Arsenic-induced disruption of circadian rhythms and glutamine anaplerosis in human urothelial carcinoma

IF 3.6 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Shu-Jyuan Chang , Wan-Tzu Chen , Chee-Yin Chai
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引用次数: 0

Abstract

Inorganic arsenic (iAs)-induced urothelial carcinoma (UC) develops into a poor-prognosis malignancy. Arsenic-induced oxidative stress contributes to circadian rhythm disruption altered metabolism. Glutamine anaplerosis is a common metabolic feature of rapidly proliferating malignant cells, in which glutaminase (GLS) is a key enzyme in this process. Therefore, this study intends to determine if arsenic-induced oxidative stress can alter circadian rhythms and promote glutamine anaplerosis. Exonic expression of core circadian molecules (CLOCK, ARNTL, and NR1D1) and GLS in varying grades of UC were assessed using 423 bladder cancer samples from the TCGA Urothelial Bladder Cancer (BLCA) dataset. The levels of circadian proteins and metabolic markers in 44 UC patients from non-black foot disease (BFD) and BFD areas were detected by immunohistochemistry. In vitro and in vivo experiments elucidated the regulatory mechanisms of arsenic-mediated circadian disturbance and metabolic alteration. Public database analysis showed that ARNTL, NR1D1, and GLS exhibited greater expression in more high-grade UC. Strong immunoreactivity for BMAL1, GLS, and low levels of NR1D1 were found in malignant urothelial lesions, especially in arsenic-exposed UC. Arsenic-induced overexpression of BMAL1 and GLS involves activation of NADH: quinone oxidoreductase 1 (NQO1), continuously altering the NADH oscillations to promote glutamate metabolism in SV-HUC-1, T24 and BFTC-905 cells. These phenomenon were also demonstrated in the urothelium of arsenic-exposed animals. The present findings highlight the potential clinical significance of BMAL1 and GLS in UC in the BFD region. Furthermore, these results suggest that arsenic interferes with circadian rhythm and glutamine anaplerosis by NADH oscillatory imbalance in urothelial cells and urothelial cancer cells, predisposing them to malignant development.

砷诱导的人类泌尿系统癌昼夜节律紊乱和谷氨酰胺合成异常
无机砷(iAs)诱发的尿路上皮癌(UC)是一种预后不良的恶性肿瘤。砷诱导的氧化应激导致昼夜节律紊乱和新陈代谢改变。谷氨酰胺缺失是快速增殖的恶性细胞的常见代谢特征,而谷氨酰胺酶(GLS)是这一过程中的关键酶。因此,本研究意在确定砷诱导的氧化应激是否会改变昼夜节律并促进谷氨酰胺异生。利用 TCGA 尿道膀胱癌(BLCA)数据集中的 423 份膀胱癌样本,评估了不同等级 UC 中核心昼夜节律分子(CLOCK、ARNTL 和 NR1D1)和 GLS 的外显子表达。免疫组化法检测了44名非黑足病(BFD)和黑足病地区膀胱癌患者体内昼夜节律蛋白和代谢标记物的水平。体外和体内实验阐明了砷介导的昼夜节律紊乱和代谢改变的调控机制。公共数据库分析表明,ARNTL、NR1D1和GLS在更高级别UC中有更高的表达。在恶性尿路上皮病变中,尤其是在砷暴露的尿路上皮病变中,发现了 BMAL1、GLS 的强免疫反应性和低水平的 NR1D1。砷诱导的 BMAL1 和 GLS 过表达涉及激活 NADH:醌氧化还原酶 1(NQO1),从而不断改变 NADH 振荡,促进 SV-HUC-1、T24 和 BFTC-905 细胞中的谷氨酸代谢。这些现象在砷暴露动物的尿路神经细胞中也得到了证实。本研究结果凸显了 BMAL1 和 GLS 在 BFD 地区 UC 中的潜在临床意义。此外,这些结果表明,砷通过 NADH 振荡失衡干扰了尿路上皮细胞和尿路上皮癌细胞的昼夜节律和谷氨酰胺合成,使其易发生恶性发展。
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来源期刊
CiteScore
6.60
自引率
2.90%
发文量
202
审稿时长
85 days
期刊介绍: The journal provides the reader with a thorough description of theoretical and applied aspects of trace elements in medicine and biology and is devoted to the advancement of scientific knowledge about trace elements and trace element species. Trace elements play essential roles in the maintenance of physiological processes. During the last decades there has been a great deal of scientific investigation about the function and binding of trace elements. The Journal of Trace Elements in Medicine and Biology focuses on the description and dissemination of scientific results concerning the role of trace elements with respect to their mode of action in health and disease and nutritional importance. Progress in the knowledge of the biological role of trace elements depends, however, on advances in trace elements chemistry. Thus the Journal of Trace Elements in Medicine and Biology will include only those papers that base their results on proven analytical methods. Also, we only publish those articles in which the quality assurance regarding the execution of experiments and achievement of results is guaranteed.
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