Using iPSC-derived neurons to uncover cellular phenotypes associated with Timothy syndrome

被引:0
|
作者
Sergiu P Paşca
Thomas Portmann
Irina Voineagu
Masayuki Yazawa
Aleksandr Shcheglovitov
Anca M Paşca
Branden Cord
Theo D Palmer
Sachiko Chikahisa
Seiji Nishino
Jonathan A Bernstein
Joachim Hallmayer
Daniel H Geschwind
Ricardo E Dolmetsch
机构
[1] Stanford University School of Medicine,Department of Neurobiology
[2] David Geffen School of Medicine,Department of Neurology and Program in Neurogenetics
[3] University of California,Stanford Institute for Stem Cell Biology and Regenerative Medicine and Department of Neurosurgery
[4] Stanford School of Medicine,Department of Psychiatry and Behavioral Science
[5] Stanford University School of Medicine,Department of Integrative Physiology
[6] Institute of Health Biosciences,Department of Pediatrics
[7] The University of Tokushima Graduate School,undefined
[8] Stanford University School of Medicine,undefined
来源
Nature Medicine | 2011年 / 17卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Timothy syndrome is a neurodevelopmental disease that includes autism-like features. Using iPS-derived neurons from individuals with Timothy syndrome, Ricardo Dolmetsch and his colleagues identify changes in cortical neuron fate and neurotransmitter expression that may begin to explain the neural mechanisms that underlie this disorder.
引用
收藏
页码:1657 / 1662
页数:5
相关论文
共 50 条
  • [1] Using iPSC-derived neurons to uncover cellular phenotypes associated with Timothy syndrome
    Pasca, Sergiu P.
    Portmann, Thomas
    Voineagu, Irina
    Yazawa, Masayuki
    Shcheglovitov, Aleksandr
    Pasca, Anca M.
    Cord, Branden
    Palmer, Theo D.
    Chikahisa, Sachiko
    Nishino, Seiji
    Bernstein, Jonathan A.
    Hallmayer, Joachim
    Geschwind, Daniel H.
    Dolmetsch, Ricardo E.
    NATURE MEDICINE, 2011, 17 (12) : 1657 - U176
  • [2] Using patient-specific fibroblasts and iPSC-derived neurons to uncover cellular phenotypes associated with prion diseases
    Yuan, Jue
    Cooperman, Leslie
    Orru, Christina
    Han, Dongyun
    Fujioka, Hisashi
    Shick, Elizabeth
    Zhan, Yi-An
    Rodgers, Mark
    Wyza, Robert
    Appleby, Brian
    Quinones-Mateu, Miguel
    Zhang, Shulin
    Mu, Tingwei
    Caughey, Byron
    Qi, Xin
    Tesar, Paul
    Zou, Wen-Quan
    PRION, 2015, 9 : S70 - S71
  • [3] Elucidating the role Cav1.2 dysfunction in the pathogenesis of timothy syndrome using iPSC-derived neurons
    Herold, Kevin G.
    Bamgboye, Moradeke A.
    DiSilvestre, Deborah
    Hussey, John
    Owoyemi, Josiah O.
    Dick, Ivy E.
    BIOPHYSICAL JOURNAL, 2023, 122 (03) : 105A - 106A
  • [4] Cellular Phenotypes in Human iPSC-Derived Neurons from a Genetic Model of Autism Spectrum Disorder
    Deshpande, Aditi
    Yadav, Smita
    Dao, Dang Q.
    Wu, Zhi-Yong
    Hokanson, Kenton C.
    Cahill, Michelle K.
    Wiita, Arun P.
    Jan, Yuh-Nung
    Ullian, Erik M.
    Weiss, Lauren A.
    CELL REPORTS, 2017, 21 (10): : 2678 - 2687
  • [5] Using Human iPSC-Derived Neurons to Uncover Activity-Dependent Non-Coding RNAs
    Bitar, Maina
    Kuiper, Stefanie
    O'Brien, Elizabeth
    Barry, Guy
    GENES, 2017, 8 (12)
  • [6] Cellular α-synuclein pathology is associated with bioenergetic dysfunction in Parkinson's iPSC-derived dopamine neurons
    Zambon, Federico
    Cherubini, Marta
    Fernandes, Hugo J. R.
    Lang, Charmaine
    Ryan, Brent J.
    Volpato, Viola
    Bengoa-Vergniory, Nora
    Vingill, Siv
    Attar, Moustafa
    Booth, Heather D. E.
    Haenseler, Walther
    Vowles, Jane
    Bowden, Rory
    Webber, Caleb
    Cowley, Sally A.
    Wade-Martins, Richard
    HUMAN MOLECULAR GENETICS, 2019, 28 (12) : 2001 - 2013
  • [7] The temporal characterization of iPSC-derived neurons
    Rosa, F.
    Loeffler, H.
    Mueller, S.
    Elsen, G. E.
    Lerche, H.
    Maljevic, S.
    HUMAN GENE THERAPY, 2016, 27 (11) : A79 - A79
  • [8] Substrate reduction therapy approach for Sanfilippo C syndrome: use of iPSC and iPSC-derived neurons from patients as cellular models
    Beneto, N.
    Creus-Bachiller, E.
    Garcia-Morant, M.
    Grinberg, D.
    Vilageliu, L.
    Canals, I.
    EUROPEAN JOURNAL OF HUMAN GENETICS, 2019, 27 : 859 - 859
  • [9] Substrate reduction therapy approach for Sanfilippo C syndrome: use of iPSC and iPSC-derived neurons from patients as cellular models
    Beneto, N.
    Creus-Bachiller, E.
    Garcia-Morant, M.
    Grinberg, D.
    Vilageliu, L.
    Canals, I.
    EUROPEAN JOURNAL OF HUMAN GENETICS, 2019, 27 : 196 - 196
  • [10] Obatoclax Rescues FUS-ALS Phenotypes in iPSC-Derived Neurons by Inducing Autophagy
    Bautista, Cristina Marisol Castillo
    Eismann, Kristin
    Gentzel, Marc
    Pelucchi, Silvia
    Mertens, Jerome
    Walters, Hannah E.
    Yun, Maximina H.
    Sterneckert, Jared
    CELLS, 2023, 12 (18)
12345