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Lixisenatide attenuates the detrimental effects of amyloid β protein on spatial working memory and hippocampal neurons in rats.

Behavioural brain research (2016-10-30)
Hong-Yan Cai, Zhao-Jun Wang, Christian Hölscher, Li Yuan, Jun Zhang, Peng Sun, Jing Li, Wei Yang, Mei-Na Wu, Jin-Shun Qi
RÉSUMÉ

Type 2 diabetes mellitus(T2DM) is a risk factor of Alzheimer's disease (AD), which is most likely linked to impairments of insulin signaling in the brain. Hence, drugs enhancing insulin signaling may have therapeutic potential for AD. Lixisenatide, a novel long-lasting glucagon-like peptide 1 (GLP-1) analogue, facilitates insulin signaling and has neuroprotective properties. We previously reported the protective effects of lixisenatide on memory formation and synaptic plasticity. Here, we describe additional key neuroprotective properties of lixisenatide and its possible molecular and cellular mechanisms against AD-related impairments in rats. The results show that lixisenatide effectively alleviated amyloid β protein (Aβ) 25-35-induced working memory impairment, reversed Aβ25-35-triggered cytotoxicity on hippocampal cell cultures, and prevented against Aβ25-35-induced suppression of the Akt-MEK1/2 signaling pathway. Lixisenatide also reduced the Aβ25-35 acute application induced intracellular calcium overload, which was abolished by U0126, a specific MEK1/2 inhibitor. These results further confirmed the neuroprotective and cytoprotective action of lixisenatide against Aβ-induced impairments, suggesting that the protective effects of lixisenatide may involve the activation of the Akt-MEK1/2 signaling pathway and the regulation of intracellular calcium homeostasis.

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Sigma-Aldrich
Lixisenatide, ≥95% (HPLC)