1. Development of Novel Bioluminescent Sensor to Detect and Discriminate between Vitamin D Receptor Agonists and Antagonists in Living Cells
- Author
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Masashi Takano, Nozomi Saito, Atsushi Kittaka, Shinichi Ikushiro, Hiroki Mano, Toshiyuki Sakaki, Kaori Yasuda, and Miyu Nishikawa
- Subjects
Calcitriol ,Cellular differentiation ,Recombinant Fusion Proteins ,Biomedical Engineering ,Drug Evaluation, Preclinical ,Pharmaceutical Science ,Bioengineering ,Biosensing Techniques ,Ligands ,Calcitriol receptor ,Chlorocebus aethiops ,Vitamin D and neurology ,medicine ,Animals ,Luciferase ,Binding site ,Vitamin D ,Luciferases ,Pharmacology ,COS cells ,Binding Sites ,Dose-Response Relationship, Drug ,Chemistry ,Organic Chemistry ,Fusion protein ,Biochemistry ,COS Cells ,Luminescent Measurements ,Receptors, Calcitriol ,hormones, hormone substitutes, and hormone antagonists ,Biotechnology ,medicine.drug - Abstract
Active forms of vitamin D regulate the expression of multiple genes that play essential roles in calcium and phosphate homeostasis, cell differentiation, and the immune system via the vitamin D receptor (VDR). Many vitamin D analogs have been synthesized for clinical use in the treatment of type I rickets, osteoporosis, renal osteodystrophy, psoriasis, leukemia, and breast cancer. We have constructed two fusion proteins containing split-luciferase and the ligand binding domain (LBD) of the VDR designated as LucN-LBD-LucC and LucC-LBD-LucN. Remarkably, the LucC-LBD-LucN, which has the C-terminal domain of luciferase at the N-terminus of the fusion protein, was a significantly better biosensor than LucN-LBD-LucC. Addition of the VDR agonists to COS-7 cells expressing LucC-LBD-LucN dramatically reduced luciferase activity. In contrast, the VDR antagonist significantly increased the chimeric luciferase activity in a dose- and time-dependent manner. Our results on chimeric luciferases containing the LBDs of mutant VDRs derived from patients with vitamin D-dependent type II rickets indicated that our system could detect a conformational change of the LBD of the VDR likely based on a positional change of the helix 12, which occurs upon ligand binding. This novel system to detect and discriminate between VDR agonists and antagonists could be useful for the screening and identification of chemical compounds that bind to normal or mutant VDRs with high affinity.
- Published
- 2015