富马酸水合酶缺乏的肾癌细胞通过激活未折叠蛋白反应和刺激己糖胺生物合成途径对天冬酰胺作出反应。

IF 6 3区 医学 Q1 CELL BIOLOGY
Cancer & Metabolism Pub Date : 2020-08-03 eCollection Date: 2020-01-01 DOI:10.1186/s40170-020-00214-9
Rony Panarsky, Daniel R Crooks, Andrew N Lane, Youfeng Yang, Teresa A Cassel, Teresa W-M Fan, W Marston Linehan, Jeffrey A Moscow
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引用次数: 2

摘要

背景:富马酸水合酶(FH)的功能丧失突变是遗传性平滑肌瘤病和肾细胞癌(HLRCC)的驱动因素。富马酸的积累导致应激相关机制的激活,从而导致细胞存活相关基因的上调。为了更好地了解细胞如何补偿HLRCC中FH的损失,我们确定了FH缺乏的UOK262细胞系(UOK262)及其FH补充对照(UOK262WT)的氨基酸营养需求。方法:测定氨基酸消耗和补充后细胞系的生长速率和存活率。使用RNAseq来确定Asn和Gln补充的转录变化,随后使用稳定同位素分解代谢组学(SIRM)使用[U- 13C,15N] Gln和Asn。结果:我们发现Asn能提高两种细胞系的体外生长速度。Gln增加了两种细胞系的耗氧率和糖酵解储备,而Asn没有。虽然Asn被细胞摄取,但在细胞代谢物中几乎没有Asn衍生标签的证据,表明Asn没有被分解代谢。然而,在UOK262细胞中,Asn强烈刺激尿嘧啶及其前体、尿苷磷酸和己糖胺代谢物的Gln标记,而在UOK262WT细胞中,Asn的刺激程度要小得多,这表明Asn激活了己糖胺生物合成途径(HBP)。Asn与Gln联合,而不是Asn或Gln单独,在UOK262中刺激内质网(ER)应激和未折叠蛋白反应(UPR)相关基因的表达程度大于fh恢复细胞。通过RT-PCR证实了这些基因表达的变化,并通过在这些条件下UOK262细胞中剪接的XBP1 (sXBP1)的增加证实了UPR的刺激。Asn暴露也增加了HBP调节因子GFPT2的RNA和蛋白表达,GFPT2是sXBP1的转录靶点。结论:Gln存在下的Asn在fh缺乏的UOK262细胞中诱导内质网应激反应,刺激udp -乙酰聚糖的合成增加,表明HBP活性。这些数据证明了天冬酰胺对fh缺陷细胞代谢的新作用,可以用于治疗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fumarate hydratase-deficient renal cell carcinoma cells respond to asparagine by activation of the unfolded protein response and stimulation of the hexosamine biosynthetic pathway.

Background: The loss-of-function mutation of fumarate hydratase (FH) is a driver of hereditary leiomyomatosis and renal cell carcinoma (HLRCC). Fumarate accumulation results in activation of stress-related mechanisms leading to upregulation of cell survival-related genes. To better understand how cells compensate for the loss of FH in HLRCC, we determined the amino acid nutrient requirements of the FH-deficient UOK262 cell line (UOK262) and its FH-repleted control (UOK262WT).

Methods: We determined growth rates and survival of cell lines in response to amino acid depletion and supplementation. RNAseq was used to determine the transcription changes contingent on Asn and Gln supplementation, which was further followed with stable isotope resolved metabolomics (SIRM) using both [U- 13C,15N] Gln and Asn.

Results: We found that Asn increased the growth rate of both cell lines in vitro. Gln, but not Asn, increased oxygen consumption rates and glycolytic reserve of both cell lines. Although Asn was taken up by the cells, there was little evidence of Asn-derived label in cellular metabolites, indicating that Asn was not catabolized. However, Asn strongly stimulated Gln labeling of uracil and precursors, uridine phosphates and hexosamine metabolites in the UOK262 cells and to a much lesser extent in the UOK262WT cells, indicating an activation of the hexosamine biosynthetic pathway (HBP) by Asn. Asn in combination with Gln, but not Asn or Gln alone, stimulated expression of genes associated with the endoplasmic reticulum (ER) stress and the unfolded protein response (UPR) in UOK262 to a greater extent than in FH-restored cells. The changes in expression of these genes were confirmed by RT-PCR, and the stimulation of the UPR was confirmed orthogonally by demonstration of an increase in spliced XBP1 (sXBP1) in UOK262 cells under these conditions. Asn exposure also increased both the RNA and protein expression of the HBP regulator GFPT2, which is a transcriptional target of sXBP1.

Conclusions: Asn in the presence of Gln induces an ER stress response in FH-deficient UOK262 cells and stimulates increased synthesis of UDP-acetyl glycans indicative of HBP activity. These data demonstrate a novel effect of asparagine on cellular metabolism in FH-deficient cells that could be exploited therapeutically.

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来源期刊
自引率
1.70%
发文量
17
审稿时长
14 weeks
期刊介绍: Cancer & Metabolism welcomes studies on all aspects of the relationship between cancer and metabolism, including: -Molecular biology and genetics of cancer metabolism -Whole-body metabolism, including diabetes and obesity, in relation to cancer -Metabolomics in relation to cancer; -Metabolism-based imaging -Preclinical and clinical studies of metabolism-related cancer therapies.
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