2020
DOI: 10.1074/jbc.ra120.015211
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Structural transitions in Orb2 prion-like domain relevant for functional aggregation in memory consolidation

Abstract: The recent structural elucidation of ex vivo Drosophila Orb2 fibrils revealed a novel amyloid formed by interdigitated Gln and His residue side chains belonging to the prion-like domain.  However, atomic-level details on the conformational transitions associated with memory consolidation remain unknown.  Here, we have characterized the nascent conformation and dynamics of the prion-like domain (PLD) of Orb2A using a nonconventional liquid-state NMR spectroscopy strategy based on 13C detection to afford an esse… Show more

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Cited by 13 publications
(11 citation statements)
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“…Indeed, inhibition of Orb2 amyloid formation targeting the N-terminal IDR specifically impairs memory consolidation, but not short-term memory in Drosophila [6][10]. Due to numerous histidine (H) residues in the Orb2 Q/H-rich amyloid core comprised in the in the N-terminal IDR, pH may regulate this structure’s stability as suggested by CryoEM analysis [5] and characterization by NMR spectroscopy [11] In mammals, the N-terminal IDR of the neuronal-specific isoform of CPEB3 is crucial for amyloid formation and memory consolidation [12] [13]. The regulation of functional amyloid formation in mammalian CPEB3 appears to be even more sophisticated due to multiple mechanisms involving post-translational modifications [14], and feedback loops to maintain hCPEB3 expression levels [13].…”
Section: Introductionmentioning
confidence: 99%
“…Indeed, inhibition of Orb2 amyloid formation targeting the N-terminal IDR specifically impairs memory consolidation, but not short-term memory in Drosophila [6][10]. Due to numerous histidine (H) residues in the Orb2 Q/H-rich amyloid core comprised in the in the N-terminal IDR, pH may regulate this structure’s stability as suggested by CryoEM analysis [5] and characterization by NMR spectroscopy [11] In mammals, the N-terminal IDR of the neuronal-specific isoform of CPEB3 is crucial for amyloid formation and memory consolidation [12] [13]. The regulation of functional amyloid formation in mammalian CPEB3 appears to be even more sophisticated due to multiple mechanisms involving post-translational modifications [14], and feedback loops to maintain hCPEB3 expression levels [13].…”
Section: Introductionmentioning
confidence: 99%
“…Reduced, denatured sfAFP might retain some partially structured segments as has often been observed in intrinsically disordered (26) or chemically denatured proteins (15) (27). Since 1 HN chemical shift dispersion arises mainly from >C=Oooo 1 H-N H-bond formation, the loss of dispersion observed for all the conditions studied here indicates that the interhelical H-bond network has broken down following reduction.…”
Section: Resultsmentioning
confidence: 97%
“…Orb2A can also undergo liquid–liquid phase separation and subsequent fiber formation, although analysis of immobile residues in that study did not clearly point to the presence of M9I segment ( 40 ). In a solution-state NMR study of the Orb2A PLD, the Q/H-rich region adopted varying degrees of α-helical secondary structure, whereas the rest of the protein, including M9I, remained disordered ( 41 ), and in the presence of lipids, the N terminus was found to form an α-helix and Orb2A fibrillation was inhibited ( 42 ). The M9I segment was not observed in the endogenous Orb2 cryo-EM structure ( 32 ), but this may be expected given that the Orb2B isoform is predominantly expressed.…”
Section: Discussionmentioning
confidence: 99%