Age and APOE affect L-carnitine system metabolites in the brain in the APOE-TR model

Huguenard, Claire; Cseresznye, Adam; Darcey, Teresa; Nkiliza, Aurore; Evans, James E.; Hazen, Stanley L.; Mullan, Michael; Crawford, Fiona; Abdullah, Laila

doi:10.3389/fnagi.2022.1059017

Front. Aging Neurosci.

2023

DOI: 10.3389/fnagi.2022.1059017

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Age and APOE affect L-carnitine system metabolites in the brain in the APOE-TR model

Claire Huguenard

Adam Cseresznye

Teresa Darcey

et al.

Abstract: With age the apolipoprotein E (APOE) E4 allele (involved in lipid homeostasis) is associated with perturbation of bioenergetics pathways in Alzheimer’s disease (AD). We therefore hypothesized that in aging mice APOE genotype would affect the L-carnitine system (central to lipid bioenergetics), in the brain and in the periphery. Using liquid chromatography-mass spectrometry, levels of L-carnitine and associated metabolites: γ-butyrobetaine (GBB), crotonobetaine, as well as acylcarnitines, were evaluated at 10-,… Show more

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Cited by 4 publications

References 78 publications

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Impact of aerobic exercise on brain metabolism: Insights from spatial metabolomic analysis

Zheng,

Luo,

Kong

et al. 2025

Behavioural Brain Research

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Impact of aerobic exercise on brain metabolism: Insights from spatial metabolomic analysis

Zheng,

Luo,

Kong

et al. 2025

Behavioural Brain Research

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An 8-(Diazomethyl) Quinoline Derivatized Acyl-CoA in Silico Mass Spectral Library Reveals the Landscape of Acyl-CoA in Aging Mouse Organs

Yu,

Guo,

Liu

et al. 2024

Anal. Chem.

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Acyl-Coenzyme As (acyl-CoAs) are essential intermediates to incorporate carboxylic acids into the bioactive metabolic network across all species, which play important roles in lipid remodeling, fatty acids, and xenobiotic carboxylic metabolism. However, due to the poor liquid chromatographic behavior, the relatively low mass spectrometry (MS) sensitivity, and lack of authentic standards for annotation, the indepth untargeted profiling of acyl-CoAs is challenging. We developed a chemical derivatization strategy of acyl-CoAs by employing 8-(diazomethyl) quinoline (8-DMQ) as the labeling reagent, which increased the detection sensitivity by 625-fold with good peak shapes. By applying the MS/MS fragmentation rules learned from the MS/MS spectra of 8-DMQ-acyl-CoA authentic standards, an 8-DMQ-acyl-CoA in silico mass spectral library containing 33,344 highresolution tandem mass spectra of 8,336 acyl-CoA species was created. The in silico library facilitated the high-throughput and automatic annotation of acyl-CoA using multiple metabolomic data processing tools, such as NIST MS Search and MSDIAL. The feasibility of the in silico library in a complex sample was demonstrated by profiling endogenous acyl-CoAs in multiple organs of an aging mouse. 53 acyl-CoA species were annotated, including 12 oxidized fatty acyl-CoAs and 3 novel nonfatty acyl-CoAs. False positive annotations were further screened by developing an eXtreme Gradient Boosting (XGBoost) based retention time prediction model. The organ distribution and the aging dynamics of acyl-CoAs in a mouse model were discussed for the first time, which helped to elucidate the organ-specific function of acyl-CoAs and the role of different acyl-CoA species during aging.

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Metabolic signatures of combined exercise and fasting: an expanded perspective on previous telomere length findings

Almuraikhy,

Naja,

Anwardeen

et al. 2024

Front. Aging

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IntroductionAging is a complex process marked by a gradual decline in physiological function and increased susceptibility to diseases. Telomere length is frequently regarded as one of the primary biomarkers of aging. Metabolic profiles are key features in longevity and have been associated with both age and age-related diseases. We previously reported an increase in the telomere length in healthy female subjects when Ramadan fasting was combined with physical training. This study aims to characterize the metabolic signature differentiating the combined effects of exercise and fasting from exercise alone and explore the correlations with the previously reported telomere length changes.MethodsTwenty-nine young, non-obese, and healthy female subjects were previously randomized into two groups: one group followed a 4-week exercise program, while the other group followed the same 4-week exercise program but also fasted during Ramadan. Metabolic profiles were assessed pre- and post-intervention using untargeted metabolomics.Results and DiscussionOur results showed a significant decrease in many lipid metabolites in the exercise-while-fasting group, particularly ceramides. Our study sheds light on the dynamic changes in lipid metabolism and its potential role in inflammation and age-related diseases, and contributes to the broader understanding of how lifestyle factors can influence cellular aging and metabolic health.

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Age and APOE affect L-carnitine system metabolites in the brain in the APOE-TR model

Cited by 4 publications

References 78 publications

Impact of aerobic exercise on brain metabolism: Insights from spatial metabolomic analysis

Impact of aerobic exercise on brain metabolism: Insights from spatial metabolomic analysis

An 8-(Diazomethyl) Quinoline Derivatized Acyl-CoA in Silico Mass Spectral Library Reveals the Landscape of Acyl-CoA in Aging Mouse Organs

Metabolic signatures of combined exercise and fasting: an expanded perspective on previous telomere length findings

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