改良伏安法测定犬尿氨酸在国家覆盖玻碳电极上-在人类癌细胞递送样品中的应用。

IF 2.7 Q3 NEUROSCIENCES
International Journal of Tryptophan Research Pub Date : 2021-06-30 eCollection Date: 2021-01-01 DOI:10.1177/11786469211023468
Ilona Sadok, Katarzyna Tyszczuk-Rotko, Robert Mroczka, Jędrzej Kozak, Magdalena Staniszewska
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引用次数: 3

摘要

目前,为了满足快速、准确测定人体代谢物的需要,发展分析方法是非常必要的。本研究开发了一种采用Nafion涂层玻璃碳电极(Nafion/GCE)的电化学方法,利用差分脉冲吸附溶出伏安法可靠地测定犬尿氨酸(一种关键的色氨酸代谢物)。据我们所知,这是第一个分析方法,允许犬尿氨酸测定在国家涂层电极。该方法包括在+0.5 V电位下,在Nafion薄膜中预先浓缩0.1 M H2SO4中的犬尿氨酸,然后通过差分脉冲伏安法从电极上剥离。在最佳条件下,传感器可以检测到5 nM的犬尿氨酸(积累时间为60秒),但通过将积累时间延长到600秒,检测限可以轻松降低到0.6 nM。在积累时间为60秒和600秒时,传感器的灵敏度分别为36.25 μ μ m- 1cm-2和185.50 μAμM-1cm-2。该方法的最大优点是传感器制备简单,采用滴涂法,灵敏度高,总分析时间短,不需要样品制备。对该方法进行了线性、精密度、准确度(高效液相色谱法)、选择性(色氨酸代谢物和不同氨基酸)和回收率的验证。采用原子力显微镜(AFM)、光学轮廓法、飞行时间二次离子质谱法(TOF-SIMS)、电化学阻抗谱法(EIS)和循环伏安法(CV)等方法对Nafion/GCE进行了全面的微观和电化学表征。该方法已用于人卵巢癌细胞SK-OV-3培养基中犬尿氨酸浓度的测定和癌细胞提取物中IDO酶活性的测定,结果令人满意。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Improved Voltammetric Determination of Kynurenine at the Nafion Covered Glassy Carbon Electrode - Application in Samples Delivered from Human Cancer Cells.

Improved Voltammetric Determination of Kynurenine at the Nafion Covered Glassy Carbon Electrode - Application in Samples Delivered from Human Cancer Cells.

Improved Voltammetric Determination of Kynurenine at the Nafion Covered Glassy Carbon Electrode - Application in Samples Delivered from Human Cancer Cells.

Improved Voltammetric Determination of Kynurenine at the Nafion Covered Glassy Carbon Electrode - Application in Samples Delivered from Human Cancer Cells.

Nowadays, development of analytical methods responding to a need for rapid and accurate determination of human metabolites is highly desirable. Herein, an electrochemical method employing a Nafion-coated glassy carbon electrode (Nafion/GCE) has been developed for reliable determination of kynurenine (a key tryptophan metabolite) using a differential pulse adsorptive stripping voltammetry. To our knowledge, this is the first analytical method to allow for kynurenine determination at the Nafion-coated electrode. The methodology involves kynurenine pre-concentration in 0.1 M H2SO4 in the Nafion film at the potential of +0.5 V and subsequent stripping from the electrode by differential pulse voltammetry. Under optimal conditions, the sensor can detect 5 nM kynurenine (for the accumulation time of 60 seconds), but the limit of detection can be easily lowered to 0.6 nM by prolonging the accumulation time to 600 seconds. The sensor shows sensitivity of 36.25 μAμM-1cm-2 and 185.50 μAμM-1cm-2 for the accumulation time of 60 and 600 seconds, respectively. The great advantage of the proposed method is easy sensor preparation, employing drop coating method, high sensitivity, short total analysis time, and no need for sample preparation. The method was validated for linearity, precision, accuracy (using a high-performance liquid chromatography), selectivity (towards tryptophan metabolites and different amino acids), and recovery. The comprehensive microscopic and electrochemical characterization of the Nafion/GCE was also conducted with different methods including atomic force microscopy (AFM), optical profilometry, time-of-flight secondary ion mass spectrometry (TOF-SIMS), electrochemical impedance spectroscopy (EIS), and cyclic voltammetry (CV). The method has been applied with satisfactory results for determination of kynurenine concentration in a culture medium collected from the human ovarian carcinoma cells SK-OV-3 and to measure IDO enzyme activity in the cancer cell extracts.

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来源期刊
CiteScore
7.30
自引率
4.50%
发文量
19
审稿时长
8 weeks
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