Pei Xie scite author profile

BackgroundAlzheimer’s disease (AD) is the most common form of neurodegenerative disorder that leads to a decline in cognitive function. In AD, aggregates of amyloid β peptide precede the accumulation of neurofibrillary tangles, both of which are hallmarks of the disease. The great majority (>90 %) of the AD cases are not originated from genetic defects, therefore supporting the central roles of epigenetic modifications that are acquired progressively during the life span. Strong evidences have indicated the implication of epigenetic modifications, including histone modification and DNA methylation, in AD. Recent studies revealed that 5-hydroxymethylcytosine (5hmC) is dynamically regulated during neurodevelopment and aging.ResultsWe show that amyloid peptide 1–42 (Aβ1-42) could significantly reduce the overall level of 5hmC in vitro. We found that the level of 5hmC displayed differential response to the pathogenesis in different brain regions, including the cortex, cerebellum, and hippocampus of APP-PSEN1 double transgenic (DTg) mice. We observed a significant decrease of overall 5hmC in hippocampus, but not in cortex and cerebellum, as the DTg mice aged. Genome-wide profiling identified differential hydroxymethylation regions (DhMRs) in DTg mice, which are highly enriched in introns, exons and intergenic regions. Gene ontology analyses indicated that DhMR-associated genes are highly enriched in multiple signaling pathways involving neuronal development/differentiation and neuronal function/survival.Conclusions5hmC-mediated epigenetic regulation could potentially be involved in the pathogenesis of AD.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-016-2731-1) contains supplementary material, which is available to authorized users.

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Decarbonylative Suzuki–Miyaura Cross-Coupling of Aroyl Chlorides

Zhou

Xie

et al. 2020

Org. Lett.

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Herein, we report a catalyst system for Pd-catalyzed decarbonylative Suzuki–Miyaura cross-coupling of aroyl chlorides with boronic acids to furnish biaryls. This strategy is suitable for a broad range of common aroyl chlorides and boronic acids. The synthetic utility is highlighted in the direct late-stage functionalization of pharmaceuticals and natural products capitalizing on the presence of carboxylic acid moiety. Extensive mechanistic and DFT studies provide key insight into the reaction mechanism and high decarbonylative cross-coupling selectivity.

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An epigenetic view of developmental diseases: new targets, new therapies

Xie

Zang

et al. 2016

World J Pediatr

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The Dynamic DNA Demethylation during Postnatal Neuronal Development and Neural Stem Cell Differentiation

Tao

Xie

Cao

et al. 2018

Stem Cells International

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Background DNA demethylation, the conversion of 5-methylcytosine (5mC) to 5-hydroxymethylcytosine (5hmC), 5-formylcytosine (5fC), and 5-carboxylcytosine (5caC), plays important roles in diverse biological processes and multiple diseases by regulating gene expression. Methods In this study, utilizing DNA dot blot, immunofluorescence staining, and qRT-PCR, we studied the expression pattern of Tets, the enzymes governing DNA demethylation, and the levels of 5hmC, 5fC, and 5caC during the postnatal neuronal development of mice. Results It was found that 5hmC, 5fC, and 5caC were highly enriched in multiple brain regions and aNSCs and displayed temporal and spatial patterns during postnatal neuronal development and the differentiation of aNSCs. Consistently, the expression of Tets also exhibited temporal and spatial patterns. Conclusion DNA demethylation displayed dynamic features during postnatal neuronal development and the differentiation of aNSCs of mice, which could contribute to appropriate gene expression.

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Pei Xie

Genome-wide alteration of 5-hydroxymenthylcytosine in a mouse model of Alzheimer’s disease

Decarbonylative Suzuki–Miyaura Cross-Coupling of Aroyl Chlorides

An epigenetic view of developmental diseases: new targets, new therapies

The Dynamic DNA Demethylation during Postnatal Neuronal Development and Neural Stem Cell Differentiation

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