Caihong Qiu, PhD
Research Scientist in Cell BiologyDownloadHi-Res Photo
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Cell Biology
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Research Scientist in Cell Biology
Appointments
Cell Biology
Research ScientistPrimary
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Education & Training
- Postdoctoral
- Albert Einstein College of Medicine (2007)
- PhD
- Graduate Center, City University of New York, Molecular, Cellular, and Develomental Biology (2004)
- MS
- HeBei Normal University (1990)
- BS
- HeBei Normal University (1987)
Research
Overview
Medical Research Interests
Cell Biology; Embryonic Stem Cells
Research at a Glance
Yale Co-Authors
Frequent collaborators of Caihong Qiu's published research.
Publications Timeline
A big-picture view of Caihong Qiu's research output by year.
Research Interests
Research topics Caihong Qiu is interested in exploring.
Haifan Lin, PhD
Jason Thomson
Jun Lu, PhD
Mei Zhong, PhD
Yibing Qyang, PhD
Anna Szekely, MD
21Publications
893Citations
Embryonic Stem Cells
Publications
2022
Muscle LIM Protein Force-Sensing Mediates Sarcomeric Biomechanical Signaling in Human Familial Hypertrophic Cardiomyopathy
Riaz M, Park J, Sewanan LR, Ren Y, Schwan J, Das SK, Pomianowski PT, Huang Y, Ellis MW, Luo J, Liu J, Song L, Chen IP, Qiu C, Yazawa M, Tellides G, Hwa J, Young LH, Yang L, Marboe CC, Jacoby DL, Campbell SG, Qyang Y. Muscle LIM Protein Force-Sensing Mediates Sarcomeric Biomechanical Signaling in Human Familial Hypertrophic Cardiomyopathy. Circulation 2022, 145: 1238-1253. PMID: 35384713, PMCID: PMC9109819, DOI: 10.1161/circulationaha.121.056265.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsHypertrophic cardiomyopathySarcomeric mutationsFamilial hypertrophic cardiomyopathySudden cardiac deathCardiac myosin heavy chainMechanism-based treatmentsDevelopment of hypertrophyActivated T cellsCalcineurin-nuclear factorForce productionPhenotypic expressionPluripotent stem cell-derived cardiomyocytesStem cell-derived cardiomyocytesHeart failureCardiac deathVentricular hypertrophyCell-derived cardiomyocytesCardiac contractilityPharmacological interventionsT cellsCardiac diseaseCardiac hypertrophyPatient-specific induced pluripotent stem cellsPharmacological meansTwitch relaxationThe role of FYCO1-dependent autophagy in lens fiber cell differentiation
Khan SY, Ali M, Kabir F, Na CH, Delannoy M, Ma Y, Qiu C, Costello MJ, Hejtmancik JF, Riazuddin SA. The role of FYCO1-dependent autophagy in lens fiber cell differentiation. Autophagy 2022, 18: 2198-2215. PMID: 35343376, PMCID: PMC9397473, DOI: 10.1080/15548627.2022.2025570.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsAutophagic vesiclesLens fiber cell differentiationMouse lensesAutophagic fluxFiber cell differentiationHuman embryonic stem cellsCoiled-coil domainOrganelle-free zoneEmbryonic stem cellsHuman lens epithelial cellsAutophagy-associated genesSingle guide RNAsQuantitative real-time PCRLens epithelial cellsAdaptor proteinRNA-seqGuide RNARNA sequencingCellular organellesLens morphogenesisCataract phenotypeWild typeFYCO1Cell differentiationEndoplasmic reticulum
2019
Comparative transcriptome analysis of hESC- and iPSC-derived lentoid bodies
