Levetiracetam modulates brain metabolic networks and transcriptomic signatures in the 5XFAD mouse model of Alzheimer’s disease

dc.contributor.authorBurton, Charles P.
dc.contributor.authorChumin, Evgeny J.
dc.contributor.authorCollins, Alyssa Y.
dc.contributor.authorPersohn, Scott A.
dc.contributor.authorOnos, Kristen D.
dc.contributor.authorPandey, Ravi S.
dc.contributor.authorQuinney, Sara K.
dc.contributor.authorTerrito, Paul R.
dc.contributor.departmentRadiology and Imaging Sciences, School of Medicine
dc.date.accessioned2024-06-13T10:15:17Z
dc.date.available2024-06-13T10:15:17Z
dc.date.issued2024-01-24
dc.description.abstractIntroduction: Subcritical epileptiform activity is associated with impaired cognitive function and is commonly seen in patients with Alzheimer's disease (AD). The anti-convulsant, levetiracetam (LEV), is currently being evaluated in clinical trials for its ability to reduce epileptiform activity and improve cognitive function in AD. The purpose of the current study was to apply pharmacokinetics (PK), network analysis of medical imaging, gene transcriptomics, and PK/PD modeling to a cohort of amyloidogenic mice to establish how LEV restores or drives alterations in the brain networks of mice in a dose-dependent basis using the rigorous preclinical pipeline of the MODEL-AD Preclinical Testing Core. Methods: Chronic LEV was administered to 5XFAD mice of both sexes for 3 months based on allometrically scaled clinical dose levels from PK models. Data collection and analysis consisted of a multi-modal approach utilizing 18F-FDG PET/MRI imaging and analysis, transcriptomic analyses, and PK/PD modeling. Results: Pharmacokinetics of LEV showed a sex and dose dependence in Cmax, CL/F, and AUC0-∞, with simulations used to estimate dose regimens. Chronic dosing at 10, 30, and 56 mg/kg, showed 18F-FDG specific regional differences in brain uptake, and in whole brain covariance measures such as clustering coefficient, degree, network density, and connection strength (i.e., positive and negative). In addition, transcriptomic analysis via nanoString showed dose-dependent changes in gene expression in pathways consistent 18F-FDG uptake and network changes, and PK/PD modeling showed a concentration dependence for key genes, but not for network covariance modeling. Discussion: This study represents the first report detailing the relationships of metabolic covariance and transcriptomic network changes resulting from LEV administration in 5XFAD mice. Overall, our results highlight non-linear kinetics based on dose and sex, where gene expression analysis demonstrated LEV dose- and concentration-dependent changes, along with cerebral metabolism, and/or cerebral homeostatic mechanisms relevant to human AD, which aligned closely with network covariance analysis of 18F-FDG images. Collectively, this study show cases the value of a multimodal connectomic, transcriptomic, and pharmacokinetic approach to further investigate dose dependent relationships in preclinical studies, with translational value toward informing clinical study design.
dc.eprint.versionFinal published version
dc.identifier.citationBurton CP, Chumin EJ, Collins AY, et al. Levetiracetam modulates brain metabolic networks and transcriptomic signatures in the 5XFAD mouse model of Alzheimer's disease. Front Neurosci. 2024;17:1336026. Published 2024 Jan 24. doi:10.3389/fnins.2023.1336026
dc.identifier.urihttps://hdl.handle.net/1805/41515
dc.language.isoen_US
dc.publisherFrontiers Media
dc.relation.isversionof10.3389/fnins.2023.1336026
dc.relation.journalFrontiers in Neuroscience
dc.rightsAttribution 4.0 Internationalen
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/
dc.sourcePMC
dc.subjectLevetiracetam
dc.subjectAlzheimer’s disease
dc.subject5XFAD
dc.subjectConnectomics
dc.subjectNetwork neuroscience
dc.subjectPET imaging
dc.titleLevetiracetam modulates brain metabolic networks and transcriptomic signatures in the 5XFAD mouse model of Alzheimer’s disease
dc.typeArticle
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