Eleven A-ring modified hexacyclic analogues of camptothecin (CPT) containing a 1,4-oxazine ring were synthesized from 10-hydroxycamptothecin (11a) and 7-ethyl-10-hydroxycamptothecin (3) (SN-38) in four to five steps and were subjected to the biological tests such as cytotoxicity, topoisomerase I (Topo I) inhibitory activity, acetylcholinesterase (AChE) inhibition, and stability in human plasma. Four compounds 15a, 15b, 16a, and 16c were about 2-fold more potent than topotecan and as potent as CPT toward human cancer cell lines A549, H128, WiDr, MKN45, SK-OV-3, and SK-BR-3 in vitro, even though the most active compound 15b was slightly less potent than SN-38. The potency of Topo I inhibition of these compounds showed relatively good correlation with their cytotoxicity. Most of the compounds exhibited AChE inhibitory activity weaker (9 +/- 2 to 20 +/- 3%) than CPT (23 +/- 5%) or topotecan (20 +/- 4%) and similar to SN-38 (13 +/- 2%), indicating that they might have little effect on causing early diarrhea. The stability of lactone forms of these compounds in human plasma seemed to be much higher than that of CPT and similar to that of topotecan but lower than that of SN-38. Among the new hexacyclic CPT analogues, compound 15b showed higher antitumor activity against human tumor xenograft, WiDr, in nude mice compared to that of SN-38. The most promising compound 15b has been selected for further development.
The relationship between the structures of quinolones and their anti-Mycobacterium avium activities has been previously derived by using the Multiple Computer-Automated Structure Evaluation program. A number of substructural constraints required to overcome the resistance of most of the strains have been identified. Nineteen new quinolones which qualify under these substructural requirements were identified by the program and subsequently tested. The results show that the substructural attributes identified by the program produced a successful a priori prediction of the anti-M. avium activities of the new quinolones. All 19 quinolones were found to be active, and 4 of them are as active or better than ciprofloxacin. With these new quinolones, the updated multiple computer-automated structure evaluation program structure-activity relationship analysis has helped to uncover additional information about the nature of the substituents at the C5 and C7 positions needed for optimal inhibitory activity. A possible explanation of drug resistance based on the observation of suicide inactivation of bacterial cytochrome P-450 by the cyclopropylamine moiety has also been proposed and is discussed in this report. Furthermore, we confirm the view that the amount of the uncharged form present in a neutral pH solution plays a crucial role in the drug's penetration ability.Quinolones, more specifically, fluoroquinolones, have shown great potential in treating Mycobacterium avium-M intracellulare complex (MAI) infection, the most common bacterial infection complicating AIDS (6, 18). Although a large number of quinolone analogs have been made and their activities against some groups of bacteria, such as gram positive, gram negative, tuberculosis causing, etc., have been tested (36), only a limited number of quinolones have been tested for activity against MAI (25,42).To discover quinolones more potent against drug-resistant MAI organisms, we have previously tested 88 quinolones against a spectrum of M avium strains and identified relevant quantitative structure-activity relationships by Multiple Computer-Automated Structure Evaluation (MULTICASE) analysis (22, 23). From the activity spectrum of the 88 quinolones, we found variable and progressive resistance of the selected M avium strains. On the basis of susceptibility to quinolones, the strains used in our tests have been classified into a continuum between the most susceptible and the most resistant strains. In our previous analysis, we found that quinolones active against susceptible strains are not always active against resistant strains while those effective against resistant strains always exhibit good activities against susceptible strains. Furthermore, our previous studies have shown that as the susceptibility of the strains decreases, the identified substructures of quinolones required for the inhibitory activity become more restrictive. However, whether this progressive resistance is due to more selective penetration of the bacterial cell membrane or more restrictive bi...
A process has been developed for transforming the beta-carboxyl of aspartate and the gamma-carboxyl of glutamate into anisolyl ketones. These ketones are occasional byproducts in peptide synthesis, resulting from deprotection or resin-removal processes in the presence of anisole as a scavenger. The ketone amino acids have been incorporated in a tripeptide by coupling with CBMIT. During peptide bond formation the keto group of the glutamyl residue required protection, which was provided as the ethylene dithioketal.
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