Characterization of sequences in human TWIST required for nuclear localization

BACKGROUND: Twist is a transcription factor that plays an important role in proliferation and tumorigenesis. Twist is a nuclear protein that regulates a variety of cellular functions controlled by protein-protein interactions and gene transcription events. The focus of this study was to characterize putative nuclear localization signals (NLSs) (37)RKRR(40 )and (73)KRGKK(77 )in the human TWIST (H-TWIST) protein. RESULTS: Using site-specific mutagenesis and immunofluorescences, we observed that altered TWIST(NLS1 )K38R, TWIST(NLS2 )K73R and K77R constructs inhibit nuclear accumulation of H-TWIST in mammalian cells, while TWIST(NLS2 )K76R expression was un-affected and retained to the nucleus. Subsequently, co-transfection of TWIST mutants K38R, K73R and K77R with E12 formed heterodimers and restored nuclear localization despite the NLSs mutations. Using a yeast-two-hybrid assay, we identified a novel TWIST-interacting candidate TCF-4, a basic helix-loop-helix transcription factor. The interaction of TWIST with TCF-4 confirmed using NLS rescue assays, where nuclear expression of mutant TWIST(NLS1 )with co-transfixed TCF-4 was observed. The interaction of TWIST with TCF-4 was also seen using standard immunoprecipitation assays. CONCLUSION: Our study demonstrates the presence of two putative NLS motifs in H-TWIST and suggests that these NLS sequences are functional. Furthermore, we identified and confirmed the interaction of TWIST with a novel protein candidate TCF-4.