Refining the concept of GFAP toxicity in Alexander disease

被引:20
|
作者
Messing, Albee [1 ,2 ]
机构
[1] Univ Wisconsin, Waisman Ctr, 1500 Highland Ave,Rm 713B, Madison, WI 53705 USA
[2] Univ Wisconsin, Dept Comparat Biosci, 1500 Highland Ave,Rm 713B, Madison, WI 53705 USA
来源
JOURNAL OF NEURODEVELOPMENTAL DISORDERS | 2019年 / 11卷 / 01期
基金
美国国家卫生研究院;
关键词
GFAP; Astrocyte; Antisense oligonucleotides; FIBRILLARY ACIDIC PROTEIN; ALPHA-B-CRYSTALLIN; ROSENTHAL FIBERS; MOUSE MODELS; MUTATIONS; MUTANT; ACCUMULATION; SUPPRESSION; ASTROCYTES; EXPRESSION;
D O I
10.1186/s11689-019-9290-0
中图分类号
R74 [神经病学与精神病学];
学科分类号
摘要
Background: Alexander disease is caused by dominantly acting mutations in glial fibrillary acidic protein (GFAP), the major intermediate filament of astrocytes in the central nervous system. Main body: In addition to the sequence variants that represent the origin of disease, GFAP accumulation also takes place, together leading to a gain-of-function that has sometimes been referred to as "GFAP toxicity." Whether the nature of GFAP toxicity in patients, who have mixtures of both mutant and normal protein, is the same as that produced by simple GFAP excess, is not yet clear. Conclusion: The implications of these questions for the design of effective treatments are discussed.
引用
收藏
页数:4
相关论文
共 50 条
  • [21] Beneficial Effect of Phenytoin and Carbamazepine on GFAP Gene Expression and Mutant GFAP Folding in a Cellular Model of Alexander's Disease
    Bachetti, Tiziana
    Di Zanni, Eleonora
    Adamo, Annalisa
    Rosamilia, Francesca
    Sechi, M. Margherita
    Solla, Paolo
    Bozzo, Matteo
    Ceccherini, Isabella
    Sechi, GianPietro
    FRONTIERS IN PHARMACOLOGY, 2021, 12
  • [22] GFAP expression as an indicator of disease severity in mouse models of Alexander disease
    Jany, Paige L.
    Hagemann, Tracy L.
    Messing, Albee
    ASN NEURO, 2013, 5 (02): : 81 - U90
  • [23] GFAP in health and disease
    Middeldorp, J.
    Hol, E. M.
    PROGRESS IN NEUROBIOLOGY, 2011, 93 (03) : 421 - 443
  • [24] Whole Exon Deletion in the GFAP Gene Is a Novel Molecular Mechanism Causing Alexander Disease
    Green, Lydia
    Berry, Ian R.
    Childs, Anne-Marie
    McCullagh, Helen
    Jose, Sandhya
    Warren, Dan
    Craven, Ian
    Camm, Nick
    Prescott, Katrina
    van der Knaap, Marjo S.
    Sheridan, Eamonn
    Livingston, John H.
    NEUROPEDIATRICS, 2018, 49 (02) : 118 - 122
  • [25] Aggregation-prone GFAP mutation in Alexander disease validated using a zebrafish model
    So-Hyun Lee
    Tai-Seung Nam
    Kun-Hee Kim
    Jin Hee Kim
    Woong Yoon
    Suk-Hee Heo
    Min Jung Kim
    Boo Ahn Shin
    Ming-Der Perng
    Hyon E. Choy
    Jihoon Jo
    Myeong-Kyu Kim
    Seok-Yong Choi
    BMC Neurology, 17
  • [26] The origin of Rosenthal fibers and their contributions to astrocyte pathology in Alexander disease
    Sosunov, Alexander A.
    McKhann, Guy M., II
    Goldman, James E.
    ACTA NEUROPATHOLOGICA COMMUNICATIONS, 2017, 5 : 27
  • [27] Site-specific phosphorylation and caspase cleavage of GFAP are new markers of Alexander disease severity
    Battaglia, Rachel A.
    Beltran, Adriana S.
    Delic, Samed
    Dumitru, Raluca
    Robinson, Jasmine A.
    Kabiraj, Parijat
    Herring, Laura E.
    Madden, Victoria J.
    Ravinder, Namritha
    Willems, Erik
    Newman, Rhonda A.
    Quinlan, Roy A.
    Goldman, James E.
    Perng, Ming-Der
    Inagaki, Masaki
    Snider, Natasha T.
    ELIFE, 2019, 8
  • [28] Alexander disease: The story behind an eponym
    Anderson, Neil E.
    Alexander, Hamish S.
    Messing, Albee
    JOURNAL OF THE HISTORY OF THE NEUROSCIENCES, 2023, 32 (04) : 399 - 422
  • [29] GFAP Mutations in Astrocytes Impair Oligodendrocyte Progenitor Proliferation and Myelination in an hiPSC Model of Alexander Disease
    Li, Li
    Tian, E.
    Chen, Xianwei
    Chao, Jianfei
    Klein, Jeremy
    Qu, Qiuhao
    Sun, Guihua
    Sun, Guoqiang
    Huang, Yanzhou
    Warden, Charles D.
    Ye, Peng
    Feng, Lizhao
    Li, Xinqiang
    Cui, Qi
    Sultan, Abdullah
    Douvaras, Panagiotis
    Fossati, Valentina
    Sanjana, Neville E.
    Riggs, Arthur D.
    Shi, Yanhong
    CELL STEM CELL, 2018, 23 (02) : 239 - +
  • [30] Alexander disease causing mutations in the C-terminal domain of GFAP are deleterious both to assembly and network formation with the potential to both activate caspase 3 and decrease cell viability
    Chen, Yi-Song
    Lim, Suh-Ciuan
    Chen, Mei-Hsuan
    Quinlan, Roy A.
    Perng, Ming-Der
    EXPERIMENTAL CELL RESEARCH, 2011, 317 (16) : 2252 - 2266
12345