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FGF21 improves cognition by restored synaptic plasticity,dendritic spine density,brain mitochondrial function and cell apoptosis in obese-insulin resistant male rats
Affiliation:1. Neurophysiology Unit, Cardiac Electrophysiology Research and Training Center Faculty of Medicine, Chiang Mai University, Chiang Mai, Thailand;2. Department of Physiology, Faculty of Medicine, Chiang Mai University, Chiang Mai, Thailand;3. School of Pharmaceutical Sciences, Wenzhou Medical University, University-Town, Wenzhou, Zhejiang, China;4. Department of Oral Biology and Diagnostic Science, Faculty of Dentistry, Chiang Mai University, Chiang Mai, Thailand;1. Centre for the Neurobiology of Stress, Department of Biological Sciences, University of Toronto Scarborough, Toronto, Ontario M1C 1A4, Canada;2. Department of Biological Sciences, University of Veterinary Medicine, Veterinärplatz 1, 1210 Vienna, Austria;1. Department of Psychology, Laurentian University, Sudbury, Ontario, Canada;2. Department of Psychology, Oakland University, Rochester, MI, United States;3. Department of Psychology, Nipissing University, North Bay, Ontario, Canada;4. Physical and Health Education, Nipissing University, North Bay, Ontario, Canada;5. Northern Ontario School of Medicine, Sudbury, Ontario, Canada
Abstract:Fibroblast growth factor 21 (FGF21) is an endocrine hormone which exerts beneficial effects on metabolic regulation in obese and diabetic models. However, the effect of FGF21 on cognition in obese-insulin resistant rats has not been investigated. We hypothesized that FGF21 prevented cognitive decline in obese-insulin resistant rats by improving hippocampal synaptic plasticity, dendritic spine density, brain mitochondrial function and brain FGF21 signaling as well as decreasing brain cell apoptosis. Eighteen male Wistar rats were divided into two groups, and received either a normal diet (ND) (n = 6) or a high fat diet (HFD) (n = 12) for 12 weeks. At week 13, the HFD-fed rats were subdivided into two subgroups (n = 6/subgroup) to receive either vehicle or recombinant human FGF21 (0.1 mg/kg/day) for four weeks. ND-fed rats were given vehicle for four weeks. At the end of the treatment, cognitive function, metabolic parameters, pro-inflammatory markers, brain mitochondrial function, cell apoptosis, hippocampal synaptic plasticity, dendritic spine density and brain FGF21 signaling were determined. The results showed that vehicle-treated HFD-fed rats developed obese-insulin resistance and cognitive decline with impaired hippocampal synaptic plasticity, decreased dendritic spine density, brain mitochondrial dysfunction and increased brain cell apoptosis. Impaired brain FGF 21 signaling was found in these obese-insulin resistant rats. FGF21-treated obese-insulin resistant rats had improved peripheral insulin sensitivity, increased hippocampal synaptic plasticity, increased dendritic spine density, restored brain mitochondrial function, attenuated brain cells apoptosis and increased brain FGF21 signaling, leading to a prevention of cognitive decline. These findings suggest that FGF21 treatment exerts neuroprotection in obese-insulin resistant rats.
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