Litcius/Paper detail

Inertial-Force-Assisted, High-Throughput, Droplet-Free, Single-Cell Sampling Coupled with ICP-MS for Real-Time Cell Analysis

Xuan Zhang, Xing Wei, Xue Men, Ze Jiang, Wenqi Ye, Mingli Chen, Ting Yang, Zhang‐Run Xu, Jianhua Wang

2020Analytical Chemistry58 citationsDOI

Abstract

Single-cell analysis facilitates perception into the most essential processes in life’s mysteries. While it is highly challenging to quantify them at the single-cell level, where precise single-cell sampling is the prerequisite. Herein, a real-time single-cell quantitative platform was established for high-throughput droplet-free single-cell sampling into time-resolved (TRA) ICP-MS and real-time quantification of intracellular target elements. The concentrated cells (2 × 106 cells mL–1) were spontaneously and orderly aligned in a spiral microchannel with 104 periodic dimensional confined micropillars. The quantification is conducted simultaneously by internal standard inducing from another branch channel in the chip. The flow-rate-independent feature of single-cell focusing into an aligned stream within a wide range of fluidic velocities (100–800 μL min–1) facilitates high-throughput, oil-free, single-cell introduction into TRA-ICP-MS. The system was used for real-time exploration of intracellular antagonism of Cu2+ against Cd2+. an obvious antagonistic effect was observed for the MCF-7 cell by culturing for 3, 6, 9, and 12 h with 100 μg L–1 Cd2+ and 100 μg L–1 Cu2+, and a rivalry rate of 12.8% was achieved at 12 h. At identical experimental conditions, however, limited antagonistic effect was encountered for a bEnd3 cell within the same incubation time period, with a rivalry rate of 4.81%. On the contrary, an antagonistic effect was not observed for the HepG2 cell by culturing for 6 h, while an obvious antagonistic effect was found by further culturing to 12 h, with a rivalry rate of 10.43%. For all three cell lines, significant heterogeneity was observed among individual cells.

Topics & Concepts

ChemistrySingle-cell analysisMicrofluidicsCellMicrochannelThroughputIntracellularNanotechnologyBiophysicsAnalytical Chemistry (journal)Biological systemChromatographyBiochemistryComputer scienceMaterials scienceBiologyTelecommunicationsWirelessMicrofluidic and Bio-sensing TechnologiesSingle-cell and spatial transcriptomicsMicrofluidic and Capillary Electrophoresis Applications