Reporter Gene Assays to Measure FOXO-Specific Transcriptional Activity.

The forkhead box O (FOXO) family of transcription factors translates environmental cues into precise gene expression patterns maintaining cellular equilibrium while influencing critical determinations of cell destiny and differentiation. FOXO proteins exert their effects through specific consensus binding to promoter sites within target genes. Notably, among the array of techniques available for assessing the transcriptional activity of FOXO factors, the utilization of luciferase-based reporters emerges as particularly distinctive. Luciferase, an enzyme sourced from bioluminescent organisms, instigates the oxidation of luciferin, culminating in the generation of oxyluciferin accompanied by discernible luminescence, a quantifiable event readily gauged using a luminometer. The adoption of luciferase activity as a measure in transcriptional assays is widespread due to its numerous advantages including simplicity, remarkable reproducibility, and high sensitivity. Moreover, the continuous advancements witnessed in luciferase-based vectors and measurement reagents bestow notable flexibility upon this methodology. Luciferase-based reporters offer a powerful tool for uncovering constituents within the signaling pathways governing FOXO factor function. Furthermore, these assays are also suitable for evaluating the efficacy of FOXO-targeting agents, whether they be inhibitors or activators. Here, we present a comprehensive, step-by-step elucidation of a commonly employed assay, adeptly quantifying the potential of small molecular compounds to amplify FOXO-specific transcriptional activity in U2OS cells.