Epigenetic processes play important roles in the biology of the malaria parasite Plasmodium falciparum. Here, we characterised a new epigenetic mark, histone lactylation, for the first time in Plasmodium: it was found in two human malaria parasites, P. falciparum and P. knowlesi, and also in vivo in two rodent malaria models, P. yoelii and P. berghei. Histones were increasingly lactylated in response to elevated lactate levels in vitro and in vivo, making this mark uniquely well-placed to act as a metabolic sensor, since severe falciparum malaria characteristically leads to hyperlactataemia in the human host. Mass spectrometry showed that lysines on several parasite histones could be lactylated, as well as many non-histone chromatin proteins. Histone lactylation was less abundant and less inducible in P. knowlesi than P. falciparum, suggesting that P. falciparum may have evolved particular epigenetic responses to this characteristic feature of its pathology. Finally, in the rodent model P. yoelii, hyperlactataemia correlated with parasite transcriptomic programmes that suggested metabolic 'dormancy'.
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