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Τρίτη 21 Μαΐου 2019

Icon for Elsevier ScienceRelated Articles
Effects of Liraglutide and Fenretinide treatments on the diabetic phenotype of neuronal human BACE1 knock-in mice.
Biochem Pharmacol. 2019 May 16;:
Authors: Dekeryte R, Hull C, Plucińska K, Khan S, Kamli-Salino S, Mody N, Morrice N, McLaughlin C, Gault V, Platt B, Delibegovic M
Abstract
We recently reported that brain-specific human β-secretase 1 (BACE1) knock-in (PLB4), a mouse model of 'sporadic' Alzheimer's disease (AD), also develops a severe diabetic phenotype characterised by impaired glucose homeostasis, decreased insulin sensitivity and a fatty liver phenotype. Hence, we here aimed to assess if targeted anti-diabetic therapies (Liraglutide and Fenretinide) would attenuate the diabetic and behavioural phenotype of these mice. PLB4 and wild-type (WT) controls were administered Liraglutide or Fenretinide for ten consecutive weeks alongside vehicle-treated mice. Physiological (body weight and mass composition, glucose tolerance, serum hormone concentration), behavioural (locomotor activity) and molecular assessments were performed in mice pre- and post-treatment. Liraglutide and Fenretinide treatments inhibited adiposity gain and decreased circulating serum triglyceride (with Liraglutide) and leptin (with Fenretinide) levels in PLB4 mice. We also found that PLB4 mice exhibit increased levels of serum dipeptidyl peptidase 4 (DPP4), together with up-regulated hepatic expression of Dpp4, retinol binding protein 4 (Rbp4) and sterol regulatory element-binding 1c (Srebp1c), which was normalised by both treatments. Interestingly, Liraglutide treatment slowed down habituation to a novel environment and increased secondary night activity peak in WT mice, suggesting an impact on circadian activity regulation. However, neither treatment improved glucose homeostasis in PLB4 mice, implying that impaired glucose metabolism in this genotype may not be associated with glucagon like peptide 1 (GLP-1) and/or RBP4-mediated pathways. In summary, this study provides new insights into molecular mechanisms underlying neuronal BACE1-mediated metabolic regulation and implicates BACE1 as a putative regulator of systemic DPP4 levels.
PMID: 31103416 [PubMed - as supplied by publisher]

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