Ali M, Kabir F, Thomson JJ, Ma Y, Qiu C, Delannoy M, Khan SY, Riazuddin SA. Comparative transcriptome analysis of hESC- and iPSC-derived lentoid bodies. Scientific Reports 2019, 9: 18552. PMID: 31811247, PMCID: PMC6898283, DOI: 10.1038/s41598-019-54258-z.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsHuman embryonic stem cellsComparative transcriptome analysisTranscriptome analysisLentoid bodiesPluripotent stem cellsBody transcriptomeRNA sequencingStem cellsNext-generation RNA sequencingEmbryonic stem cellsFiber-like cellsSimilar expression profilesTranscriptome datasetsTranscriptome profilingCell transcriptomeLens morphogenesisExcellent systemMouse lensExpression profilesTranscriptomeMechanism of cataractogenesisLens-like structuresUltrastructure analysisGenesOcular lensCritical 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 ResearchCitationsMeSH Keywords and ConceptsConceptsCardiac 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
Generation and Proteome Profiling of PBMC-Originated, iPSC-Derived Corneal Endothelial Cells
Ali M, Khan SY, Vasanth S, Ahmed MR, Chen R, Na CH, Thomson JJ, Qiu C, Gottsch JD, Riazuddin SA. Generation and Proteome Profiling of PBMC-Originated, iPSC-Derived Corneal Endothelial Cells. Investigative Ophthalmology & Visual Science 2018, 59: 2437-2444. PMID: 29847650, PMCID: PMC5957521, DOI: 10.1167/iovs.17-22927.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsMeSH KeywordsAgedCell DifferentiationCells, CulturedCryopreservationEmbryonic Stem CellsEndothelium, CornealFlow CytometryGene Expression ProfilingGenetic MarkersHumansImmunohistochemistryInduced Pluripotent Stem CellsLeukocytes, MononuclearMaleMass SpectrometryMicroscopy, Phase-ContrastMiddle AgedNeural CrestProteomeReal-Time Polymerase Chain ReactionConceptsNeural crest cellsProteome sequencingProteome profilingCorneal endothelial cellsExpression of pluripotentQuantitative real-time PCRPluripotent stem cellsMolecular architectureCrest cellsEndothelial cellsProteomeReal-time PCRPluripotency markersHuman corneal endotheliumStem cellsPhase contrast microscopyExpression levelsProteinIPSCsSequencingCellsProfilingFirst reportContrast microscopyHigh levels
2016
Tissue-Engineered Vascular Rings from Human iPSC-Derived Smooth Muscle Cells
Dash BC, Levi K, Schwan J, Luo J, Bartulos O, Wu H, Qiu C, Yi T, Ren Y, Campbell S, Rolle MW, Qyang Y. Tissue-Engineered Vascular Rings from Human iPSC-Derived Smooth Muscle Cells. Stem Cell Reports 2016, 7: 19-28. PMID: 27411102, PMCID: PMC4945325, DOI: 10.1016/j.stemcr.2016.05.004.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsVascular tissue engineeringFunctional vascular smooth muscle cellsCell-based tissueSelf-assembly approachRenewable sourcesTissue engineeringPluripotent stem cellsPlatform technologyBiomedical applicationsTissue ringsDrug screeningDisease modelingTissue model systemsHuman iPSCStem cellsBroad utilityEfficient approachLarge quantitiesEngineeringMaterialsRegulation of the DNA Methylation Landscape in Human Somatic Cell Reprogramming by the miR-29 Family
Hysolli E, Tanaka Y, Su J, Kim KY, Zhong T, Janknecht R, Zhou XL, Geng L, Qiu C, Pan X, Jung YW, Cheng J, Lu J, Zhong M, Weissman SM, Park IH. Regulation of the DNA Methylation Landscape in Human Somatic Cell Reprogramming by the miR-29 Family. Stem Cell Reports 2016, 7: 43-54. PMID: 27373925, PMCID: PMC4945581, DOI: 10.1016/j.stemcr.2016.05.014.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsDNA methylation stateEmbryonic stem cellsInduced pluripotent stem cellsHuman somatic cell reprogrammingSomatic cell reprogrammingMethylation stateCell reprogrammingMiR-29 familyDNA methylation landscapeImportant epigenetic regulatorsStem cellsOverexpression of Oct4Global DNA methylationMiRNA-based approachesPluripotent stem cellsMethylation landscapeHistone modificationsDNA demethylationEpigenomic changesEarly reprogrammingEpigenetic regulatorsEpigenetic differencesDNA methylationHydroxymethylation analysisReprogramming
