Sex‐Specific Neurotoxicity of Dietary Advanced Glycation End Products in APP/PS1 Mice and Protective Roles of Trehalose by Inhibiting Tau Phosphorylation via GSK‐3β‐TFEB

Zhou, Huanhuan; Luo, Lan; Zhai, Xuedi; Chen, Liangkai; Wang, Guiping; Qin, Li–Qiang; Yu, Zengli; Xin, Lili; Wan, Zhongxiao

doi:10.1002/mnfr.202100464

Cited by 9 publications

(4 citation statements)

References 46 publications

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“…Since GSK3β activity is determined by its phosphorylation on specific sites, and only the active GSK3β is a measure of apoptosis, we do not interpret PaPE-1-evoked increase in the control level of GSK3β as a proapoptotic effect. GSK3β inhibition was observed in response to trehalose, which upregulated ERα and ERβ and protected APP/PS1 mice against dietary advanced glycation end product (dAGE)-induced neurotoxicity and cognitive impairment [ 53 ]. Our results are also in line with the ERα-mediated anti-apoptotic effects of adenosine against Aβ 25-35 -induced brain damage [ 54 ] and of formononetin in AD patients [ 55 ], as well as the ER/PI3K/Akt-mediated effect of naringenin against Aβ 25-35 -caused damage in neuronally differentiated PC12 cells [ 56 ].…”

Section: Discussionmentioning

confidence: 99%

Posttreatment with PaPE-1 Protects from Aβ-Induced Neurodegeneration Through Inhibiting the Expression of Alzheimer’s Disease-Related Genes and Apoptosis Process That Involves Enhanced DNA Methylation of Specific Genes

Pietrzak-Wawrzyńska,

Wnuk,

Przepiórska-Drońska

et al. 2023

Mol Neurobiol

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Targeting the non-nuclear estrogen receptor (ER) signaling has been postulated as novel therapeutic strategy for central nervous system pathologies. Recently, we showed that newly designed PaPE-1 (Pathway Preferential Estrogen-1), which selectively activates ER non-nuclear signaling pathways, elicited neuroprotection in a cellular model of Alzheimer’s disease (AD) when it was applied at the same time as amyloid-β (Aβ). Since delayed treatment reflects clinical settings better than cotreatment does, current basic study proposes a novel therapeutic approach for AD that relies on a posttreatment with PaPE-1. In this study, mouse neuronal cell cultures treated with preaggregated Aβ1-42 (10 µM) showed the presence of extracellular Aβ1-42, confirming the adequacy of the AD model used. We are the first to demonstrate that a 24-h delayed posttreatment with PaPE-1 decreased the degree of Aβ-induced neurodegeneration, restored neurite outgrowth, and inhibited the expression of AD-related genes, i.e., Rbfox, Apoe, Bace2, App, and Ngrn, except for Chat, which was stimulated. In addition, PaPE-1 elicited anti-apoptotic effects by inhibiting Aβ-induced caspase activities as well as attenuating apoptotic chromatin condensation, and in these ways, PaPE-1 prevented neuronal cell death. Posttreatment with PaPE-1 also downregulated the Aβ-affected mRNA expression of apoptosis-specific factors, such as Bax, Gsk3b, Fas, and Fasl, except for Bcl2, which was upregulated by PaPE-1. In parallel, PaPE-1 decreased the protein levels of BAX, FAS, and FASL, which were elevated in response to Aβ. PaPE-1 elicited a decrease in the BAX/BCL2 ratio that corresponds to increased methylation of the Bax gene. However, the PaPE-1-evoked Bcl2 gene hypermethylation suggests other PaPE-1-dependent mechanisms to control Aβ-induced apoptosis.

