2022
Uncovering the molecular identity of cardiosphere-derived cells (CDCs) by single-cell RNA sequencing
Kogan P, Wirth F, Tomar A, Darr J, Teperino R, Lahm H, Dreßen M, Puluca N, Zhang Z, Neb I, Beck N, Luzius T, de la Osa de la Rosa L, Gärtner K, Hüls C, Zeidler R, Ramanujam D, Engelhardt S, Wenk C, Holdt L, Mononen M, Sahara M, Cleuziou J, Hörer J, Lange R, Krane M, Doppler S. Uncovering the molecular identity of cardiosphere-derived cells (CDCs) by single-cell RNA sequencing. Basic Research In Cardiology 2022, 117: 11. PMID: 35258704, PMCID: PMC8902493, DOI: 10.1007/s00395-022-00913-y.Peer-Reviewed Original ResearchConceptsSingle-cell RNA sequencingExtracellular vesiclesRNA sequencingMolecular identityCell typesMitochondria-rich cell typesCardiosphere-derived cellsMitochondria-rich cellsHuman-induced pluripotent stem cellsPluripotent stem cellsCardiac progenitor cellsPro-apoptotic BaxGO termsNon-hematopoietic cellsCardiac developmentTranscriptomic similarityStem cellsProgenitor cellsCellular originNon-myocyte cellsNew specific markerCulture conditionsBiological similaritiesSpecial culture conditionsSequencing
2019
Circulating exosomes derived from transplanted progenitor cells aid the functional recovery of ischemic myocardium
Saha P, Sharma S, Korutla L, Datla SR, Shoja-Taheri F, Mishra R, Bigham GE, Sarkar M, Morales D, Bittle G, Gunasekaran M, Ambastha C, Arfat MY, Li D, Habertheuer A, Hu R, Platt MO, Yang P, Davis ME, Vallabhajosyula P, Kaushal S. Circulating exosomes derived from transplanted progenitor cells aid the functional recovery of ischemic myocardium. Science Translational Medicine 2019, 11 PMID: 31118291, PMCID: PMC6857931, DOI: 10.1126/scitranslmed.aau1168.Peer-Reviewed Original ResearchConceptsCardiac progenitor cellsMessenger RNACondition-specific mannerComputational pathway analysisProgenitor cellsCellular messenger RNAsCardiosphere-derived cellsProgenitor cell typesStem cell fieldCell-derived exosomesPathway analysisMicroRNA (miRNA) cargoCell typesExosomesTransplanted progenitor cellsCPC exosomesConditional activityPlasma exosomesC-kitCellsCell fieldTransplanted cardiac progenitor cellsRNAMyocardial infarction modelPathwayCritical role of Lin28‐TNFR2 signalling in cardiac stem cell activation and differentiation
Xiang Q, Yang B, Li L, Qiu B, Qiu C, Gao X, Zhou H, Min W. Critical role of Lin28‐TNFR2 signalling in cardiac stem cell activation and differentiation. Journal Of Cellular And Molecular Medicine 2019, 23: 0-0. PMID: 30734494, PMCID: PMC6433861, DOI: 10.1111/jcmm.14202.Peer-Reviewed Original ResearchConceptsCardiac stem cell activationStem cell activationHuman inducible pluripotent stem cellsCardiac stem cell differentiationCSC activationStem cell differentiationInducible pluripotent stem cellsPluripotent stem cellsCardiac progenitor cellsCritical roleActivation of TNFR2Factor RNACell activationProtein Lin28Cardiomyocyte proteinsCell differentiationStem cellsProgenitor cellsStem cell-based therapiesCSC differentiationProtein expressionDifferentiationCell-based therapiesExpressionActivation
2018
Cardiac Progenitor Cells in Basic Biology and Regenerative Medicine
Witman N, Sahara M. Cardiac Progenitor Cells in Basic Biology and Regenerative Medicine. Stem Cells International 2018, 2018: 8283648. PMID: 29535783, PMCID: PMC5832196, DOI: 10.1155/2018/8283648.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsStem cell therapyMyocardial infarctionCardiac progenitor cellsCell therapyMajor cardiovascular eventsProgenitor cellsPreclinical animal modelsCardiovascular stem cell therapyStem cell-based approachesCardiovascular eventsStem/progenitor cell biologyDevice therapyVentricular functionMorbidity rateClinical trialsHeart diseaseProgenitor cell biologyMortality ratePharmacological agentsAnimal modelsPatient careCell-based approachesPhase ITherapyCardiac tissue
2015
Differential Expression of Candidate Genes with de novo Mutations in Patients with Hypoplastic Left Heart Syndrome in Murine Cardiac Progenitor Cells
Dreßen M, Crotti L, Lahm H, Moretti A, Wolf K, Cleuziou J, Schön P, Hörer J, Schreiber C, Doppler S, Werner A, Deutsch M, Schiemann M, Brade T, Laue S, Oexle K, Mastantuono E, Gruber P, Laugwitz K, Meitinger T, Lange R, Krane M. Differential Expression of Candidate Genes with de novo Mutations in Patients with Hypoplastic Left Heart Syndrome in Murine Cardiac Progenitor Cells. The Thoracic And Cardiovascular Surgeon 2015, 63 DOI: 10.1055/s-0035-1544380.Peer-Reviewed Original Research
2014
Functional Cardiomyocytes Derived from Isl1 Cardiac Progenitors via Bmp4 Stimulation
Cagavi E, Bartulos O, Suh CY, Sun B, Yue Z, Jiang Z, Yue L, Qyang Y. Functional Cardiomyocytes Derived from Isl1 Cardiac Progenitors via Bmp4 Stimulation. PLOS ONE 2014, 9: e110752. PMID: 25522363, PMCID: PMC4270687, DOI: 10.1371/journal.pone.0110752.Peer-Reviewed Original ResearchConceptsCardiac progenitor cellsCardiac repairProliferative abilityProgenitor cellsCell-based cardiac regenerative therapySignificant therapeutic valueCardiac regenerative therapyAdult cardiac progenitor cellsStem cellsCPC culturesHigh proliferative abilityHeart failureCardiac originCardiac differentiationMyocardial infarctionAnterior heart fieldInduction of Bmp4Leading causePotential treatmentRole of BMP4Therapeutic valueCardiac progenitorsUntreated cardiomyocytesProtein expressionRegenerative therapyPrecardiac deletion of Numb and Numblike reveals renewal of cardiac progenitors
Shenje LT, Andersen P, Uosaki H, Fernandez L, Rainer PP, Cho GS, Lee DI, Zhong W, Harvey RP, Kass DA, Kwon C. Precardiac deletion of Numb and Numblike reveals renewal of cardiac progenitors. ELife 2014, 3: e02164. PMID: 24843018, PMCID: PMC4007206, DOI: 10.7554/elife.02164.Peer-Reviewed Original ResearchConceptsCardiac progenitor cells
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