吉西他滨化疗药物细菌降解的功能测定。

Serkan Sayin, Amir Mitchell
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引用次数: 0

摘要

宿主微生物组的药物生物转化可以影响治疗的成功。在癌症的背景下,肿瘤内细菌可以在靶向肿瘤的微环境中发生药物降解。在癌症中,对一线化疗吉西他滨的耐药性增加被认为是由肿瘤微生物组的药物降解引起的。这种细菌与药物的相互作用突出了开发用于监测细菌吉西他滨分解的快速测定法的必要性。虽然高效液相色谱等化学方法适用于这项任务,但它们需要专门的设备和专业知识,并且产量有限。基于功能细胞的测定代表了执行该任务的替代方法。我们开发了一种功能测定法,使用一种高度敏感的细菌报告菌株来监测细菌吉西他滨的分解率。我们的方法依赖于标准的实验室设备,可以高通量实施,同时监测数百种菌株的药物分解。这种功能测定可以很容易地适用于监测其他药物的降解。关键特征通过培养降解药物的细菌并随后测试报告菌株在过滤上清液上的生长来定量吉西他滨的分解。使用经基因工程改造为非降解菌株并对吉西他滨高度敏感的优化报告菌株。在微孔板中进行的高通量测定,可以调整以鉴定吉西他滨降解速率快或慢的细菌。可以将测定结果与具有已知药物浓度的标准曲线的结果进行比较,以量化降解率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Functional Assay for Measuring Bacterial Degradation of Gemcitabine Chemotherapy.

Functional Assay for Measuring Bacterial Degradation of Gemcitabine Chemotherapy.

Functional Assay for Measuring Bacterial Degradation of Gemcitabine Chemotherapy.

Functional Assay for Measuring Bacterial Degradation of Gemcitabine Chemotherapy.

Drug biotransformation by the host microbiome can impact the therapeutic success of treatment. In the context of cancer, drug degradation can take place within the microenvironment of the targeted tumor by intratumor bacteria. In pancreatic cancer, increased chemo-resistance against the frontline chemotherapy gemcitabine is thought to arise from drug degradation by the tumor microbiome. This bacterial-drug interaction highlights the need for developing rapid assays for monitoring bacterial gemcitabine breakdown. While chemical approaches such as high-performance liquid chromatography are suitable for this task, they require specialized equipment and expertise and are limited in throughput. Functional cell-based assays represent an alternate approach for performing this task. We developed a functional assay to monitor the rate of bacterial gemcitabine breakdown using a highly sensitive bacterial reporter strain. Our method relies on standard laboratory equipment and can be implemented at high throughput to monitor drug breakdown by hundreds of strains simultaneously. This functional assay can be readily adapted to monitor degradation of other drugs. Key features Quantification of gemcitabine breakdown by incubating bacteria that degrades the drug and subsequently testing the growth of a reporter strain on filtered supernatant. Use of an optimized reporter strain that was genetically engineered to be a non-degrader strain and highly sensitive to gemcitabine. A high-throughput assay performed in microplates that can be adjusted for identifying bacteria with a fast or slow gemcitabine degradation rate. The assay results can be compared to results from a standard curve with known drug concentrations to quantify degradation rate.

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