Post-translational protein lactylation modification in health and diseases: a double-edged sword

Gong, Hang; Zhong, Huang; Cheng, Long; Li, Liang-Ping; Zhang, De-Kui

doi:10.1186/s12967-023-04842-9

J Transl Med

2024

DOI: 10.1186/s12967-023-04842-9

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Post-translational protein lactylation modification in health and diseases: a double-edged sword

Hang Gong,

Huang Zhong,

Long Cheng

et al.

Abstract: As more is learned about lactate, it acts as both a product and a substrate and functions as a shuttle system between different cell populations to provide the energy for sustaining tumor growth and proliferation. Recent discoveries of protein lactylation modification mediated by lactate play an increasingly significant role in human health (e.g., neural and osteogenic differentiation and maturation) and diseases (e.g., tumors, fibrosis and inflammation, etc.). These views are critically significant and first … Show more

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Cited by 7 publications

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Nuciferine inhibits osteoclast formation through suppressing glycolysis metabolic programming and ROS production

Guo,

Zhen,

et al. 2024

The Kaohsiung J of Med Scie

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Nuciferine (NCF) is a bioactive compound from lotus leaves and has been proven to prevent osteoclastogenesis and ovariectomy‐induced osteoporosis by our previous research. However, the underlying mechanism is still unclear. In this research, Raw264.7 cells were induced into osteoclast with or without NCF. CCK‐8 and Edu assays were performed to detect the effects of 30 μM NCF on cell viability and proliferation. TRAP staining and bone resorption assays were performed to observe the role of NCF in osteoclastogenesis and bone resorption. RT‐PCR and Western blot were performed to detect the effects of NCF on osteoclast‐related genes, glycolysis‐related genes, and reactive oxygen species (ROS)‐related genes. Seahorse assays, lactate concentration and glucose consumption were performed to observe cell metabolism change. DCFH‐DA fluorescent probe was used to detect ROS level. In this work, 30 μM NCF could not influence cell viability and cell proliferation. Osteoclast differentiation could be inhibited by 30 μM NCF. Bone resorption assay could also observe that bone resorption ability was successfully inhibited by 30 μM NCF. In seahorse assay, we discovered that NCF could decrease extracellular acid rate and increase oxygen consumption. RT‐PCR and Western blot results showed that NCF could decrease the expression of hexokinase2, pyruvate kinase muscle 2, and lactate dehydrogenase A and that NCF could also weaken the concentration of lactate. However, pyruvate kinase muscle 2 activator (GC69716) and lactate addition could promote osteoclastogenesis and bone resorption and promote the expression of c‐Fos and nuclear factor of activated T cells c1. Besides, NCF could also inhibit the production of ROS. In conclusion, NCF might inhibit osteoclast formation through inhibiting glycolysis metabolism and ROS production.

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Nuciferine inhibits osteoclast formation through suppressing glycolysis metabolic programming and ROS production

Guo,

Zhen,

et al. 2024

The Kaohsiung J of Med Scie

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Lactylation and Ischemic Stroke: Research Progress and Potential Relationship

Zhang,

lin,

et al. 2024

Mol Neurobiol

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Advances in the interaction of glycolytic reprogramming with lactylation

Li,

Cao,

et al. 2024

Biomedicine & Pharmacotherapy

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Post-translational protein lactylation modification in health and diseases: a double-edged sword

Cited by 7 publications

References 129 publications

Nuciferine inhibits osteoclast formation through suppressing glycolysis metabolic programming and ROS production

Nuciferine inhibits osteoclast formation through suppressing glycolysis metabolic programming and ROS production

Lactylation and Ischemic Stroke: Research Progress and Potential Relationship

Advances in the interaction of glycolytic reprogramming with lactylation

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