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用于缺氧细胞研究的开放式微流控平台的设计考量

Design considerations for open-well microfluidic platforms for hypoxic cell studies.

作者信息

Byrne Matthew B, Leslie Matthew T, Patel Heeral S, Gaskins H Rex, Kenis Paul J A

机构信息

Department of Chemical and Biomolecular Engineering, University of Illinois at Urbana-Champaign, Urbana, Illinois 61801, USA.

出版信息

Biomicrofluidics. 2017 Oct 27;11(5):054116. doi: 10.1063/1.4998579. eCollection 2017 Sep.

Abstract

Regions of hypoxia are common in solid tumors and are associated with enhanced malignancy, metastasis, and chemo/radio resistance. Real-time hypoxic cellular experimentation is challenging due to the constant need for oxygen control. Most microfluidic platforms developed thus far for hypoxic cell studies are burdened by complex design parameters and are difficult to use for uninitiated investigators. However, open-well microfluidic platforms enable short and long term hypoxic cell studies with an ease of use workflow. Specifically, open-well platforms enable manipulation and addition of cells, media, and reagents using a micropipette for hypoxic cell studies in tunable dissolved oxygen concentrations as low 0.3 mg/l. We analyzed design considerations for open-well microfluidic platforms such as media height, membrane thickness, and impermeable barriers to determine their effects on the amount of dissolved oxygen within the platform. The oxygen concentration was determined by experimental measurements and computational simulations. To examine cell behavior under controlled oxygen conditions, hypoxia-induced changes to hypoxia inducible factor activity and the mitochondrial redox environment were studied. A fluorescent reporter construct was used to monitor the stabilization of hypoxia inducible factors 1α and 2α throughout chronic hypoxia. Reporter construct fluorescence intensity inversely correlated with dissolved oxygen in the medium, as expected. Additionally, the glutathione redox poise of the mitochondrial matrix in living cancer cells was monitored throughout acute hypoxia with a genetically encoded redox probe and was observed to undergo a reductive response to hypoxia. Overall, these studies validate an easy to use open-well platform suitable for studying complex cell behaviors in hypoxia.

摘要

缺氧区域在实体瘤中很常见,并且与恶性程度增加、转移以及化疗/放疗耐药性相关。由于持续需要控制氧气,实时缺氧细胞实验具有挑战性。迄今为止开发的用于缺氧细胞研究的大多数微流控平台都受到复杂设计参数的困扰,对于没有经验的研究人员来说难以使用。然而,开放式微流控平台能够以易于使用的工作流程进行短期和长期缺氧细胞研究。具体而言,开放式平台能够使用微量移液器操纵和添加细胞、培养基和试剂,以便在低至0.3毫克/升的可调溶解氧浓度下进行缺氧细胞研究。我们分析了开放式微流控平台的设计考虑因素,如培养基高度、膜厚度和不透水屏障,以确定它们对平台内溶解氧量的影响。通过实验测量和计算模拟确定氧气浓度。为了研究在受控氧气条件下的细胞行为,研究了缺氧诱导的缺氧诱导因子活性变化和线粒体氧化还原环境。使用荧光报告构建体监测慢性缺氧过程中缺氧诱导因子1α和2α的稳定性。正如预期的那样,报告构建体荧光强度与培养基中的溶解氧呈负相关。此外,在急性缺氧过程中,使用基因编码的氧化还原探针监测活癌细胞线粒体基质的谷胱甘肽氧化还原状态,观察到其对缺氧有还原反应。总体而言,这些研究验证了一个易于使用的开放式平台,适用于研究缺氧条件下复杂的细胞行为。

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