Copper isotope ratios in serum do not track cancerous tumor evolution, but organ failure.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Metallomics Pub Date : 2023-11-02 DOI:10.1093/mtomcs/mfad060
Emily Miaou, François L H Tissot
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Abstract

Relative to healthy controls, lighter copper isotopic compositions have been observed in the serum of breast cancer and end-stage liver disease patients, raising the possibility that Cu isotope ratios could be used as a tracer for disease progression. Here, we assess the potential of natural Cu isotopic variations (expressed as δ65Cu) as diagnostic tools for cancer progression and/or liver failure by performing a first-order analysis of Cu isotopic cycling in the human body. Using a box model, we simulate the kinetics of Cu mass transfer throughout significant reservoirs in the body, allowing isotopic fractionation to occur during Cu uptake/release from these reservoirs. With this model, we determine under which conditions the serum δ65Cu values would reflect perturbation related to cancer growth and/or liver failure at a level resolvable with modern mass spectrometry. We find that tumor growth alone is unable to explain the light isotopic signature observed in serum. Instead, we find that metabolic changes to the liver function resulting in a ∼1‰ isotope fractionation during Cu uptake from the blood into the liver can readily explain the long-term serum isotopic shift of ∼0.2‰ observed in cancer patients. A similar fractionation (∼1.3‰) during Cu uptake into the liver also readily explains the -1.2‰ shift observed in the serum of cirrhosis patients with ascites, suggesting a potentially common driver of isotopic fractionation in both cases. Using this model, we then test hypotheses put forward by previous studies and begin to probe the mechanisms behind the measured isotopic compositions.

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血清中的铜同位素比率不能追踪癌性肿瘤的演变,但可以追踪器官衰竭。
相对于健康对照,在乳腺癌症和终末期肝病患者的血清中观察到较轻的铜同位素组成,这增加了铜同位素比率可用作疾病进展示踪剂的可能性。在此,我们通过对人体中的Cu同位素循环进行一级分析,评估了天然Cu同位素变化(表示为δ65Cu)作为癌症进展和/或肝衰竭诊断工具的潜力。使用盒子模型,我们模拟了铜在体内重要储层中的传质动力学,使同位素分馏在从这些储层吸收/释放铜的过程中发生。利用该模型,我们确定在何种条件下,血清δ65Cu值将反映与癌症生长和/或肝功能衰竭相关的扰动,其水平可通过现代质谱法解决。我们发现单独的肿瘤生长不能解释在血清中观察到的光同位素特征。相反,我们发现,在从血液摄入铜到肝脏的过程中,肝脏功能的代谢变化导致约1‰的同位素分馏,这很容易解释在癌症患者中观察到的约0.2‰的长期血清同位素变化。在肝脏摄入铜的过程中,类似的分馏(~1.3‰)也很容易解释在肝硬化腹水患者血清中观察到的-1.2‰的变化,这表明在这两种情况下同位素分馏的潜在共同驱动因素。使用这个模型,我们检验了先前研究提出的假设,并开始探索测得的同位素组成背后的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Metallomics
Metallomics 生物-生化与分子生物学
CiteScore
7.00
自引率
5.90%
发文量
87
审稿时长
1 months
期刊介绍: Global approaches to metals in the biosciences
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