Benzoate X receptor zinc-finger gene switches for drug-inducible regulation of transcription.

Targeted zinc-finger (ZF) DNA-binding domains in conjunction with nuclear receptor ligand-binding domains (LBDs) produce chemically inducible gene switches that have applications in gene therapy and proteomic and genomic research. The benzoate X receptor-β (BXRβ) LBD was used to construct homodimer and single-chain ZF transcription factors (ZF(TF)s). These ZF(TF)s specifically regulated the transcription of target genes in response to two ligands, ethyl-4-hydroxybenzoate and propyl-4-hydroxybenzoate, in a dose-dependent manner. The ZF(TF)s also regulated the expression of endogenous intercellular adhesion molecule-1 in response to either ligand. The advantage of BXRβ-based ZF(TF)s is that the ligands are inexpensive and easily synthetically modified, making the system a base for creation of orthogonal ligand-receptor pairs and expanding the gene-switch toolbox.