Literature DB >> 29311330

GBA1 deficiency negatively affects physiological α-synuclein tetramers and related multimers.

Sangjune Kim1,2, Seung Pil Yun1,2,3, Saebom Lee1,2, George Essien Umanah1,2, Veera Venkata Ratnam Bandaru1,2, Xiling Yin1,2,3, Peter Rhee1,2, Senthilkumar S Karuppagounder1,2, Seung-Hwan Kwon1, Hojae Lee1,2, Xiaobo Mao1,2,3, Donghoon Kim1,2, Akhilesh Pandey4,5, Gabsang Lee1,2,6, Valina L Dawson1,2,3,6,7, Ted M Dawson1,2,3,6,8, Han Seok Ko9,2,3,10.   

Abstract

Accumulating evidence suggests that α-synuclein (α-syn) occurs physiologically as a helically folded tetramer that resists aggregation. However, the mechanisms underlying the regulation of formation of α-syn tetramers are still mostly unknown. Cellular membrane lipids are thought to play an important role in the regulation of α-syn tetramer formation. Since glucocerebrosidase 1 (GBA1) deficiency contributes to the aggregation of α-syn and leads to changes in neuronal glycosphingolipids (GSLs) including gangliosides, we hypothesized that GBA1 deficiency may affect the formation of α-syn tetramers. Here, we show that accumulation of GSLs due to GBA1 deficiency decreases α-syn tetramers and related multimers and increases α-syn monomers in CRISPR-GBA1 knockout (KO) SH-SY5Y cells. Moreover, α-syn tetramers and related multimers are decreased in N370S GBA1 Parkinson's disease (PD) induced pluripotent stem cell (iPSC)-derived human dopaminergic (hDA) neurons and murine neurons carrying the heterozygous L444P GBA1 mutation. Treatment with miglustat to reduce GSL accumulation and overexpression of GBA1 to augment GBA1 activity reverse the destabilization of α-syn tetramers and protect against α-syn preformed fibril-induced toxicity in hDA neurons. Taken together, these studies provide mechanistic insights into how GBA1 regulates the transition from monomeric α-syn to α-syn tetramers and multimers and suggest unique therapeutic opportunities for PD and dementia with Lewy bodies.

Entities:  

Keywords:  GBA1; Parkinson’s disease; glucosylceramide; tetramers; α-synuclein

Mesh:

Substances:

Year:  2018        PMID: 29311330      PMCID: PMC5789900          DOI: 10.1073/pnas.1700465115

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   12.779


  37 in total

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Authors:  Ulf Dettmer; Dennis Selkoe; Tim Bartels
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9.  THE METABOLISM OF GLUCOCEREBROSIDES. I. PURIFICATION AND PROPERTIES OF A GLUCOCEREBROSIDE-CLEAVING ENZYME FROM SPLEEN TISSUE.

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Authors:  Tim Bartels; Joanna G Choi; Dennis J Selkoe
Journal:  Nature       Date:  2011-08-14       Impact factor: 49.962
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  78 in total

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2.  Female Sex and Brain-Selective Estrogen Benefit α-Synuclein Tetramerization and the PD-like Motor Syndrome in 3K Transgenic Mice.

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Review 5.  Therapeutic strategies for Parkinson disease: beyond dopaminergic drugs.

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Review 6.  α-Synuclein aggregation and transmission in Parkinson's disease: a link to mitochondria and lysosome.

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Journal:  Sci China Life Sci       Date:  2020-07-15       Impact factor: 6.038

Review 7.  Interrogating Parkinson's disease associated redox targets: Potential application of CRISPR editing.

Authors:  M A Artyukhova; Y Y Tyurina; C T Chu; T M Zharikova; H Bayır; V E Kagan; P S Timashev
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Review 8.  Dysregulation of the autophagic-lysosomal pathway in Gaucher and Parkinson's disease.

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Review 9.  Using Patient-Derived Induced Pluripotent Stem Cells to Identify Parkinson's Disease-Relevant Phenotypes.

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Journal:  Curr Neurol Neurosci Rep       Date:  2018-10-04       Impact factor: 5.081

10.  From a Highly Disordered to a Metastable State: Uncovering Insights of α-Synuclein.

Authors:  Yoann Cote; Patrice Delarue; Harold A Scheraga; Patrick Senet; Gia G Maisuradze
Journal:  ACS Chem Neurosci       Date:  2018-02-26       Impact factor: 4.418
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