RNA 结合蛋白 A1CF 通过选择性 RNA 剪接调节肝脏果糖和甘油代谢。

The RNA-Binding Protein A1CF Regulates Hepatic Fructose and Glycerol Metabolism via Alternative RNA Splicing.

机构信息

Institute of Molecular Health Sciences, ETH Zurich, Otto-Stern-Weg 7, 8093 Zürich, Switzerland.

Laboratory of RNA Molecular Biology, The Rockefeller University, 1230 York Avenue, New York, NY 10021, USA.

出版信息

Cell Rep. 2019 Oct 8;29(2):283-300.e8. doi: 10.1016/j.celrep.2019.08.100.

DOI:10.1016/j.celrep.2019.08.100

PMID:31597092

Abstract

The regulation of hepatic gene expression has been extensively studied at the transcriptional level; however, the control of metabolism through posttranscriptional gene regulation by RNA-binding proteins in physiological and disease states is less understood. Here, we report a major role for the hormone-sensitive RNA-binding protein (RBP) APOBEC1 complementation factor (A1CF) in the generation of hepatocyte-specific and alternatively spliced transcripts. Among these transcripts are isoforms for the dominant and high-affinity fructose-metabolizing ketohexokinase C and glycerol kinase, two key metabolic enzymes that are linked to hepatic gluconeogenesis and found to be markedly reduced upon hepatic ablation of A1cf. Consequently, mice lacking A1CF exhibit improved glucose tolerance and are protected from fructose-induced hyperglycemia, hepatic steatosis, and development of obesity. Our results identify a previously unreported function of A1CF as a regulator of alternative splicing of a subset of genes influencing hepatic glucose production through fructose and glycerol metabolism.

摘要

肝脏基因表达的调控在转录水平上已经得到了广泛的研究；然而，在生理和疾病状态下，通过 RNA 结合蛋白对代谢的转录后基因调控的控制还不太了解。在这里，我们报告了激素敏感的 RNA 结合蛋白 (RBP) APOBEC1 互补因子 (A1CF) 在生成肝细胞特异性和选择性剪接转录本中的主要作用。在这些转录本中，有两种关键代谢酶的同工型，即主导的和高亲和力果糖代谢酮己激酶 C 和甘油激酶，这两种酶与肝糖异生有关，并且在肝 A1cf 缺失时明显减少。因此，缺乏 A1CF 的小鼠表现出改善的葡萄糖耐量，并免受果糖诱导的高血糖、肝脂肪变性和肥胖的发展的影响。我们的结果确定了 A1CF 的一个以前未报道的功能，作为一组通过果糖和甘油代谢影响肝葡萄糖生成的基因的选择性剪接的调节剂。

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RNA 结合蛋白 A1CF 通过选择性 RNA 剪接调节肝脏果糖和甘油代谢。

The RNA-Binding Protein A1CF Regulates Hepatic Fructose and Glycerol Metabolism via Alternative RNA Splicing.

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