Literature DB >> 25640170

Peripheral adipose tissue insulin resistance alters lipid composition and function of hippocampal synapses.

Hanaa S Sallam1, Batbayar Tumurbaatar, Wen-Ru Zhang, Demidmaa Tuvdendorj, Manisha Chandalia, Filippo Tempia, Fernanda Laezza, Giulio Taglialatela, Nicola Abate.   

Abstract

Compelling evidence indicates that type 2 diabetes mellitus, insulin resistance (IR), and metabolic syndrome are often accompanied by cognitive impairment. However, the mechanistic link between these metabolic abnormalities and CNS dysfunction requires further investigations. Here, we evaluated whether adipose tissue IR and related metabolic alterations resulted in CNS changes by studying synapse lipid composition and function in the adipocyte-specific ecto-nucleotide pyrophosphate phosphodiesterase over-expressing transgenic (AtENPP1-Tg) mouse, a model characterized by white adipocyte IR, systemic IR, and ectopic fat deposition. When fed a high-fat diet, AtENPP1-Tg mice recapitulate essential features of the human metabolic syndrome, making them an ideal model to characterize peripherally induced CNS deficits. Using a combination of gas chromatography and western blot analysis, we found evidence of altered lipid composition, including decreased phospholipids and increased triglycerides (TG) and free fatty acid in hippocampal synaptosomes isolated from high-fat diet-fed AtENPP1-Tg mice. These changes were associated with impaired basal synaptic transmission at the Schaffer collaterals to hippocampal cornu ammonis 1 (CA1) synapses, decreased phosphorylation of the GluN1 glutamate receptor subunit, down-regulation of insulin receptor expression, and up-regulation of the free fatty acid receptor 1.
© 2015 International Society for Neurochemistry.

Entities:  

Keywords:  ENPP1; cognitive dysfunction; glutamate receptors; insulin resistance; lipids; synaptic transmission

Mesh:

Substances:

Year:  2015        PMID: 25640170      PMCID: PMC4445974          DOI: 10.1111/jnc.13043

Source DB:  PubMed          Journal:  J Neurochem        ISSN: 0022-3042            Impact factor:   5.372


  44 in total

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