Abstract
Cryptophycins are naturally occurring cytotoxins with great potential for chemotherapy. Since targeted therapy provides new perspectives for treatment of cancer, new potent analogues of cytotoxic agents containing functional groups for conjugation to homing devices are required. We describe the design, synthesis and biological evaluation of three new unit B cryptophycin analogues. The O-methyl group of the unit B D-tyrosine analogue was replaced by an O-(allyloxyethyl) moiety, an O-(hydroxyethyl) group, or an O-(((azidoethoxy)ethoxy)ethoyxethyl) substituent. While the former two maintain cytotoxicity in the subnanomolar range, the attachment of the triethylene glycol spacer with a terminal azide results in a complete loss of activity. Docking studies of the novel cryptophycin analogues to β-tubulin provided a rationale for the observed cytotoxicities.
Highlights
Cryptophycins are natural occurring cyclic depsipeptides that were first isolated from cyanobacteria Nostoc sp
Synthesis and biological evaluation of three new unit B cryptophycin analogues
Previous docking studies have postulated that the methyl group of unit B is not involved in the cryptophycin–tubulin interaction [52]
Summary
Cryptophycins are natural occurring cyclic depsipeptides that were first isolated from cyanobacteria Nostoc sp. Since targeted therapy provides new perspectives for treatment of cancer, new potent analogues of cytotoxic agents containing functional groups for conjugation to homing devices are required. Synthesis and biological evaluation of three new unit B cryptophycin analogues. Docking studies of the novel cryptophycin analogues to β-tubulin provided a rationale for the observed cytotoxicities.
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