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Section: Discussionmentioning

confidence: 99%

Posttreatment with PaPE-1 Protects from Aβ-Induced Neurodegeneration Through Inhibiting the Expression of Alzheimer’s Disease-Related Genes and Apoptosis Process That Involves Enhanced DNA Methylation of Specific Genes

Pietrzak-Wawrzyńska,

Wnuk,

Przepiórska-Drońska

et al. 2023

Mol Neurobiol

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“…4 Additionally, dietary advanced glycation end products (AGEs), which typically increase when high-temperature cooking methods are involved, such as deep-frying, broiling, and roasting, and are prone to accumulate in foods high in protein and/or fat contents, 5 is another increasingly recognized dietary risk factor associated with cognitive decline (AD). 6 Previous animal studies have also supported the idea that an AGEs diet might induce cognitive impairment via multiple mechanisms, 7–10 such as affecting mitochondrial function 11 or hallmarks involved in AD. 8 It remains unclear whether the combination of HFD with AGEs diet might induce worse cognitive dysfunction than independent intervention.…”

Section: Introductionmentioning

confidence: 89%

Age-dependent effects of a high-fat diet combined with dietary advanced glycation end products on cognitive function and protection with voluntary exercise

Luo

Wang

et al. 2022

Food Funct.

Self Cite

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“…Treatment with trehalose mitigated the negative effect of AGEs through down‐regulation of GSK3β and triggered nuclear translocation of transcription factor EB (TFEB). 291 Similarly, Calycosin exhibits a neuroprotective effect against AGEs‐induced neurotoxicity by inhibiting GSK3β. In a rat model of diabetes complicated with AD, Calycosin improves learning and memory, and reduces AD‐related pathologies such as neurofibrillary tangles and amyloid deposits, as well as mitochondrial dysfunction.…”

Section: Therapeutic Strategies For Ad Targeting Gsk3mentioning

confidence: 99%

“…AGEs increased GSK3β activity and tau phosphorylation in female APP/PS1 mice. Treatment with trehalose mitigated the negative effect of AGEs through down‐regulation of GSK3β and triggered nuclear translocation of transcription factor EB (TFEB) 291 . Similarly, Calycosin exhibits a neuroprotective effect against AGEs‐induced neurotoxicity by inhibiting GSK3β.…”

Section: Therapeutic Strategies For Ad Targeting Gsk3mentioning

confidence: 99%

GSK3: A potential target and pending issues for treatment of Alzheimer's disease

Zhao,

Wei,

Guo

et al. 2024

CNS Neurosci Ther

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Glycogen synthase kinase‐3 (GSK3), consisting of GSK3α and GSK3β subtypes, is a complex protein kinase that regulates numerous substrates. Research has observed increased GSK3 expression in the brains of Alzheimer's disease (AD) patients and models. AD is a neurodegenerative disorder with diverse pathogenesis and notable cognitive impairments, characterized by Aβ aggregation and excessive tau phosphorylation. This article provides an overview of GSK3's structure and regulation, extensively analyzing its relationship with AD factors. GSK3 overactivation disrupts neural growth, development, and function. It directly promotes tau phosphorylation, regulates amyloid precursor protein (APP) cleavage, leading to Aβ formation, and directly or indirectly triggers neuroinflammation and oxidative damage. We also summarize preclinical research highlighting the inhibition of GSK3 activity as a primary therapeutic approach for AD. Finally, pending issues like the lack of highly specific and affinity‐driven GSK3 inhibitors, are raised and expected to be addressed in future research. In conclusion, GSK3 represents a target in AD treatment, filled with hope, challenges, opportunities, and obstacles.

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Sex‐Specific Neurotoxicity of Dietary Advanced Glycation End Products in APP/PS1 Mice and Protective Roles of Trehalose by Inhibiting Tau Phosphorylation via GSK‐3β‐TFEB

Cited by 9 publications

References 46 publications

Posttreatment with PaPE-1 Protects from Aβ-Induced Neurodegeneration Through Inhibiting the Expression of Alzheimer’s Disease-Related Genes and Apoptosis Process That Involves Enhanced DNA Methylation of Specific Genes

Posttreatment with PaPE-1 Protects from Aβ-Induced Neurodegeneration Through Inhibiting the Expression of Alzheimer’s Disease-Related Genes and Apoptosis Process That Involves Enhanced DNA Methylation of Specific Genes

Age-dependent effects of a high-fat diet combined with dietary advanced glycation end products on cognitive function and protection with voluntary exercise

GSK3: A potential target and pending issues for treatment of Alzheimer's disease

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