Synthesis and in vitro antiprotozoal activities of dicationic 3,5-diphenylisoxazoles.

3,5-bis(4-amidinophenyl)isoxazole (3)-an analogue of 2,5-bis(4-amidinophenyl)furan (furamidine) in which the central furan ring is replaced by isoxazole-and 42 novel analogues were prepared by two general synthetic pathways. The 43 isoxazole derivatives were assayed against Trypanosoma brucei rhodesiense (T. brucei rhodesiense) STIB900, Plasmodium falciparum (P. falciparum) K1, and rat myoblast L6 cells (for cytotoxicity) in vitro. Eleven compounds (3, 13, 16-18, 22, 26, 29, 31, 37, and 41) exhibited antitrypanosomal IC50 values less than 10 nM, five of which displayed cytotoxic indices (ratios of cytotoxic IC50 to antiprotozoal IC50 values) at least 10 times higher than that of furamidine. Eighteen compounds (4-8, 12, 14, 18-22, 25, 26, 28, 29, 32, and 43) were more active against P. falciparum than furamidine, with IC50 values less than 15 nM. Fourteen of these compounds had cytotoxic indices ranging between 10 and 120 times higher than that of furamidine, and five analogues exhibited high selectivity for P. falciparum over T. brucei rhodesiense.

Action spectra for UV-light induced RNA-RNA crosslinking in 16S ribosomal RNA in the ribosome.

UV irradiation induces intramolecular crosslinks in ribosomal RNA in the ribosome. These crosslinks occur between nucleotides distant in primary sequence and they are specific, limited in number and have crosslinking efficiencies sufficient to allow their use in monitoring conformational changes. In this work, the frequency of crosslinking for eight 16S rRNA crosslinks was determined as a function of wavelength of irradiation. For six of the crosslinks, the action spectra correspond to the absorption spectra of at least one of the participating nucleotides. For a crosslink between nucleotides C967 and C1400 the maximum frequency of crosslinking occurs at wavelengths blue-shifted from the absorbance maximum of cytidine and for a crosslink between C1402 and C1501 the maximum frequency of crosslinking is red-shifted. Photoreversal of the crosslinks was also studied by deproteinizing crosslinked RNA under mild conditions and then re-irradiating it with specific wavelengths under conditions in which the crosslinks were reversed but not formed. The different crosslinks exhibit significantly different extents of photoreversal versus wavelength profiles. The differences in the crosslinking action spectra can be accounted for in the absorbance spectra of the nucleotides that are involved in the crosslink as well as by the photoreversal action spectra.