Acid mediated formation of an N-acyliminium ion from tubulysins: a new methodology for the synthesis of natural tubulysins and their analogs
- Bioorg Med Chem Lett. 2011 Nov 15;21(22):6778-81. doi: 10.1016/j.bmcl.2011.09.041.
- 1. Endocyte, Inc., 3000 Kent Ave., W. Lafayette, IN 47906, USA. [email protected]
Tubuylsins are extremely potent cytotoxic agents which inhibit tubulin polymerization and lead to cell cycle arrest and Apoptosis. Tubulysins have been isolated from fermentation mixtures and have been chemically synthesized; however, these efforts have been hampered by poor yields and arduous purifications. In contrast, treatment of a mixture of natural tubulysins A, B, C, G, and I, obtained from a fermentation batch with trifluoroacetic acid results in the formation of a single N-acyliminium ion. Subsequent addition of butyric, isopentyl, or acetic acid results in the formation of tubulysin B, A, or I, respectively, as a single species. New tubulysin analogs can be formed upon treatment of the acyliminium ion with Other nucleophiles such as alcohols, thiols, and nitriles, resulting in corresponding N-acyl-N,O-acetals, N-acyl-N,S-thioacetals, and N,N'-diacyl-aminals. Carbon-carbon bond formation is also possible with a modification of this protocol. The cytotoxicies of the natural tubulysins and tubulysin analogs synthesized by this method were evaluated on KB cells.