Protein kinase R dependent phosphorylation of α-synuclein regulates its membrane binding and aggregation

Reimer, Lasse; Gram, Hjalte; Jensen, Nanna Møller; Betzer, Cristine; Li, Yang; Jin, Lorrain; Shi, Min; Boudeffa, Driss; Fusco, Giuliana; Simone, Alfonso De; Kirik, Deniz; Lashuel, Hilal A.; Zhang, Jing; Jensen, Poul Henning

doi:10.1093/pnasnexus/pgac259

Cited by 7 publications

(7 citation statements)

References 87 publications

(107 reference statements)

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“…Indeed the bound-unbound equilibrium can be altered by several factors such as the characteristics of the lipid bilayers, including curvature, charge, 51 levels of cholesterol, 63 packing defects and surface hydrophobicity, 41,44,[64][65][66] as well as the properties of aS, including mutations 57 and post-translational modifications. 67 The double-anchor mechanism clarifies a number of experimental observations where mutational variants affecting the membrane affinity of the two individual anchors impairs vesicle clustering, as observed in S. cerevisiae 18 or in aqueous solutions. 20 These investigations also identify a new link between functional and aberrant behaviour of membrane-bound aS.…”

Section: As Binding To Synaptic Vesiclesmentioning

confidence: 84%

“…αS oligomers were indeed shown to impair the SNARE formation by establishing aberrant interactions with the N-terminal region of synaptobrevin-2. 134 The concomitance of all PD familial variants in the membrane-binding region of αS also indicate alterations in the membrane binding, as demonstrated in vitro , 57,67,135 which may in turn affect the biological behaviour of the protein in the context of SV trafficking. 136,137 Finally, a link between dysfunction and aggregation has been proposed whereby the fibrils growth induces toxic effects by depleting αS monomers, leading to a loss of function of the protein.…”

Section: Discussionmentioning

confidence: 94%

“…4A ). This balance can be perturbed by external factors such as for example the lipid dyshomeostasis leading to an increase of GM content in the PM 79 as well as calcium bursts, 60 post-translational modifications 67 (particularly Ser 87, 87 Ser 129 88 and Tyr 39 82 ) or αS aggregation. These recent data thereby provide a link between functional and pathological properties of αS in the context of SV trafficking.…”

Section: Binding To Other Membranes and Organellesmentioning

confidence: 99%

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α-Synuclein and biological membranes: the danger of loving too much

2023

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Section: As Binding To Synaptic Vesiclesmentioning

confidence: 84%

Section: Discussionmentioning

confidence: 94%

Section: Binding To Other Membranes and Organellesmentioning

confidence: 99%

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α-Synuclein and biological membranes: the danger of loving too much

2023

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“…Liposomes were prepared from DMPG and DMPC phospho-lipids as described previously [54]. Liposomes were mixed with α-synuclein in PBS (5 mg/ml liposomes, 0.5 mg/ml alpha-synuclein).…”

Section: Methodsmentioning

confidence: 99%

Structural basis of epitope recognition by anti-alpha synuclein antibodies MJFR14-6-4-2

Liekniņa,

Panteļejevs,

Lends

et al. 2023

Preprint

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Intraneuronal α-synuclein inclusions in the brain are hallmarks of so-called Lewy body diseases - Parkinson’s disease and Dementia with Lewy bodies. Lewy bodies are cytoplasmic inclusions, containing mainly aggregated α-synuclein together with some other proteins including ubiquitin, neurofilament protein, and alpha B crystallin. In its monomeric form, α-synuclein is predominantly localized in nerve terminals, regulating neuronal transmission and synaptic vesicle trafficking. Monomeric α-synuclein lacks a well-defined three-dimensional structure and is considered an intrinsically disordered protein. However, in diseased cells α-synuclein aggregates into oligomeric and fibrillar amyloid species, which can be detected using aggregate-specific antibodies. Here we investigate the aggregate specificity of rabbit monoclonal MJFR14-6-4-2 antibodies, preferentially recognizing aggregated α-synuclein species. We conclude that partial masking of epitope in unstructured monomer in combination with a high local concentration of epitopes instead of distinct epitope conformation is the main reason for apparent selectivity towards various aggregates, including oligomers, fibrils, and artificial virus-like particle constructs bearing multiple copies of the MJFR14-6-4-2 epitope. Based on the structural insight, we were able to express mutant α-synuclein that when fibrillated are unable to bind MJFR14-6-4-2. Using these “stealth” fibrils as a tool for seeding cellular α-synuclein aggregation, provides superior signal/noise ratio for detection of cellular α-synuclein aggregates by MJFR14-6-4-2 immunocytochemistry. Our data provide a molecular level understanding of specific recognition of toxic amyloid oligomers, which is critical for the development of inhibitors against synucleinopathies.

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“…One regulator of α-synuclein, the highly conserved Argonaute 2 ( AGO2 ), is abnormally expressed in PD patients [ 12 ]. The inflammation-associated serine-threonine kinase ( EIF2AK2 ) regulates α-synuclein by directly phosphorylating the Ser129 residue, linking it to neurodegenerative disorders such as PD [ 13 , 14 ].…”

Section: Introductionmentioning

confidence: 99%

The Potential Regulation of A-to-I RNA Editing on Genes in Parkinson’s Disease

Xue

Qin

et al. 2023

Genes

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Parkinson’s disease (PD) is characterized by dopaminergic neurodegeneration and an abnormal accumulation of α-synuclein aggregates. A number of genetic factors have been shown to increase the risk of PD. Exploring the underlying molecular mechanisms that mediate PD’s transcriptomic diversity can help us understand neurodegenerative pathogenesis. In this study, we identified 9897 A-to-I RNA editing events associated with 6286 genes across 372 PD patients. Of them, 72 RNA editing events altered miRNA binding sites and this may directly affect miRNA regulations of their host genes. However, RNA editing effects on the miRNA regulation of genes are more complex. They can (1) abolish existing miRNA binding sites, which allows miRNAs to regulate other genes; (2) create new miRNA binding sites that may sequester miRNAs from regulating other genes; or (3) occur in the miRNA seed regions and change their targets. The first two processes are also referred to as miRNA competitive binding. In our study, we found 8 RNA editing events that may alter the expression of 1146 other genes via miRNA competition. We also found one RNA editing event that modified a miRNA seed region, which was predicted to disturb the regulation of four genes. Considering the PD-related functions of the affected genes, 25 A-to-I RNA editing biomarkers for PD are proposed, including the 3 editing events in the EIF2AK2, APOL6, and miR-4477b seed regions. These biomarkers may alter the miRNA regulation of 133 PD-related genes. All these analyses reveal the potential mechanisms and regulations of RNA editing in PD pathogenesis.

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Protein kinase R dependent phosphorylation of α-synuclein regulates its membrane binding and aggregation

Cited by 7 publications

References 87 publications

α-Synuclein and biological membranes: the danger of loving too much

α-Synuclein and biological membranes: the danger of loving too much

Structural basis of epitope recognition by anti-alpha synuclein antibodies MJFR14-6-4-2

The Potential Regulation of A-to-I RNA Editing on Genes in Parkinson’s Disease

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