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Low glucose induced Alzheimer's disease‐like biochemical changes in human induced pluripotent stem cell‐derived neurons is due to dysregulated O‐GlcNAcylation

Chia‐Wei Huang, Nicholas C. Rust, Hsueh‐Fu Wu, Amelia Yin, Nadja Zeltner, Hang Yin, Gerald W. Hart

2023Alzheimer s & Dementia20 citationsDOIOpen Access PDF

Abstract

INTRODUCTION: Sporadic Alzheimer's disease (sAD) is the leading type of dementia. Brain glucose hypometabolism, along with decreased O-GlcNAcylation levels, occurs before the onset of symptoms and correlates with pathogenesis. Heretofore, the mechanisms involved and the roles of O-GlcNAcylation in sAD pathology largely remain unknown due to a lack of human models of sAD. METHODS: Human cortical neurons were generated from pluripotent stem cells (PSCs) and treated with glucose reduction media. RESULTS: We found a narrow window of glucose concentration that induces sAD-like phenotypes in PSC-derived neurons. With our model, we reveal that dysregulated O-GlcNAc, in part through mitochondrial dysfunction, causes the onset of sAD-like changes. We demonstrate the therapeutic potential of inhibiting O-GlcNAcase in alleviating AD-like biochemical changes. DISCUSSION: Our results suggest that dysregulated O-GlcNAc might be a direct molecular link between hypometabolism and sAD-like alternations. Moreover, this model can be exploited to explore molecular processes and for drug development. HIGHLIGHTS: Lowering glucose to a critical level causes AD-like changes in cortical neurons. Defective neuronal structure and function were also recapitulated in current model. Dysregulated O-GlcNAcylation links impaired glucose metabolism to AD-like changes. Mitochondrial abnormalities correlate with O-GlcNAcylation and precede AD-like phenotype. Our model provides a platform to study sAD as a metabolic disease in human neurons.

Topics & Concepts

Induced pluripotent stem cellPhenotypeDiseaseNeuroscienceBiologyCarbohydrate metabolismMitochondrionHuman brainCell biologyEndocrinologyInternal medicineGeneMedicineBiochemistryEmbryonic stem cellGlycosylation and Glycoproteins ResearchNeurogenesis and neuroplasticity mechanisms14-3-3 protein interactions