2020
Dynamin 1 is important for microtubule organization and stabilization in glomerular podocytes
La TM, Tachibana H, Li S, Abe T, Seiriki S, Nagaoka H, Takashima E, Takeda T, Ogawa D, Makino S, Asanuma K, Watanabe M, Tian X, Ishibe S, Sakane A, Sasaki T, Wada J, Takei K, Yamada H. Dynamin 1 is important for microtubule organization and stabilization in glomerular podocytes. The FASEB Journal 2020, 34: 16449-16463. PMID: 33070431, DOI: 10.1096/fj.202001240rr.Peer-Reviewed Original ResearchConceptsDynamin 1Microtubule organizationMouse podocytesΑ-tubulinMicrotubule bundlesGlomerular podocytesEndocytic proteinsMicrotubule bundle formationStabilization of microtubulesAcetylated α-tubulinVesicle formationNocodazole resistanceImmunoelectron microscopyMicrotubulesPhysiological significanceBundle formationRat podocytes
2018
iPSC-derived neurons profiling reveals GABAergic circuit disruption and acetylated α-tubulin defect which improves after iHDAC6 treatment in Rett syndrome
Landucci E, Brindisi M, Bianciardi L, Catania LM, Daga S, Croci S, Frullanti E, Fallerini C, Butini S, Brogi S, Furini S, Melani R, Molinaro A, Lorenzetti FC, Imperatore V, Amabile S, Mariani J, Mari F, Ariani F, Pizzorusso T, Pinto AM, Vaccarino FM, Renieri A, Campiani G, Meloni I. iPSC-derived neurons profiling reveals GABAergic circuit disruption and acetylated α-tubulin defect which improves after iHDAC6 treatment in Rett syndrome. Experimental Cell Research 2018, 368: 225-235. PMID: 29730163, PMCID: PMC9410763, DOI: 10.1016/j.yexcr.2018.05.001.Peer-Reviewed Original ResearchConceptsInduced pluripotent stem cellsRett syndromeCircuit disruptionΑ-tubulin deacetylaseNew therapeutic strategiesClassic Rett syndromeCommon neurodevelopmental disorderAcetylated α-tubulinEpileptic behaviorTherapeutic strategiesPathogenic mechanismsPluripotent stem cellsCytoskeleton dynamicsGenetic reprogrammingSyndromeTranscriptome changesRNA-seqNeurodevelopmental disordersSignificant decreaseNeuronsSelective inhibitorPatientsMECP2 geneΑ-tubulinTreatment
2014
Insights into the Structure and Function of Ciliary and Flagellar Doublet Microtubules TEKTINS, Ca2+-BINDING PROTEINS, AND STABLE PROTOFILAMENTS* ♦
Linck R, Fu X, Lin J, Ouch C, Schefter A, Steffen W, Warren P, Nicastro D. Insights into the Structure and Function of Ciliary and Flagellar Doublet Microtubules TEKTINS, Ca2+-BINDING PROTEINS, AND STABLE PROTOFILAMENTS* ♦. Journal Of Biological Chemistry 2014, 289: 17427-17444. PMID: 24794867, PMCID: PMC4067180, DOI: 10.1074/jbc.m114.568949.Peer-Reviewed Original ResearchConceptsDoublet microtubulesRibbon proteinNexin-dynein regulatory complexCiliary motilityA-tubuleIntraflagellar transportRegulatory complexAcetylated α-tubulinSignal transductionHuman homologueSpecialized functionsTektin ACalcium-binding proteinsCell organellesHuman diseasesBinding proteinΑ-tubulinΒ-tubulinSea urchin sperm flagellaSperm flagellaMicrotubule systemProteinStable protofilamentsFlagellaWide filaments
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