2023
Progressive shingles in a toddler due to reactivation of Varicella Zoster vaccine virus four days after infection with SARS-CoV-2; a case report
Miller C, Taylor-Salmon E, Emuren L, Landry M, Gershon A, Miller G. Progressive shingles in a toddler due to reactivation of Varicella Zoster vaccine virus four days after infection with SARS-CoV-2; a case report. BMC Infectious Diseases 2023, 23: 854. PMID: 38057696, PMCID: PMC10698951, DOI: 10.1186/s12879-023-08809-5.Peer-Reviewed Original ResearchConceptsVaricella-zoster virusVZV reactivationVaccine-strain varicella-zoster virusSevere acute respiratory syndrome coronavirus 2Acute respiratory syndrome coronavirus 2Latent varicella zoster virusSymptomatic COVID-19 infectionRespiratory syndrome coronavirus 2SARS-CoV2 infectionSyndrome coronavirus 2COVID-19 infectionVaccine-type strainsSARS-CoV-2Vesicular rashPediatric patientsSignificant morbidityClinical syndromeCoronavirus 2Single doseCase reportGeneral populationMechanical traumaDisease processHZ casesPhysiologic stress
2016
The Vitamin D Receptor Regulates Tissue Resident Macrophage Response to Injury
Song L, Papaioannou G, Zhao H, Luderer H, Miller C, Dall’Osso C, Nazarian R, Wagers A, Demay M. The Vitamin D Receptor Regulates Tissue Resident Macrophage Response to Injury. Endocrinology 2016, 157: 4066-4075. PMID: 27526034, PMCID: PMC5045513, DOI: 10.1210/en.2016-1474.Peer-Reviewed Original ResearchConceptsVDR KO miceVitamin D receptorWild-type miceKO miceResident macrophagesM-CSFM-CSF gene expressionVitamin D receptor ablationM-CSF-induced proliferationVitamin D receptor knockoutVitamin D receptor statusInflammatory response to injuryMacrophage colony-stimulating factorColony-stimulating factorPeritoneal resident macrophagesRecruitment of macrophagesTissue resident macrophagesRegulation of innateLigand-dependent actionsLiganded vitamin D receptorResponse to injuryCyclin D1 expressionMacrophage self-renewalParabiosis studiesMacrophage defect
2013
Growth Differentiation Factor 11 Is a Circulating Factor that Reverses Age-Related Cardiac Hypertrophy
Loffredo F, Steinhauser M, Jay S, Gannon J, Pancoast J, Yalamanchi P, Sinha M, Dall’Osso C, Khong D, Shadrach J, Miller C, Singer B, Stewart A, Psychogios N, Gerszten R, Hartigan A, Kim M, Serwold T, Wagers A, Lee R. Growth Differentiation Factor 11 Is a Circulating Factor that Reverses Age-Related Cardiac Hypertrophy. Cell 2013, 153: 828-839. PMID: 23663781, PMCID: PMC3677132, DOI: 10.1016/j.cell.2013.04.015.Peer-Reviewed Original ResearchConceptsCardiac hypertrophyYoung miceOld miceCirculating factorsTreatment of old miceAge-related hypertrophyReduced cardiomyocyte sizeGrowth differentiation factor 11Aptamer-based proteomicsDifferentiation factor 11Blood-borne factorsReverse age-related cardiac hypertrophyCardiomyocyte sizeHeart failureSurgical techniqueHypertrophyCardiac agingHeterochronic parabiosisTherapeutic opportunitiesTGF-bFactor 11Influence of circulation factorsBehavioral effectsMiceMolecular remodeling