey targetMechanisms of fibrosisFibrotic diseasesTherapeutic avenuesDermal remodelingExtracellular matrix expansionExcessive accumulationRemodelingFibrosis severitySkin fibrosisFibrotic remodelingDPP4 inhibitorsFibroblasts: Origins, definitions, and functions in health and disease
Plikus MV, Wang X, Sinha S, Forte E, Thompson SM, Herzog EL, Driskell RR, Rosenthal N, Biernaskie J, Horsley V. Fibroblasts: Origins, definitions, and functions in health and disease. Cell 2021, 184: 3852-3872. PMID: 34297930, PMCID: PMC8566693, DOI: 10.1016/j.cell.2021.06.024.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell LineageDiseaseFibroblastsHealthHumansMolecular Targeted TherapySignal TransductionConceptsDiverse mesenchymal cellsComplex extracellular matrixCell fateCellular progenyTissue homeostasisCell cycleBiochemical cuesReversible plasticityExtracellular matrixPositional informationMesenchymal cellsSkeletal muscleTissue repairFibrotic disordersFibroblastsLineagesNicheProgenyHomeostasisPhenotypeOrgansFatePlasticityCellsFunction
2015
Origin of fibrosing cells in systemic sclerosis
Ebmeier S, Horsley V. Origin of fibrosing cells in systemic sclerosis. Current Opinion In Rheumatology 2015, 27: 555-562. PMID: 26352735, PMCID: PMC4639394, DOI: 10.1097/bor.0000000000000217.Peer-Reviewed Original ResearchConceptsSystemic sclerosisEndothelial cellsInjury-induced fibrosisEpithelial cellsProgressive fibrosisAutoimmune diseasesTreatment optionsEffective therapyInjury modelFibrosis modelChronic natureAnimal modelsTissue stromaSclerosisCell originFibrosisUnknown originVariety of tissuesCellular originRecent evidenceFibrocytesDiseasePericytesSpecific organsAdipocytes
2013
Intradermal adipocytes mediate fibroblast recruitment during skin wound healing
Schmidt BA, Horsley V. Intradermal adipocytes mediate fibroblast recruitment during skin wound healing. Development 2013, 140: 1517-1527. PMID: 23482487, PMCID: PMC3596993, DOI: 10.1242/dev.087593.Peer-Reviewed Original Research
2012
IL-22 Promotes Fibroblast-Mediated Wound Repair in the Skin
McGee HM, Schmidt BA, Booth CJ, Yancopoulos GD, Valenzuela DM, Murphy AJ, Stevens S, Flavell RA, Horsley V. IL-22 Promotes Fibroblast-Mediated Wound Repair in the Skin. Journal Of Investigative Dermatology 2012, 133: 1321-1329. PMID: 23223145, PMCID: PMC3610794, DOI: 10.1038/jid.2012.463.Peer-Reviewed Original ResearchConceptsIL-22Immune cellsCytokine IL-22Epithelial cellsWound repairIL-22 signalingDermal compartmentFull-thickness woundingAcute injuryPeripheral tissuesSkin wound repairEpithelial regenerationMyofibroblast differentiationSkin woundingEpidermal barrierExtracellular matrix gene expressionMatrix gene expressionInjuryVivo roleSkin repairMiceUnidentified roleFibroblastsRepairUnidirectional signaling