Lysine myristoylation mediates long-term potentiation via membrane enrichment of synaptic plasticity effectors
Matthews B, Steeves S, Akefe I, Ahmed N, Gormal R, Dehorter N, Wallis T, Meunier F (2025) EMBO J DOI: 10.1038/s44318-025-00484-3
Web URL: Read this research on PubMed
Abstract:
Synaptic plasticity underlying long-term memory is associated with the generation of saturated free fatty acids (sFFAs) -particularly myristic acid- from membrane phospholipids by the phospholipase A1 isoform DDHD2. However, the mechanism through which myristic acid contributes to synaptic plasticity remains elusive. Here we demonstrate that DDHD2-derived myristic acid is rapidly converted to myristoyl CoA, which serves as the substrate for N-myristoyl transferases (NMT1/2), to promote post-translational lysine myristoylation of synaptic proteins. Chemically-induced long-term potentiation (cLTP) in cortical neurons increases both sFFAs and their CoA-conjugates, predominantly myristoyl CoA, and this response is blocked by the DDHD2 inhibitor KLH-45. KLH-45-mediated inhibition of DDHD2 or IMP-1088-mediated inhibition of NMT1/2 also disrupts cLTP-induced proteomic changes, impairs dendritic spine remodeling, and prevents LTP in hippocampal slices. Instrumental conditioning further induces proteomic changes in the hippocampus, which are abolished in learning-deficient DDHD2-/- knockout mice. In these mice, key synaptic proteins such as NMDA receptor subunit GluN1, MAP2, and GAS7 fail to undergo learning-induced changes, effectively linking DDHD2 function to learning-dependent proteome remodeling. Our findings reveal that de novo lysine myristoylation promotes synaptic plasticity and memory formation.FAB RESEARCH COMMENT:
Read the related news article here:
Food and Behaviour Research is a registered charity (No SC034604) and a company limited by guarantee (Co No SC 253448)
Newsletter Signup
Useful Links
Contact Us
FAB Research
23 Carlton Road
Oxford
OX2 7SA
Important Notice
Medical opinion and guidance should always be sought for any symptoms that might possibly reflect a known or suspected disease, disorder or medical condition. Information provided on this website (or by FAB Research via any other means) does not in any way constitute advice on the treatment of any medical condition formally diagnosed or otherwise.
Site by Redstone Websites. Easy to Use Web Content Management. 2026 © All Rights Reserved.