Dual-Purpose Aptamer-Based Sensors for Real-Time, Multiplexable Monitoring of Metabolites in Cell Culture Media

适体 对偶(语法数字) 纳米技术 计算机科学 计算生物学 材料科学 化学 生物 分子生物学 艺术 文学类
作者
Yiling Yang,Xumei Gao,Bryce Widdicombe,Xiaodan Zhang,J. ZIELINSKI,Tianhong Cheng,Avanka Gunatilaka,Kaylyn K. Leung,Kevin W. Plaxco,Ranjith Rajasekharan Unnithan,Alastair G. Stewart
出处
期刊:ACS Nano [American Chemical Society]
卷期号:18 (38): 26127-26139 被引量:12
标识
DOI:10.1021/acsnano.4c06813
摘要

The availability of high-frequency, real-time measurements of the concentrations of specific metabolites in cell culture systems will enable a deeper understanding of cellular metabolism and facilitate the application of good laboratory practice standards in cell culture protocols. However, currently available approaches to this end either are constrained to single-time-point and single-parameter measurements or are limited in the range of detectable analytes. Electrochemical aptamer-based (EAB) biosensors have demonstrated utility in real-time monitoring of analytes in vivo in blood and tissues. Here, we characterize a pH-sensing capability of EAB sensors that is independent of the specific target analyte of the aptamer sequence. We applied this dual-purpose EAB to the continuous measurement of pH and phenylalanine in several in vitro cell culture settings. The miniature EAB sensor that we developed exhibits rapid response times, good stability, high repeatability, and biologically relevant sensitivity. We also developed and characterized a leak-free reference electrode that mitigates the potential cytotoxic effects of silver ions released from conventional reference electrodes. Using the resulting dual-purpose sensor, we performed hourly measurements of pH and phenylalanine concentrations in the medium superfusing cultured epithelial tumor cell lines (A549, MDA-MB-23) and a human fibroblast cell line (MRC-5) for periods of up to 72 h. Our scalable technology may be multiplexed for high-throughput monitoring of pH and multiple analytes in support of the broad metabolic qualification of microphysiological systems.
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