Synthesis of Fluorescent Jasplakinolide Analogues for Live-Cell STEDa Microscopy of Actin

The nanometer thickness of filaments and the dynamic behavior of actin-a protein playing a crucial role in cellular function and motility-make it attractive for observation with super-resolution optical microscopy. We developed the solution-phase synthesis of des-bromo-des-methyl-jasplakinolidelysine, used as the recognition unit (ligand) for F-actin in living cells. The first amino acid-Fmoc-O-TIPS-beta-tyrosine-was prepared in 78% yield (two steps in one pot). The new solution-phase synthesis involves 2-phenylisopropyl protection of the carboxyl group and does not require excesses of commercially unavailable amino acids. The overall yield of the target intermediate obtained in nine steps is about 8%. The 2-phenylisopropyl group can be cleaved from carboxyl with 2-3% (v/v) of TFA in acetonitrile (0-10 degrees C), without affecting TIPS protection of the phenolic hydroxyl in beta-tyrosine and N-Boc protection in lysine. Des-bromo-des-methyl-jasplakinolide-lysine was coupled with red-emitting fluorescent dyes 580CP and 610CP (via 6-aminohexanoate linker). Actin in living cells was labeled with 580CP and 610CP probes, and the optical resolution measured as full width at half-maximum of line profiles across actin fibers was found to be 300-400 nm and 100 nm under confocal and STED conditions, respectively. The solution-phase synthesis of des-bromo-des-methyl-jasplakinolide-lysine opens a way to better fluorescent probe perspective for actin imaging.