Twenty-four metabolites derived from marine sponges were evaluated for their cytotoxicities against two human tumor cell lines, non-small cell lung carcinoma A549 and colon adenocarcinoma HT-29, and against one murine leukemia cell line, P-388, and evaluated for their ability to effect signal transduction in a newly developed cell adhesion assay using an EL-4 cell line. The compounds included latrunculin A [1], batzelline A [2], chondrillin [3], aureol [4], epihippuristanol, theonellamine B, discorhabdins A and C, kabiramide C, dercitin, meridine, manzamines A, B, and C, 8,15-diisocyano-11(20)-amphilectene and the corresponding C-15 formamide, a 20-carbon acetylenic alcohol, 4,5-dihydro-6"-deoxybromotopsentin, epispongiadiol, isospongiadiol, puupehenone, reiswigin A, and demethyl- and demethyloxyaaptamine. Latrunculin A [1], batzelline A [2], chondrillin [3], and aureol [4] expressed the desired profile of a greater than five-fold level of cytotoxicity against A549 relative to P-388, and an effect in the cell adhesion assay. In this group of compounds, cytotoxicity toward A549 was equal to or more pronounced than against HT-29. Latrunculin A was evaluated in an sc-implanted human A549 lung tumor xenograft mouse model and yielded a T/C of 146%. Batzelline A was evaluated in the cancer cell line panel at the National Cancer Institute and found to express selective cytotoxicity against several melanoma cancer cell lines.
chromosomal transformation. Competence decreased in cells in the stationary phase of growth or in cells deprived of a nitrogen source. Dark incubation of cells before exposure to donor DNA also decreased competence. Homologous Rif and Strr DNA and heterologous Escherichia coli W3110 DNA were used in DNA-DNA competition studies, which clearly showed that DNA binding by PR-6 was nonspecific. DNA binding and uptake by PR-6 exhibited single-hit kinetics. Single-stranded DNA failed to transform competent cells of PR-6, and DNA eclipse was not observed, suggesting that double-stranded DNA was the substrate for the binding and uptake reactions during the transformation of PR-6. A significant improvement in transformation frequency was achieved by increasing the nitrate content of the culture medium and by lowering the temperature at which cells were exposed to donor DNA from 39°C (the optimal temperature for growth) to 30T.
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