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Ketogenesis-generated β-hydroxybutyrate is an epigenetic regulator of CD8+ T-cell memory development

细胞生物学 下调和上调 酮发生 生物 糖原 磷酸戊糖途径 化学 糖酵解 生物化学 新陈代谢 基因 酮体
作者
Huafeng Zhang,Ke Tang,Jingwei Ma,Li Zhou,Jincheng Liu,Liping Zeng,Liyan Zhu,Pingwei Xu,Jie Chen,Keke Wei,Xiaoyu Liang,Jiadi Lv,Jing Xie,Yuying Liu,Yonghong Wan,Bo Huang
出处
期刊:Nature Cell Biology [Nature Portfolio]
卷期号:22 (1): 18-25 被引量:215
标识
DOI:10.1038/s41556-019-0440-0
摘要

Glycogen has long been considered to have a function in energy metabolism. However, our recent study indicated that glycogen metabolism, directed by cytosolic phosphoenolpyruvate carboxykinase Pck1, controls the formation and maintenance of CD8+ memory T (Tmem) cells by regulating redox homeostasis1. This unusual metabolic program raises the question of how Pck1 is upregulated in CD8+ Tmem cells. Here, we show that mitochondrial acetyl coenzyme A is diverted to the ketogenesis pathway, which indirectly regulates Pck1 expression. Mechanistically, ketogenesis-derived β-hydroxybutyrate is present in CD8+ Tmem cells; β-hydroxybutyrate epigenetically modifies Lys 9 of histone H3 (H3K9) of Foxo1 and Ppargc1a (which encodes PGC-1α) with β-hydroxybutyrylation, upregulating the expression of these genes. As a result, FoxO1 and PGC-1α cooperatively upregulate Pck1 expression, therefore directing the carbon flow along the gluconeogenic pathway to glycogen and the pentose phosphate pathway. These results reveal that ketogenesis acts as an unusual metabolic pathway in CD8+ Tmem cells, linking epigenetic modification required for memory development. Zhang et al. show that ketogenesis-derived β-hydroxybutyrate (BHB) epigenetically modifies H3K9 of Foxo1 and Ppargc1a to regulate Pck1, which in turn controls metabolic flux and CD8+ memory T-cell development.
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