Journal article
Long-term histone lactylation connects metabolic and epigenetic rewiring in innate immune memory
A Ziogas, B Novakovic, L Ventriglia, N Galang, KA Tran, W Li, V Matzaraki, N van Unen, T Schlüter, AV Ferreira, SJCFM Moorlag, VACM Koeken, M Moyo, X Li, MPA Baltissen, JHA Martens, Y Li, M Divangahi, LAB Joosten, MM Mhlanga Show all
Cell | Published : 2025
Abstract
Trained immunity, a de facto innate immune memory characterized by enhanced responsiveness to future challenges, is underpinned by epigenetic and metabolic rewiring. In individuals vaccinated with Bacille Calmette-Guérin (BCG), lactate release was associated with enhanced cytokine responsiveness upon restimulation. Trained monocytes/macrophages are characterized by lactylation of histone H3 at lysine residue 18(H3K18la), mainly at distal regulatory regions. Histone lactylation was positively associated with active chromatin and gene transcription, persisted after the elimination of the training stimulus, and was strongly associated with “trained” gene transcription in response to a secondary..
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Awarded by Nederlandse Organisatie voor Wetenschappelijk Onderzoek