2015
Characterization of the mammalian miRNA turnover landscape
Guo Y, Liu J, Elfenbein SJ, Ma Y, Zhong M, Qiu C, Ding Y, Lu J. Characterization of the mammalian miRNA turnover landscape. Nucleic Acids Research 2015, 43: 2326-2341. PMID: 25653157, PMCID: PMC4344502, DOI: 10.1093/nar/gkv057.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsMiRNA turnoverStable small RNAsMammalian cell typesCultured mammalian cellsSubset of miRNAsTurnover kineticsMiRNA biogenesisMost miRNAsMiR-222-5pNucleotide biasSmall RNAsMiRNA maturationMammalian cellsSame miRNAMiRNA poolExpression profilingHsp90 associationSequence determinantsDeep sequencingHsp90 inhibitionTurnover rateMiRNA isoformsDifferent turnover ratesSequence featuresCell types
2013
Small-Diameter Vascular Graft Engineered Using Human Embryonic Stem Cell-Derived Mesenchymal Cells
Sundaram S, Echter A, Sivarapatna A, Qiu C, Niklason L. Small-Diameter Vascular Graft Engineered Using Human Embryonic Stem Cell-Derived Mesenchymal Cells. Tissue Engineering Part A 2013, 20: 740-750. PMID: 24125588, PMCID: PMC3926168, DOI: 10.1089/ten.tea.2012.0738.Peer-Reviewed Original ResearchCitationsMeSH Keywords and ConceptsConceptsHuman embryonic stem cellsHuman embryonic stem cell-derived mesenchymal cellsSmooth muscle cellsSMC marker expressionMesenchymal cellsEmbryonic stem cellsMarkers of cartilageLineage commitmentNew cell sourceGrowth factor betaStem cellsDifferentiation capabilityCell populationsNative counterpartsMuscle cellsHuman vessel wallStringent analysisFactor betaCell sourceCellsMarker expressionSmooth muscle actinMuscle actinVascular constructsCell sourcingEngineering a Blood-Retinal Barrier With Human Embryonic Stem Cell-Derived Retinal Pigment Epithelium: Transcriptome and Functional Analysis
Peng S, Gan G, Qiu C, Zhong M, An H, Adelman RA, Rizzolo LJ. Engineering a Blood-Retinal Barrier With Human Embryonic Stem Cell-Derived Retinal Pigment Epithelium: Transcriptome and Functional Analysis. Stem Cells Translational Medicine 2013, 2: 534-544. PMID: 23734062, PMCID: PMC3697821, DOI: 10.5966/sctm.2012-0134.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsRetinal pigment epitheliumBlood-retinal barrierHuman retinal pigment epitheliumPigment epitheliumHuman fetal retinal pigment epitheliumOuter blood-retinal barrierTight junctionsFetal retinal pigment epitheliumEmbryonic stem cell-derived retinal pigment epitheliumAdult retinal pigment epitheliumQuantitative reverse transcription polymerase chain reactionMaturation of hESCReverse transcription-polymerase chain reactionTranscription-polymerase chain reactionHuman embryonic stem cell-derived retinal pigment epitheliumStem cell-derived retinal pigment epitheliumRPE replacement therapyPanel of genesReplacement therapyAnimal modelsHuman embryonic stem cellsRetinal degenerationRPE functionSerum-free mediumHuman retina
News
News
- July 27, 2022
Uncovering New Approaches to a Common Inherited Heart Disorder
- May 01, 2012
Dr. Caihong Qiu
- April 03, 2008
Yale Receives More than $5 Million in Stem Cell Funding
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