2022
Non-cell-autonomous activation of hedgehog signaling contributes to disease progression in a mouse model of renal cystic ciliopathy
Hsieh CL, Jerman SJ, Sun Z. Non-cell-autonomous activation of hedgehog signaling contributes to disease progression in a mouse model of renal cystic ciliopathy. Human Molecular Genetics 2022, 31: 4228-4240. PMID: 35904445, PMCID: PMC9759329, DOI: 10.1093/hmg/ddac175.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCiliopathiesCystsDisease Models, AnimalDisease ProgressionHedgehog ProteinsKidney Diseases, CysticMiceMice, TransgenicConceptsHh pathwayAutonomous activationMesenchymal cellsPolycystic kidney diseaseEpithelial cellsCre miceGli inhibitor GANT61Reporter mouse linePrimary ciliaHH signalingHedgehog signalingPKD pathogenesisArl13bSonic hedgehogMutant kidneysPKD modelPKD progressionHh activationKidney functionKidney diseaseCyst progressionCo-culture systemMouse linesMouse modelDistal nephron
2017
X-linked primary ciliary dyskinesia due to mutations in the cytoplasmic axonemal dynein assembly factor PIH1D3
Olcese C, Patel MP, Shoemark A, Kiviluoto S, Legendre M, Williams HJ, Vaughan CK, Hayward J, Goldenberg A, Emes RD, Munye MM, Dyer L, Cahill T, Bevillard J, Gehrig C, Guipponi M, Chantot S, Duquesnoy P, Thomas L, Jeanson L, Copin B, Tamalet A, Thauvin-Robinet C, Papon J, Garin A, Pin I, Vera G, Aurora P, Fassad MR, Jenkins L, Boustred C, Cullup T, Dixon M, Onoufriadis A, Bush A, Chung EM, Antonarakis SE, Loebinger MR, Wilson R, Armengot M, Escudier E, Hogg C, Amselem S, Sun Z, Bartoloni L, Blouin J, Mitchison H. X-linked primary ciliary dyskinesia due to mutations in the cytoplasmic axonemal dynein assembly factor PIH1D3. Nature Communications 2017, 8: 14279. PMID: 28176794, PMCID: PMC5309803, DOI: 10.1038/ncomms14279.Peer-Reviewed Original ResearchAdolescentAdultAnimalsApoptosis Regulatory ProteinsAxonemal DyneinsAxonemeChildChild, PreschoolCiliaCytoplasmDisease Models, AnimalExome SequencingFemaleGenes, X-LinkedGenetic Diseases, X-LinkedHEK293 CellsHSP90 Heat-Shock ProteinsHumansInfant, NewbornIntracellular Signaling Peptides and ProteinsKartagener SyndromeMaleMicroscopy, Electron, TransmissionMicrotubule ProteinsMolecular ChaperonesPedigreePhylogenyPoint MutationProtein FoldingSequence AlignmentSequence DeletionSperm MotilityZebrafish
2013
Expanding Horizons: Ciliary Proteins Reach Beyond Cilia
Yuan S, Sun Z. Expanding Horizons: Ciliary Proteins Reach Beyond Cilia. Annual Review Of Genetics 2013, 47: 353-376. PMID: 24016188, PMCID: PMC5703194, DOI: 10.1146/annurev-genet-111212-133243.Peer-Reviewed Original ResearchMeSH KeywordsAbnormalities, MultipleAnimalsBardet-Biedl SyndromeCell MovementCerebellar DiseasesCerebellumCiliaCiliary Motility DisordersDisease Models, AnimalDNA DamageDNA RepairEncephaloceleEye AbnormalitiesFlagellaHeterotaxy SyndromeHomeostasisHumansKidney Diseases, CysticMolecular Motor ProteinsNervous SystemPolycystic Kidney DiseasesPolycystic Kidney, Autosomal DominantPolycystic Kidney, Autosomal RecessiveRetinaRetinitis Pigmentosa
2009
Chemical modifier screen identifies HDAC inhibitors as suppressors of PKD models
Cao Y, Semanchik N, Lee SH, Somlo S, Barbano PE, Coifman R, Sun Z. Chemical modifier screen identifies HDAC inhibitors as suppressors of PKD models. Proceedings Of The National Academy Of Sciences Of The United States Of America 2009, 106: 21819-21824. PMID: 19966229, PMCID: PMC2799791, DOI: 10.1073/pnas.0911987106.Peer-Reviewed Original ResearchConceptsKidney cyst formationCommon human genetic diseasesLarge-scale high-throughput screensHDAC inhibitorsBody curvatureChemical modifier screensHuman genetic diseasesPolycystic kidney diseaseHigh-throughput screenModifier screenSpecific HDAC inhibitorsCyst formationClass I HDACsCausal genesKnockdown animalsCiliary signalsPKD pathogenesisPan-HDAC inhibitorsPKD modelLaterality defectsGenetic diseasesPKD treatmentZebrafishAutosomal dominant polycystic kidney diseaseDrug candidates