Xiaoyang Shan scite author profile

Pathological hyperphosphorylation of the microtubule-associated protein tau is characteristic of Alzheimer's disease (AD) and the associated tauopathies. The reciprocal relationship between phosphorylation and O-GlcNAc modification of tau and reductions in O-GlcNAc levels on tau in AD brain offers motivation for the generation of potent and selective inhibitors that can effectively enhance O-GlcNAc in vertebrate brain. We describe the rational design and synthesis of such an inhibitor (thiamet-G, K(i) = 21 nM; 1) of human O-GlcNAcase. Thiamet-G decreased phosphorylation of tau in PC-12 cells at pathologically relevant sites including Thr231 and Ser396. Thiamet-G also efficiently reduced phosphorylation of tau at Thr231, Ser396 and Ser422 in both rat cortex and hippocampus, which reveals the rapid and dynamic relationship between O-GlcNAc and phosphorylation of tau in vivo. We anticipate that thiamet-G will find wide use in probing the functional role of O-GlcNAc in vertebrate brain, and it may also offer a route to blocking pathological hyperphosphorylation of tau in AD.

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Increasing O-GlcNAc slows neurodegeneration and stabilizes tau against aggregation

Yuzwa

et al. 2012

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Oligomerization of tau is a key process contributing to the progressive death of neurons in Alzheimer's disease. Tau is modified by O-linked N-acetylglucosamine (O-GlcNAc), and O-GlcNAc can influence tau phosphorylation in certain cases. We therefore speculated that increasing tau O-GlcNAc could be a strategy to hinder pathological tau-induced neurodegeneration. Here we found that treatment of hemizygous JNPL3 tau transgenic mice with an O-GlcNAcase inhibitor increased tau O-GlcNAc, hindered formation of tau aggregates and decreased neuronal cell loss. Notably, increases in tau O-GlcNAc did not alter tau phosphorylation in vivo. Using in vitro biochemical aggregation studies, we found that O-GlcNAc modification, on its own, hinders tau oligomerization. O-GlcNAc also inhibits thermally induced aggregation of an unrelated protein, TAK-1 binding protein, suggesting that a basic biochemical function of O-GlcNAc may be to prevent protein aggregation. These results also suggest O-GlcNAcase as a potential therapeutic target that could hinder progression of Alzheimer's disease.

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The Emerging Link between O-GlcNAc and Alzheimer Disease

Zhu

Shan²,

Yuzwa³

et al. 2014

Journal of Biological Chemistry

227

173

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Enhanced De Novo Neurogenesis and Dopaminergic Neurogenesis in the Substantia Nigra of 1‐Methyl‐4‐phyenyl‐1,2,3,6‐Tetrahydropyridine‐Induced Parkinson's Disease‐Like Mice

et al. 2006

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Pharmacological inhibition of O-GlcNAcase (OGA) prevents cognitive decline and amyloid plaque formation in bigenic tau/APP mutant mice

Yuzwa

Shan

Jones

et al. 2014

Mol Neurodegeneration

124

103

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BackgroundAmyloid plaques and neurofibrillary tangles (NFTs) are the defining pathological hallmarks of Alzheimer’s disease (AD). Increasing the quantity of the O-linked N-acetylglucosamine (O-GlcNAc) post-translational modification of nuclear and cytoplasmic proteins slows neurodegeneration and blocks the formation of NFTs in a tauopathy mouse model. It remains unknown, however, if O-GlcNAc can influence the formation of amyloid plaques in the presence of tau pathology.ResultsWe treated double transgenic TAPP mice, which express both mutant human tau and amyloid precursor protein (APP), with a highly selective orally bioavailable inhibitor of the enzyme responsible for removing O-GlcNAc (OGA) to increase O-GlcNAc in the brain. We find that increased O-GlcNAc levels block cognitive decline in the TAPP mice and this effect parallels decreased β-amyloid peptide levels and decreased levels of amyloid plaques.ConclusionsThis study indicates that increased O-GlcNAc can influence β-amyloid pathology in the presence of tau pathology. The findings provide good support for OGA as a promising therapeutic target to alter disease progression in Alzheimer disease.

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Xiaoyang Shan

A potent mechanism-inspired O-GlcNAcase inhibitor that blocks phosphorylation of tau in vivo

Increasing O-GlcNAc slows neurodegeneration and stabilizes tau against aggregation

The Emerging Link between O-GlcNAc and Alzheimer Disease

Enhanced De Novo Neurogenesis and Dopaminergic Neurogenesis in the Substantia Nigra of 1‐Methyl‐4‐phyenyl‐1,2,3,6‐Tetrahydropyridine‐Induced Parkinson's Disease‐Like Mice

Pharmacological inhibition of O-GlcNAcase (OGA) prevents cognitive decline and amyloid plaque formation in bigenic tau/APP mutant mice

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