Michael Brister scite author profile

Phosphorylation and OGlcNAcylation are dynamic intracellular protein post-translational modifications that frequently are alternatively observed on the same serine and threonine residues. Phosphorylation and OGlcNAcylation commonly occur in natively disordered regions of proteins, and often have opposing functional effects. In the microtubule-associated protein tau, hyperphosphorylation is associated with protein misfolding and aggregation as the neurofibrillary tangles of Alzheimer’s disease, whereas OGlcNAcylation stabilizes the soluble form of tau. A series of peptides derived from the proline-rich domain (residues 174–251) of tau was synthesized, with free Ser/Thr hydroxyls, phosphorylated Ser/Thr (pSer/pThr), OGlcNAcylated Ser/Thr, and diethylphosphorylated Ser/Thr. Phosphorylation and OGlcNAcylation were found by CD and NMR to have opposing structural effects on polyproline helix (PPII) formation, with phosphorylation favoring PPII, OGlcNAcylation opposing PPII, and the free hydroxyls intermediate in structure, and with phosphorylation structural effects greater than OGlcNAcylation. For tau196–209, phosphorylation and OGlcNAcylation had similar structural effects, opposing a nascent α-helix. Phosphomimic Glu exhibited PPII-favoring structural effects. Structural changes due to Thr phosphorylation were greater than those of Ser phosphorylation or Glu, with particular conformational restriction as the dianion, with mean 3JαN = 3.5 Hz (pThr) versus 5.4 Hz (pSer), compared to 7.2, 6.8, and 6.2 Hz for Thr, Ser, and Glu, respectively, values that correlate with the backbone torsion angle ϕ. Dianionic phosphothreonine induced strong phosphothreonine amide protection and downfield amide chemical shifts (δmean = 9.63 ppm), consistent with formation of a stable phosphate-amide hydrogen bond. These data suggest potentially greater structural importance of threonine phosphorylation than serine phosphorylation due to larger induced structural effects.

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P4‐258: On the Nature of the Tau R406w Mutation: Increased Cis Pser404‐pro405 Amide Bond in Tau R406w Due to a Phosphorylation‐sensitive Cis‐proline‐aromatic Interaction

Zondlo

Pandey

Ganguly

et al. 2014

Alzheimer's & Dementia

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Glycosylation and phosphorylation induce alternative structural conformations in tau's proline‐rich domain

2012

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The microtubule‐associated protein tau is the primary constituent of neurofibrillary tangles, a pathological hallmark of Alzheimer's disease. In its diseased state, tau is phosphorylated on over 30 residues, many of which are alternatively modified by glycosylation by N‐acetylglucosamine (O‐GlcNAc) in tau's native state. We hypothesized that glycosylation of threonine and serine residues on tau peptides may induce a structural effect different from that of phosphorylation at these locations. We have employed a scheme for the synthesis of glycopeptides incorporating O‐GlcNAc and isolated O‐GlcNAcylated peptides derived from tau's proline‐rich domain. Furthermore, we have developed a functional group to mimic O‐GlcNAc modification (pseudo‐glycosylation). Phosphorylated, glycosylated, pseudo‐glycosylated and unmodified tau peptides were structurally characterized using circular dichroism and NMR. While phosphorylated sequences exhibited high propensity to form a type II polyproline helix, glycosylated and pseudo‐glycosylated peptides exhibited more flexible secondary structures. These findings suggest a structural role for tau modification by O‐GlcNAc. This project was supported by the Howard Hughes Medical Institute.

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P4‐329: Opposing structural effects of glycosylation and phosphorylation on tau

Zondlo

Brister

Bielska

2011

Alzheimer's & Dementia

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Michael Brister

OGlcNAcylation and Phosphorylation Have Opposing Structural Effects in tau: Phosphothreonine Induces Particular Conformational Order

P4‐258: On the Nature of the Tau R406w Mutation: Increased Cis Pser404‐pro405 Amide Bond in Tau R406w Due to a Phosphorylation‐sensitive Cis‐proline‐aromatic Interaction

Glycosylation and phosphorylation induce alternative structural conformations in tau's proline‐rich domain

P4‐329: Opposing structural effects of glycosylation and phosphorylation on tau

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