Neural Regeneration Research (Jan 2022)

(D-Ser2) oxyntomodulin recovers hippocampal synaptic structure and theta rhythm in Alzheimer’s disease transgenic mice

  • Guang-Zhao Yang,
  • Qi-Chao Gao,
  • Wei-Ran Li,
  • Hong-Yan Cai,
  • Hui-Min Zhao,
  • Jian-Ji Wang,
  • Xin-Rui Zhao,
  • Jia-Xin Wang,
  • Mei-Na Wu,
  • Jun Zhang,
  • Christian Hölscher,
  • Jin-Shun Qi,
  • Zhao-Jun Wang

DOI
https://doi.org/10.4103/1673-5374.335168
Journal volume & issue
Vol. 17, no. 9
pp. 2072 – 2078

Abstract

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In our previous studies, we have shown that (D-Ser2) oxyntomodulin (Oxm), a glucagon-like peptide 1 (GLP-1) receptor (GLP1R)/glucagon receptor (GCGR) dual agonist peptide, protects hippocampal neurons against Aβ1–42-induced cytotoxicity, and stabilizes the calcium homeostasis and mitochondrial membrane potential of hippocampal neurons. Additionally, we have demonstrated that (D-Ser2) Oxm improves cognitive decline and reduces the deposition of amyloid-beta in Alzheimer’s disease model mice. However, the protective mechanism remains unclear. In this study, we showed that 2 weeks of intraperitoneal administration of (D-Ser2) Oxm ameliorated the working memory and fear memory impairments of 9-month-old 3×Tg Alzheimer’s disease model mice. In addition, electrophysiological data recorded by a wireless multichannel neural recording system implanted in the hippocampal CA1 region showed that (D-Ser2) Oxm increased the power of the theta rhythm. In addition, (D-Ser2) Oxm treatment greatly increased the expression level of synaptic-associated proteins SYP and PSD-95 and increased the number of dendritic spines in 3×Tg Alzheimer’s disease model mice. These findings suggest that (D-Ser2) Oxm improves the cognitive function of Alzheimer’s disease transgenic mice by recovering hippocampal synaptic function and theta rhythm.

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