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Journal Abstract Search

452 related items for PubMed ID: 23594359

  • 1. Synemin is expressed in reactive astrocytes and Rosenthal fibers in Alexander disease.
    Pekny T, Faiz M, Wilhelmsson U, Curtis MA, Matej R, Skalli O, Pekny M.
    APMIS; 2014 Jan; 122(1):76-80. PubMed ID: 23594359
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  • 7. Metabolic Enzyme Alterations and Astrocyte Dysfunction in a Murine Model of Alexander Disease With Severe Reactive Gliosis.
    Heaven MR, Herren AW, Flint DL, Pacheco NL, Li J, Tang A, Khan F, Goldman JE, Phinney BS, Olsen ML.
    Mol Cell Proteomics; 2022 Jan; 21(1):100180. PubMed ID: 34808356
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  • 8. Murine model of Alexander disease: analysis of GFAP aggregate formation and its pathological significance.
    Tanaka KF, Takebayashi H, Yamazaki Y, Ono K, Naruse M, Iwasato T, Itohara S, Kato H, Ikenaka K.
    Glia; 2007 Apr 15; 55(6):617-31. PubMed ID: 17299771
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  • 9. Synemin is expressed in reactive astrocytes in neurotrauma and interacts differentially with vimentin and GFAP intermediate filament networks.
    Jing R, Wilhelmsson U, Goodwill W, Li L, Pan Y, Pekny M, Skalli O.
    J Cell Sci; 2007 Apr 01; 120(Pt 7):1267-77. PubMed ID: 17356066
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  • 10. Glial fibrillary acidic protein is pathologically modified in Alexander disease.
    Lin NH, Jian WS, Snider N, Perng MD.
    J Biol Chem; 2024 Jul 01; 300(7):107402. PubMed ID: 38782207
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  • 12. GFAP and its role in Alexander disease.
    Quinlan RA, Brenner M, Goldman JE, Messing A.
    Exp Cell Res; 2007 Jun 10; 313(10):2077-87. PubMed ID: 17498694
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  • 13. Dynamics of mutated GFAP aggregates revealed by real-time imaging of an astrocyte model of Alexander disease.
    Mignot C, Delarasse C, Escaich S, Della Gaspera B, Noé E, Colucci-Guyon E, Babinet C, Pekny M, Vicart P, Boespflug-Tanguy O, Dautigny A, Rodriguez D, Pham-Dinh D.
    Exp Cell Res; 2007 Aug 01; 313(13):2766-79. PubMed ID: 17604020
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  • 14. Elevated GFAP isoform expression promotes protein aggregation and compromises astrocyte function.
    Lin NH, Yang AW, Chang CH, Perng MD.
    FASEB J; 2021 May 01; 35(5):e21614. PubMed ID: 33908669
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  • 15. Aberrant astrocyte Ca2+ signals "AxCa signals" exacerbate pathological alterations in an Alexander disease model.
    Saito K, Shigetomi E, Yasuda R, Sato R, Nakano M, Tashiro K, Tanaka KF, Ikenaka K, Mikoshiba K, Mizuta I, Yoshida T, Nakagawa M, Mizuno T, Koizumi S.
    Glia; 2018 May 01; 66(5):1053-1067. PubMed ID: 29383757
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  • 16. Site-specific phosphorylation and caspase cleavage of GFAP are new markers of Alexander disease severity.
    Battaglia RA, Beltran AS, Delic S, Dumitru R, Robinson JA, Kabiraj P, Herring LE, Madden VJ, Ravinder N, Willems E, Newman RA, Quinlan RA, Goldman JE, Perng MD, Inagaki M, Snider NT.
    Elife; 2019 Nov 04; 8():. PubMed ID: 31682229
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  • 17. Gene expression analysis in mice with elevated glial fibrillary acidic protein and Rosenthal fibers reveals a stress response followed by glial activation and neuronal dysfunction.
    Hagemann TL, Gaeta SA, Smith MA, Johnson DA, Johnson JA, Messing A.
    Hum Mol Genet; 2005 Aug 15; 14(16):2443-58. PubMed ID: 16014634
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  • 18. STAT3 Drives GFAP Accumulation and Astrocyte Pathology in a Mouse Model of Alexander Disease.
    Hagemann TL, Coyne S, Levin A, Wang L, Feany MB, Messing A.
    Cells; 2023 Mar 23; 12(7):. PubMed ID: 37048051
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  • 19. Novel deletion mutation in GFAP gene in an infantile form of Alexander disease.
    Murakami N, Tsuchiya T, Kanazawa N, Tsujino S, Nagai T.
    Pediatr Neurol; 2008 Jan 23; 38(1):50-2. PubMed ID: 18054694
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  • 20. Aggregation-prone GFAP mutation in Alexander disease validated using a zebrafish model.
    Lee SH, Nam TS, Kim KH, Kim JH, Yoon W, Heo SH, Kim MJ, Shin BA, Perng MD, Choy HE, Jo J, Kim MK, Choi SY.
    BMC Neurol; 2017 Sep 07; 17(1):175. PubMed ID: 28882119
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