N1‐Acetyl‐5‐methoxykynuramine, which decreases in the hippocampus with aging, improves long‐term memory via CaMKII/CREB phosphorylation

Author:

Watanabe Kazuki1,Maruyama Yusuke2,Iwashita Hikaru34,Kato Haruyasu2,Hirayama Jun15,Hattori Atsuhiko26

Affiliation:

1. Department of Clinical Engineering, Faculty of Health Sciences Komatsu University Komatsu Ishikawa Japan

2. Department of Sport and Wellness, College of Sport and Wellness Rikkyo University Niiza Saitama Japan

3. Department of Anatomy, Faculty of Medicine Kansai Medical University Hirakata Osaka Japan

4. Department of Materials and Life Sciences, Faculty of Science and Technology Sophia University Chiyoda‐ku Tokyo Japan

5. Division of Health Sciences, Graduate School of Sustainable Systems Science Komatsu University Komatsu Ishikawa Japan

6. Department of Biology, College of Liberal Arts and Sciences Tokyo Medical and Dental University Ichikawa Chiba Japan

Abstract

AbstractMelatonin is a molecule ubiquitous in nature and involved in several physiological functions. In the brain, melatonin is converted to N1‐acetyl‐N2‐formyl‐5‐methoxykynuramine (AFMK) and then to N1‐acetyl‐5‐methoxykynuramine (AMK), which has been reported to strongly enhance long‐term object memory formation. However, the synthesis of AMK in brain tissues and the underlying mechanisms regarding memory formation remain largely unknown. In the present study, young and old individuals from a melatonin‐producing strain, C3H/He mice, were employed. The amount of AMK in the pineal gland and plasma was very low compared with those of melatonin at night; conversely, in the hippocampus, the amount of AMK was higher than that of melatonin. Indoleamine 2, 3‐dioxygenase (Ido) mRNA was expressed in multiple brain tissues, whereas tryptophan 2,3‐dioxygenase (Tdo) mRNA was expressed only in the hippocampus, and its lysate had melatonin to AFMK conversion activity, which was blocked by the TDO inhibitor. The expression levels of phosphorylated cAMP response element binding protein (CREB) and PSD‐95 in whole hippocampal tissue were significantly increased with AMK treatment. Before increasing in the whole tissue, CREB phosphorylation was significantly enhanced in the nuclear fraction. In the Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway analysis, we found that downregulated genes in hippocampus of old C3H/He mice were more enriched for long‐term potentiation (LTP) pathway. Gene set enrichment analysis showed that LTP and neuroactive receptor interaction gene sets were enriched in hippocampus of old mice. In addition, Ido1 and Tdo mRNA expression was significantly decreased in the hippocampus of old mice compared with young mice, and the decrease in Tdo mRNA was more pronounced than Ido1. Furthermore, there was a higher decrease in AMK levels, which was less than 1/10 that of young mice, than in melatonin levels in the hippocampus of old mice. In conclusion, we first demonstrated the Tdo‐related melatonin to AMK metabolism in the hippocampus and suggest a novel mechanism of AMK involved in LTP and memory formation. These results support AMK as a potential therapeutic agent to prevent memory decline.

Publisher

Wiley

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