The synthesis and structure-activity relationship of substituted N-phenyl anthranilic acid analogs as amyloid aggregation inhibitors.

It is believed that beta-amyloid aggregation is an important event in the development of Alzheimer's disease. In the course of our studies to identify beta-amyloid aggregation inhibitors, a series of N-phenyl anthranilic acid analogs were synthesized and studied for beta-amyloid inhibition activity. The synthesis, structure-activity relationship, and in vivo activity of these analogs are discussed.

Synthesis and Microbiological Evaluation of Novel Tetracyclic Fluoroquinolones.

Conformationally constrained tetracyclic fluoroquinolones (FQs) were synthesized and profiled for their microbiological spectrum. The installation of a seven-membered ring between the pyrrolidine substituents and the C8 position on the FQ core scaffold resulted in a remarkable enhancement of microbiological potency toward both Gram-positive and Gram-negative bacteria. Focused optimization of seven-membered ring composition, stereochemistry, and amine placement led to the discovery of the two lead compounds that were selected for further progression.

Generation of Broad-Spectrum Antifungal Drug Candidates from the Natural Product Compound Aureobasidin A.

The natural product aureobasidin A (AbA) is a potent, well-tolerated antifungal agent with robust efficacy in animals. Although native AbA is active against a number of fungi, it has little activity against Aspergillus fumigatus, an important human pathogen, and attempts to improve the activity against this organism by structural modifications have to date involved chemistries too complex for continued development. This report describes novel chemistry for the modification of AbA. The key step involves functionalization of the phenylalanine residues in the compound by iridium-catalyzed borylation. This is followed by displacement of the pinacol boron moiety to form the corresponding bromide or iodide and substitution by Suzuki biaryl coupling. The approach allows for synthesis of a truly wide range of derivatives and has produced compounds with A. fumigatus minimal inhibitory concentrations (MIC) of <0.5 µg/mL. The approach is readily adaptable to large-scale synthesis and industrial production.