Synthesis and in vitro cytotoxicity studies of novel L-tryptophan-polyamide conjugates and L-tryptophan dimers linked with aliphatic chains and polyamides.

The synthesis and biological evaluation of novel L-tryptophan pyrrole, imidazole polyamide conjugates (16-21), L-tryptophan-glycosylated pyrrole polyamide conjugates (28-30), L-tryptophan dimers (37-42) with straight carbon links of varying length, and L-tryptophan dimers (68-73) linked with pyrrole and imidazole polyamide from both sides by a flexible methylene chain of variable length are described. The compounds were prepared with varying numbers of pyrrole- and/or imidazole-containing polyamides and glycosylated pyrrole polyamides to determine the structural requirements for optimal in vitro antitumor activity. The compounds listed in Table 1 have been evaluated in a three cell line, one dose primary anticancer assay. The compounds listed in Table 2 have been evaluated against nine panels of 60 human cancer cell lines including leukemia, non-small cell lung cancer, colon cancer, CNS cancer, melanoma, ovarian cancer, renal cancer, prostate cancer, and breast cancer. It is observed from the initial cytotoxic data (Table 1) that compounds 16-19, 28-30, 68-69, and 71-73 have varying cytotoxic potencies against the three cancer cell lines. It is also observed, from the biological data from Table 2 for compounds 20-21, 37-42, and 70 against the 60 different tumor cells, that the L-tryptophan dimers 37-42 linked by a different number of carbon chains are more active than the L-tryptophan dimers linked by pyrrole or imidazole polyamides. The cytotoxic potency in tryptophan dimers, linked by a different number of carbon atoms increased the number of carbons between the two L-tryptophan rings.