2024
Foxp3+ regulatory T cells reside within the corneal epithelium and co-localize with limbal stem cells
Tahvildari M, Me R, Setia M, Gao N, Suvas P, McClellan S, Suvas S. Foxp3+ regulatory T cells reside within the corneal epithelium and co-localize with limbal stem cells. Experimental Eye Research 2024, 249: 110123. PMID: 39396695, PMCID: PMC11622170, DOI: 10.1016/j.exer.2024.110123.Peer-Reviewed Original ResearchConceptsLimbal stem cellsRegulatory T cellsResident TregsT cellsFoxp3<sup>+</sup> regulatory T cellsLimbal stem cell functionMouse modelCorneal epithelial wound healingModel of mechanical injuryStem cellsDepletion of TregsCell functionEpithelial wound healingEpithelial cell functionWound healingStem cell functionMechanical injuryAnti-CD25Epithelial healingSubconjunctival injectionCorneal epitheliumCorneal stromaTregsCornealCornea
2015
Monoclonal antibody profiling of cell surface proteins associated with the viral biofilms on HTLV-1 transformed cells.
Tarasevich A, Filatov A, Pichugin A, Mazurov D. Monoclonal antibody profiling of cell surface proteins associated with the viral biofilms on HTLV-1 transformed cells. Acta Virologica 2015, 59: 247-56. PMID: 26435148, DOI: 10.4149/av_2015_03_247.Peer-Reviewed Original ResearchConceptsViral biofilmsHTLV-1Cluster of differentiationVirological synapseHuman T-lymphotropic virus 1Cell-to-cell virus transmissionIntercellular adhesion molecule 1Upregulates intercellular adhesion molecule 1HTLV-1 infectionHTLV-1 transmissionAdhesion molecule 1HTLV-1 spreadHTLV-1-transformed cellsCell-to-cell contactAnti-CD25Viral protein TaxIL-2RAAntigens CD4ICAM-1Pathogenic retrovirusesCell surface proteinsMolecule 1Monoclonal antibodiesVB formationProtein Tax
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