Background/aim: miRNA functional analysis involves transfection with miRNA-based oligos to identify gain-of or loss-of function cellular phenotypes. Apoptosis is a common phenotypic endpoint for miRNA functional analysis. We report that four common cell dissociation enzymes, TrypLE, Accutase, Trypsin, and Accumax, can differentially impact cell viability and apoptosis in Annexin V flow cytometric analysis after miRNA-based transient transfection.
Materials and methods: We transiently transfected a nonsense oligo into an epithelial cancer cell line (UM-SCC-12) for 24 h. Cells were harvested with either TrypLE, Accutase, Accumax, or Trypsin after 5 min. The Annexin V/7-AAD assay via flow cytometry was employed. Studies were performed in triplicate. Significant effects were detected by ANOVA, followed by Tukey's Multiple Comparison tests.
Results: Trypsin produced the lowest cell viability and lowest percentage of apoptotic cells, specifically when compared to TrypLE and Accutase, respectively (p<0.01). Importantly, transfected trypsinized cells had a significant difference in cell viability and necrosis (p<0.05) when compared with non-transfected trypsinized cells, highlighting the influence of miRNA-based transfection on Annexin V flow cytometric outcomes. Interassay variability was lowest with TrypLE (1.13 %). As such, TrypLE provided the greatest reproducibility and reliability in our cell line.
Conclusion: Our study highlights the variable effects of cell dissociation enzymes on transfected cells. Overall, the variability may lead to errors in detection of apoptotic cells using the Annexin V assay after miRNA-based transfection. Before assay use, we recommend pretesting cell dissociation enzymes on transfected cells to ensure reliable and reproducible results.
Keywords: Annexin V; dissociative enzymes; flow cytometry; miRNA; transient transfection; trypsin.
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