微生物组和丁酸盐调节哺乳动物结肠中的能量代谢和自噬。
The microbiome and butyrate regulate energy metabolism and autophagy in the mammalian colon.
机构信息
Department of Genetics, University of North Carolina at Chapel Hill, 27599-7264, USA.
出版信息
Cell Metab. 2011 May 4;13(5):517-26. doi: 10.1016/j.cmet.2011.02.018.
Abstract
The microbiome is being characterized by large-scale sequencing efforts, yet it is not known whether it regulates host metabolism in a general versus tissue-specific manner or which bacterial metabolites are important. Here, we demonstrate that microbiota have a strong effect on energy homeostasis in the colon compared to other tissues. This tissue specificity is due to colonocytes utilizing bacterially produced butyrate as their primary energy source. Colonocytes from germfree mice are in an energy-deprived state and exhibit decreased expression of enzymes that catalyze key steps in intermediary metabolism including the TCA cycle. Consequently, there is a marked decrease in NADH/NAD(+), oxidative phosphorylation, and ATP levels, which results in AMPK activation, p27(kip1) phosphorylation, and autophagy. When butyrate is added to germfree colonocytes, it rescues their deficit in mitochondrial respiration and prevents them from undergoing autophagy. The mechanism is due to butyrate acting as an energy source rather than as an HDAC inhibitor.
摘要
微生物组正在通过大规模测序工作进行表征,但目前尚不清楚它是否以普遍与组织特异性的方式调节宿主代谢,或者哪些细菌代谢物是重要的。在这里,我们证明微生物组对结肠中的能量平衡有很强的影响,而对其他组织则没有。这种组织特异性是由于结肠细胞将细菌产生的丁酸盐用作其主要能量来源。无菌小鼠的结肠细胞处于能量匮乏状态,并且表现出催化中间代谢关键步骤的酶的表达降低,包括 TCA 循环。因此,NADH/NAD(+)、氧化磷酸化和 ATP 水平显著下降,导致 AMPK 激活、p27(kip1)磷酸化和自噬。当丁酸盐被添加到无菌结肠细胞中时,它可以挽救其线粒体呼吸缺陷,并防止它们发生自噬。这种机制是由于丁酸盐作为能量来源而不是作为 HDAC 抑制剂起作用。
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