2023
Daam2 phosphorylation by CK2α negatively regulates Wnt activity during white matter development and injury
Wang C, Zuo Z, Jo J, Kim K, Madamba C, Ye Q, Jung S, Bellen H, Lee H. Daam2 phosphorylation by CK2α negatively regulates Wnt activity during white matter development and injury. Proceedings Of The National Academy Of Sciences Of The United States Of America 2023, 120: e2304112120. PMID: 37607236, PMCID: PMC10469030, DOI: 10.1073/pnas.2304112120.Peer-Reviewed Original ResearchConceptsOL developmentWhite matter injuryCentral nervous systemWnt/β-cateninWhite matter developmentWnt activityNeonatal hypoxiaBehavioral recoveryMyelin repairMyelin restorationNervous systemProtective roleOligodendrocyte developmentΒ-cateninWnt pathwayInjuryMyelinationBiological mechanismsNew biological mechanismsEarly differentiationPhosphorylationDemyelinationPathway
2018
IRF2BPL Is Associated with Neurological Phenotypes
Marcogliese P, Shashi V, Spillmann R, Stong N, Rosenfeld J, Koenig M, Martínez-Agosto J, Herzog M, Chen A, Dickson P, Lin H, Vera M, Salamon N, Graham J, Ortiz D, Infante E, Steyaert W, Dermaut B, Poppe B, Chung H, Zuo Z, Lee P, Kanca O, Xia F, Yang Y, Smith E, Jasien J, Kansagra S, Spiridigliozzi G, El-Dairi M, Lark R, Riley K, Koeberl D, Golden-Grant K, Diseases P, Callens S, Coucke P, Dermaut B, Hemelsoet D, Poppe B, Steyaert W, Terryn W, Van Coster R, Network U, Adams D, Alejandro M, Allard P, Azamian M, Bacino C, Balasubramanyam A, Barseghyan H, Batzli G, Beggs A, Behnam B, Bican A, Bick D, Birch C, Bonner D, Boone B, Bostwick B, Briere L, Brown D, Brush M, Burke E, Burrage L, Chen S, Clark G, Coakley T, Cogan J, Cooper C, Cope H, Craigen W, D’Souza P, Davids M, Dayal J, Dell’Angelica E, Dhar S, Dillon A, Dipple K, Donnell-Fink L, Dorrani N, Dorset D, Douine E, Draper D, Eckstein D, Emrick L, Eng C, Eskin A, Esteves C, Estwick T, Ferreira C, Fogel B, Friedman N, Gahl W, Glanton E, Godfrey R, Goldstein D, Gould S, Gourdine J, Groden C, Gropman A, Haendel M, Hamid R, Hanchard N, Handley L, Herzog M, Holm I, Hom J, Howerton E, Huang Y, Jacob H, Jain M, Jiang Y, Johnston J, Jones A, Kohane I, Krasnewich D, Krieg E, Krier J, Lalani S, Lau C, Lazar J, Lee B, Lee H, Levy S, Lewis R, Lincoln S, Lipson A, Loo S, Loscalzo J, Maas R, Macnamara E, MacRae C, Maduro V, Majcherska M, Malicdan M, Mamounas L, Manolio T, Markello T, Marom R, Martínez-Agosto J, Marwaha S, May T, McConkie-Rosell A, McCormack C, McCray A, Might M, Moretti P, Morimoto M, Mulvihill J, Murphy J, Muzny D, Nehrebecky M, Nelson S, Newberry J, Newman J, Nicholas S, Novacic D, Orange J, Pallais J, Palmer C, Papp J, Parker N, Pena L, Phillips J, Posey J, Postlethwait J, Potocki L, Pusey B, Reuter C, Robertson A, Rodan L, Rosenfeld J, Sampson J, Samson S, Schoch K, Schroeder M, Scott D, Sharma P, Shashi V, Signer R, Silverman E, Sinsheimer J, Smith K, Spillmann R, Splinter K, Stoler J, Stong N, Sullivan J, Sweetser D, Tifft C, Toro C, Tran A, Urv T, Valivullah Z, Vilain E, Vogel T, Wahl C, Walley N, Walsh C, Ward P, Waters K, Westerfield M, Wise A, Wolfe L, Worthey E, Yamamoto S, Yang Y, Yu G, Zastrow D, Zheng A, Yamamoto S, Wangler M, Mirzaa G, Hemelsoet D, Lee B, Nelson S, Goldstein D, Bellen H, Pena L. IRF2BPL Is Associated with Neurological Phenotypes. American Journal Of Human Genetics 2018, 103: 245-260. PMID: 30057031, PMCID: PMC6081494, DOI: 10.1016/j.ajhg.2018.07.006.Peer-Reviewed Original ResearchMissense variantsRange of phenotypesNeurological phenotypeProper neuronal functionNonsense variantPopulation genomicsModel organismsTranscriptional regulatorsFunction allelesPartial knockdownEctopic expressionRNA interferenceNonsense allelesBiological functionsMendelian diseasesDamaging heterozygous variantsGenesIRF2BPLNeuronal functionPhenotypeAdditional individualsComplete lossNervous systemMild phenotypeAlleles
2016
Uncoupling neuronal death and dysfunction in Drosophila models of neurodegenerative disease
Chouhan A, Guo C, Hsieh Y, Ye H, Senturk M, Zuo Z, Li Y, Chatterjee S, Botas J, Jackson G, Bellen H, Shulman J. Uncoupling neuronal death and dysfunction in Drosophila models of neurodegenerative disease. Acta Neuropathologica Communications 2016, 4: 62. PMID: 27338814, PMCID: PMC4918017, DOI: 10.1186/s40478-016-0333-4.Peer-Reviewed Original ResearchMeSH KeywordsAgingAlpha-SynucleinAmyloid beta-PeptidesAnimalsAnimals, Genetically ModifiedCell DeathDisease Models, AnimalDrosophilaElectroretinographyFemaleHumansMembrane PotentialsMicroelectrodesMicroscopy, Electron, TransmissionNeurodegenerative DiseasesNeuronsPeptide FragmentsRetinaTau ProteinsVision, OcularConceptsAdult Drosophila retinaToxic protein speciesDisease-relevant proteinsMicrotubule-associated protein tauMedium-throughput assaysProgressive photoreceptor cell deathCodon-optimized transgeneCommon neurodegenerative proteinopathiesAdult nervous systemDrosophila retinaNeuronal deathProtein speciesGlial cell typesDrosophila modelParkinson's diseaseNervous systemAlzheimer's diseaseAge-dependent neuronal lossPhotoreceptor cell deathCell deathCell typesProtein tauDrosophilaExpression of tauPotential degenerative changes