The hyphenation of high-performance thin-layer chromatography to effect-directed assays is a very straightforward way to detect individual bioactive zones, and at the same time, to investigate several samples simultaneously. The combination of the separation technique with adherent human cells applied on the same surface was recently shown to be possible. Since on-surface adherent cell assays are in their infancy, a planar bioluminescent cytotoxicity assay was developed to expand the possibilities. Human embryonic kidney (HEK) 293 or HeLa (cervical carcinoma) cells were chosen because of their fast growth rates and high rates of successful transfection, being suitable for the generation of genetically modified reporter cells. For the first time, HeLa cells were visualized on the wettable reversed phase plate surface using digital microscopy. For the generation of bioluminescent reporter cells, vectors for the expression of three luciferase enzymes of various origins were tested. The genetically modified HEK 293T-CMV-ELuc cells were the best suitable for the new planar cytotoxicity assay due to the faster growth rate, robustness, and stronger bioluminescence signal. The stable expression of luciferase under the control of a strong constitutive promoter allowed the cells to be used for the determination of the cytotoxicity of Saussurea costus root samples obtained from the market and to assess the authenticity of these samples. Any cytotoxic zone was detected as a dark zone inhibiting the cell bioluminescence. Five replicates of the dose-response curve confirmed the good assay performance and the cytotoxicity of a zone, which was assigned to costunolide and dehydrocostus lactone. By this, the proof-of-principle of the new planar bioluminescent cytotoxicity assay, which does not require expensive licensing, was successful.
Keywords: Botanical; Dose-response curve; HEK cell culture; HeLa cells; High-performance thin-layer chromatography−effect-directed assay.
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