NaCT/SLC13A5 促进营养受限条件下柠檬酸的摄取和代谢。

NaCT/SLC13A5 facilitates citrate import and metabolism under nutrient-limited conditions.

机构信息

Department of Bioengineering, University of California, San Diego, La Jolla, CA 92093, USA.

Division of Nutritional Sciences, Cornell University, Ithaca, NY 14850, USA; Department of Cell, Developmental and Integrative Biology, University of Alabama at Birmingham, Birmingham, AL 35294, USA.

出版信息

Cell Rep. 2021 Sep 14;36(11):109701. doi: 10.1016/j.celrep.2021.109701.

DOI:10.1016/j.celrep.2021.109701

PMID:34525352

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8500708/

Abstract

Citrate lies at a critical node of metabolism, linking tricarboxylic acid metabolism and lipogenesis via acetyl-coenzyme A. Recent studies have observed that deficiency of the sodium-dependent citrate transporter (NaCT), encoded by SLC13A5, dysregulates hepatic metabolism and drives pediatric epilepsy. To examine how NaCT contributes to citrate metabolism in cells relevant to the pathophysiology of these diseases, we apply C isotope tracing to SLC13A5-deficient hepatocellular carcinoma (HCC) cells and primary rat cortical neurons. Exogenous citrate appreciably contributes to intermediary metabolism only under hypoxic conditions. In the absence of glutamine, citrate supplementation increases de novo lipogenesis and growth of HCC cells. Knockout of SLC13A5 in Huh7 cells compromises citrate uptake and catabolism. Citrate supplementation rescues Huh7 cell viability in response to glutamine deprivation or Zn treatment, and NaCT deficiency mitigates these effects. Collectively, these findings demonstrate that NaCT-mediated citrate uptake is metabolically important under nutrient-limited conditions and may facilitate resistance to metal toxicity.

摘要

柠檬酸盐位于代谢的关键节点，通过乙酰辅酶 A 将三羧酸代谢和脂肪生成联系起来。最近的研究观察到，钠依赖性柠檬酸盐转运蛋白 (NaCT) 的缺乏，由 SLC13A5 编码，会使肝代谢失调并导致小儿癫痫。为了研究 NaCT 如何在与这些疾病病理生理学相关的细胞中参与柠檬酸盐代谢，我们应用 C 同位素示踪法对 SLC13A5 缺陷型肝癌 (HCC) 细胞和原代大鼠皮质神经元进行研究。只有在缺氧条件下，外源性柠檬酸盐才能显著促进中间代谢。在没有谷氨酰胺的情况下，补充柠檬酸盐会增加 HCC 细胞的从头脂肪生成和生长。在 Huh7 细胞中敲除 SLC13A5 会损害柠檬酸盐的摄取和分解代谢。在谷氨酰胺缺乏或 Zn 处理时，补充柠檬酸盐可挽救 Huh7 细胞的活力，而 NaCT 缺乏则减轻了这些作用。总之，这些发现表明，在营养受限的条件下，NaCT 介导的柠檬酸盐摄取在代谢上是重要的，并且可能有助于抵抗金属毒性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cd29/8500708/09db07d6195b/nihms-1742219-f0001.jpg

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NaCT/SLC13A5 促进营养受限条件下柠檬酸的摄取和代谢。

NaCT/SLC13A5 facilitates citrate import and metabolism under nutrient-limited conditions.

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