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Sustained high-fat diet modulates inflammation, insulinsignalling and cognition in mice and a modified xenin peptideameliorates neuropathology in a chronic high-fat model

Denver, Paul, Gault, Victor A and McClean, Paula L (2018) Sustained high-fat diet modulates inflammation, insulinsignalling and cognition in mice and a modified xenin peptideameliorates neuropathology in a chronic high-fat model. DIABETES OBESITY AND METABOLISM, 10.111 . [Journal article]

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DOI: 10.1111/dom .13210

Abstract

Aims: To demarcate pathological events in the brain as a result of short-term to chronic highfat-diet (HFD) feeding, which leads to cognitive impairment and neuroinflammation, and toassess the efficacy of Xenin-25[Lys(13)PAL] in chronic HFD-fed mice.Methods: C57BL/6 mice were fed an HFD or a normal diet for 18 days, 34 days, 10 and21 weeks. Cognition was assessed using novel object recognition and the Morris water maze.Markers of insulin signalling and inflammation were measured in brain and plasma using immunohistochemistry,quantitative PCR and multi-array technology. Xenin-25[Lys(13)PAL] was alsoadministered for 5 weeks in chronic HFD-fed mice to assess therapeutic potential at a pathologicalstage.Results: Recognition memory was consistently impaired in HFD-fed mice and spatial learningwas impaired in 18-day and 21-week HFD-fed mice. Gliosis, oxidative stress and IRS-1 pSer616were increased in the brain on day 18 in HFD-fed mice and were reduced by Xenin-25[Lys(13)PAL] in 21-week HFD-fed mice. In plasma, HFD feeding elevated interleukin (IL)-6 and chemokine(C-X-C motif ) ligand 1 at day 34 and IL-5 at week 10. In the brain, HFD feeding reducedextracellular signal-regulated kinase 2 (ERK2), mechanistic target of rapamycin (mTOR), NF-κB1, protein kinase C (PKC)θ and Toll-like receptor 4 (TLR4) mRNA at week 10 and increasedexpression of glucacon-like peptide-1 receptor, inhibitor of NF-κB kinase β, ERK2, mTOR, NF-κB1, PKCθ and TLR4 at week 21, elevations that were abrogated by Xenin-25[Lys(13)PAL].Conclusions: HFD feeding modulates cognitive function, synapse density, inflammation andinsulin resistance in the brain. Xenin-25[Lys(13)PAL] ameliorated markers of inflammation andinsulin signalling dysregulation and may have therapeutic potential in the treatment of diseasesassociated with neuroinflammation or perturbed insulin signalling in the brain.

Item Type:Journal article
Keywords:cognitive function, high-fat diet, insulin resistance, neuroinflammation, neurotensin receptor- 1, xenin-25
Faculties and Schools:Faculty of Life and Health Sciences > School of Biomedical Sciences
Faculty of Life and Health Sciences
Research Institutes and Groups:Biomedical Sciences Research Institute
Biomedical Sciences Research Institute > Stratified Medicine
Biomedical Sciences Research Institute > Diabetes
ID Code:39868
Deposited By: Dr Paula McClean
Deposited On:24 Apr 2018 10:00
Last Modified:24 Apr 2018 10:00

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