Optimization of fluorescent cell-based assays for high-throughput analysis using microchamber array chip formats

Abstract

This study describes the optimization of fluorescent cell-based assays using microchamber array chip formats as well as using automatic nanoliter volumes of sample dispensing system for high-throughput screening analysis of anticancer drugs. Cell-based assays can be employed efficiently in the screening of potential anticancer drug candidates and bioactive compounds with distinct biological function. Identification and development of cell-based assays adapted to high-throughput screening requirements is important when screening chemicals for their potential anticancer properties. Cell-based screening assays using microchamber array chip formats and automatic nanoliter volumes of sample dispensing system requires an optimization as a prerequisite for parameters including assay liquid volume and number of cells per each chamber, and the total cell-based assay itself. Further, the anticancer effect of mitomycin C was studied as an example against human cervical carcinoma cell line-HeLa 229 using cell-based assay that was optimized on chamber array chip formats and determined the cytotoxicity of mitomycin C by measuring the cell proliferation of HeLa with Calcein-AM fluorescent dye. The cell-based screening assay that was performed using chamber array chip formats was compared with the conventional 96-well plate formats was discussed. The assay described in this study is rapid, simple and inexpensive that is desirable in selecting anticancer candidates.