使用微流控和延时显微镜在单细胞水平上检测异烟肼对耻垢分枝杆菌 NADH 焦磷酸酶突变体的杀伤作用。

Isoniazid Killing of Mycobacterium smegmatis NADH Pyrophosphatase Mutant at Single-Cell Level using Microfluidics and Time-Lapse Microscopy.

机构信息

School of Life Sciences, École polytechnique fédérale de Lausanne (EFPL), 1015, Lausanne, Switzerland.

Sabanci University, Orta Mah. No: 27, Tuzla, Istanbul, 34956, Turkey.

出版信息

Sci Rep. 2017 Sep 7;7(1):10770. doi: 10.1038/s41598-017-11503-7.

DOI:10.1038/s41598-017-11503-7

PMID:28883607

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5589797/

Abstract

We introduce single-cell analysis for isoniazid-treated Mycobacterium smegmatis mutant, msm1946-NADH pyrophosphatase, using microfluidics and automated time-lapse microscopy. Mycobacterial NADH pyrophosphatase isoforms play an important role for the mechanism of isoniazid and ethionamide activation. Our single-cell analysis revealed important insights on isoniazid killing mechanism that was masked by traditional killing assays, raised significant questions related to viable but non-culturable subpopulation of cells, and existing methods that defines minimum inhibitory concentration of drugs. The major goal of this study was quantitatively analyze bacterial cell parameters to obtain high-resolution data for the time evolution of antibiotic killing at the single-cell level. The presented tools and methods could be applied to the closely related organisms to provide more detailed information for the design and employment of antibiotic treatments.

摘要

我们使用微流控和自动化延时显微镜技术，对异烟肼处理的耻垢分枝杆菌突变株 msm1946-NADH 焦磷酸酶进行单细胞分析。分枝杆菌 NADH 焦磷酸酶同工酶在异烟肼和乙硫异烟胺的作用机制中发挥着重要作用。我们的单细胞分析揭示了异烟肼杀伤机制的重要见解，这些见解被传统的杀伤测定所掩盖，提出了与细胞存活但非可培养亚群以及定义药物最小抑菌浓度的现有方法相关的重要问题。本研究的主要目标是定量分析细菌细胞参数，以获得在单细胞水平上对抗生素杀伤的时间演变的高分辨率数据。所提出的工具和方法可应用于密切相关的生物体，为抗生素治疗的设计和应用提供更详细的信息。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a2d0/5589797/8cb80927e03a/41598_2017_11503_Fig1_HTML.jpg

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使用微流控和延时显微镜在单细胞水平上检测异烟肼对耻垢分枝杆菌 NADH 焦磷酸酶突变体的杀伤作用。

Isoniazid Killing of Mycobacterium smegmatis NADH Pyrophosphatase Mutant at Single-Cell Level using Microfluidics and Time-Lapse Microscopy.

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