Histone lactylation: from tumor lactate metabolism to epigenetic regulation

Yu, Xiaoning; Yang, Jing; Xu, Jin; Pan, Haoqi; Wang, Wei; Yu, Xianjun; Shi, Si

doi:10.7150/ijbs.91492

Int. J. Biol. Sci.

2024

DOI: 10.7150/ijbs.91492

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Histone lactylation: from tumor lactate metabolism to epigenetic regulation

Xiaoning Yu,

Jing Yang,

Jin Xu

et al.

Abstract: The Warburg Effect is one of the most well-known cancer hallmarks. This metabolic pattern centered on lactate has extremely complex effects on various aspects of tumor microenvironment, including metabolic remodeling, immune suppression, cancer cell migration, and drug resistance development. Based on accumulating evidence, metabolites are likely to participate in the regulation of biological processes in the microenvironment and to form a feedback loop. Therefore, further revealing the key mechanism of lactat… Show more

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2024

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Cited by 8 publications

References 154 publications

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Potential Predictor of Epigenetic Age Acceleration in Men: 2D:4D Finger Pattern

Pruszkowska‐Przybylska,

Noroozi,

Rudnicka

et al. 2024

American J Hum Biol

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ObjectivesSecond to fourth digit ratio is widely known indicator of prenatal sex hormones proportion. Higher prenatal androgenization results in longer fourth finger and lower 2D:4D index. The aim of this study was to determine whether the 2D:4D digit ratio is associated with DNA methylation (DNAm) age dependently on sex.Material and MethodsThe study included 182 adults (106 females and 76 males) with a mean age of 51.5 ± 13 years. The investigation consisted of three main parts: a survey, anthropometric dimensions measurements (fingers length) and methylome analysis using collected blood samples. Genome‐wide methylation was analyzed using EPIC microarray technology. Epigenetic age and epigenetic age acceleration were calculated using several widely applied algorithms.ResultsMales with the female left hand pattern had more accelerated epigenetic age than those with the male pattern as calculated with PhenoAge and DNAmTL clocks.ConclusionsFinger female pattern 2D:4D above or equal to 1 in males is associated with epigenetic age acceleration, indicating that prenatal exposure to estrogens in males may be related to aging process in the later ontogenesis.

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Potential Predictor of Epigenetic Age Acceleration in Men: 2D:4D Finger Pattern

Pruszkowska‐Przybylska,

Noroozi,

Rudnicka

et al. 2024

American J Hum Biol

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The roles of lactate and the interplay with m6A modification in diseases

Tang,

Xiao,

et al. 2024

Cell Biol Toxicol

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Lactate exhibits various biological functions, including the mediation of histone and non-histone lactylation to regulate gene transcription, influencing the activity of T lymphocytes, NK cells, and macrophages in immune suppression, activating G protein-coupled receptor 81 for signal transduction, and serving as an energy substrate. The m 6 A modification represents the most prevalent post-transcriptional epigenetic alteration. It is regulated by m 6 A-related regulatory enzymes (including methyltransferases, demethylases, and recognition proteins) that control the transcription, splicing, stability, and translation of downstream target RNAs. Lactate-mediated lactylation at histone H3K18 can modulate downstream target m 6 A modifications by enhancing the transcriptional expression levels of m 6 A-related regulatory enzymes. These enzymes play a crucial role in the progression of diseases such as cancer, fibrosis (in both liver and lung), myocardial ischemia, cerebral hemorrhage, and sepsis. Furthermore, m 6 A-related regulatory enzymes are also subject to lactylation by lactate. In turn, these regulatory enzymes can influence key glycolytic pathway enzymes or modify lactate transporter MCT4 via m 6 A alterations to impact lactate levels and subsequently affect lactylation processes. Graphical abstract 1. Lactate exhibits various biological functions, including the mediation of histone and non-histone lactylation, immune suppression, activating signal transduction, and serving as an energy substrate. 2. Lactate-induced lactylation of histone or non-histone can regulate downstream targets by influencing the transcription and activity of m 6 A-RRE. 3. m 6 A-RRE-mediated modifications can affect key enzymes in the glycolytic pathway or MCT4, impacting lactate levels.

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Advances in the interaction of glycolytic reprogramming with lactylation

Li,

Cao,

et al. 2024

Biomedicine & Pharmacotherapy

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Histone lactylation: from tumor lactate metabolism to epigenetic regulation

Cited by 8 publications

References 154 publications

Potential Predictor of Epigenetic Age Acceleration in Men: 2D:4D Finger Pattern

Potential Predictor of Epigenetic Age Acceleration in Men: 2D:4D Finger Pattern

The roles of lactate and the interplay with m6A modification in diseases

Advances in the interaction of glycolytic reprogramming with lactylation

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