Development of hemiasterlin derivatives as potential anticancer agents that inhibit tubulin polymerization and synergize with a stilbene tubulin inhibitor.

Hemiasterlins are cytotoxic tripeptides with antimicrotubule activity originally isolated from marine sponges. We have developed new hemiasterlin derivatives BF65 and BF78 that are highly potent to induce cancer cell death in the low nanomolar range. Examination of their mechanisms of cell cycle arrest and disruption of microtubules revealed an unusual characteristic in addition to anti-tubulin effect. Immunofluorescence staining revealed that A549 lung carcinoma cells treated with BF65 or BF78 exhibited both monopolar and multipolar mitotic spindles. Centrosomes were separated with short spindle microtubules in cells with multipolar spindles. In vitro tubulin polymerization assay confirmed that both BF65 and BF78 were highly potent to inhibit tubulin polymerization. These two compounds induced the formation of monoastral spindles suggesting that they might be inhibitors of mitotic kinesins such as KSP/Eg5. However, kinetic measurement of microtubule activated kinesin ATPase activity demonstrated that unlike the positive control monastrol, neither BF65 nor BF78 suppressed KSP/Eg5 activity. Hence the effect may be a variant form of tubulin inhibition. Similar to vinca alkaloids, BF compounds synergized with a colchicine site microtubule inhibitor stilbene 5c both in vitro and in vivo, which may provide a potential drug combination in the future clinical application.

Synthesis and biological activity of a novel class nicotinic acetylcholine receptors (nAChRs) ligands structurally related to anatoxin-a.

The introduction of the isoxazole ring as bioisosteric replacement of the acetyl group of anatoxin-a led to a new series of derivatives binding to nicotinic acetylcholine receptors. Bulkier substitutions than methyl at the 3 position of isoxazole were shown to be detrimental for the activity. The binding potency of the most interesting compounds with α1, α7 and α3ß4 receptor subtypes, was, anyway, only at micromolar level. Moreover, differently from known derivatives with pyridine, isoxazole condensed to azabicyclo ring led to no activity.

Versatile synthesis of new cytotoxic agents structurally related to hemiasterlins.

A representative series of structural analogues of the antimitotic tripeptides hemiasterlins have been synthesized. The key-step of this synthetic strategy consists of an Ag(2)O-promoted nucleophilic substitution on a common precursor, a chiral non-racemic 2-bromoacyl derivative. Simple variation of nucleophile substituents allows a rapid and stereocontrolled development of new series of derivatives. Some reported compounds showed potent biological activity as growth inhibitors of cancer cell lines and tubulin polymerization inhibitors.