John S. Kiely

A spectrophotometric microtiter-based assay for the detection of hydroperoxy derivatives of linoleic acid.

An assay for the detection of hydroperoxy derivatives of linoleic acid formed by the action of 15-lipoxygenase is described. The assay developed is based on a method first reported by Ohishi et al. (1985) Biochem. Int. 10, 205-211) with some important modifications. The assay described herein takes advantage of the ability of (9Z,11E)-13-hydroperoxyoctadecadienoic acid (13-HPODE), the product of the action of 15-lipoxygenase on linoleic acid, to oxidize N-benzoyl leucomethylene blue to methylene blue in the presence of hemoglobin. The resultant blue color is stable to light and air and can be quantified spectrophometrically at 660 nm. The linear range of the assay is 1.6-32 nmol (0.5-10 micrograms) of 13-HPODE. The utility of the assay can be extended to detect other peroxides as well as inhibitors of 15-lipoxygenase. The assay is a rapid, reliable method for the detection of lipid hydroperoxide production.

Mechanistic studies of the phototoxic potential of PD 117596, a quinolone antibacterial compound

PD 117596 is a novel quinolone compound that is being investigated for use as an antibacterial agent. Early investigations demonstrated a significant phototoxic liability associated with this compound. These studies were undertaken to investigate the mechanism of phototoxicity using an in vitro model. In the UVA region, PD 117596 was found to be a more efficient producer of singlet oxygen than rose bengal, ciprofloxacin, nalidixic acid, or PD 118879, another quinolone under investigation. The quantum yield of photoreaction for PD 117596 was relatively low (phi = 0.021); however, it was approximately 10-fold higher than other tested quinolones. In vitro studies using a mouse erythrocyte model were used to further investigate the mechanism of phototoxicity. PD 117596-induced photohemolysis was found to be oxygen dependent with a relatively rapid onset that progressed even after removal of light. Preirradiation of the compound prevented subsequent hemolytic or photohemolytic action. BHA, BHT, alpha-tocopherol, and the iron chelator DTPA were all found to be effective at ameliorating the photohemolytic response. The photohemolytic response was markedly enhanced when D2O was substituted for H2O in the incubation medium, indicating a singlet oxygen-mediated mechanism of action. A rise in thiobarbituric acid products was noted within 1 hr of irradiation and was maximal at the time of onset of overt photohemolysis. These data suggest that singlet oxygen production by irradiated PD 117596 is responsible for secondary changes in mouse red blood cells including lipid peroxidation and ultimately results in cellular lysis.

Palladium-catalyzed intermolecular vinylic arylation of cycloalkenes. Applications to the synthesis of quinolone antibacterials

Abstract Cyclic β-tributylstannyl-α,β-unsaturated ketones, alcohols, and amines have been prepared by a highly efficient process. These reagents undergo palladium-catalyzed, intermolecular vinylic cross-coupling with 7-quinolyltriflates and 7-chloro-1,8-naphthyridines under very mild conditions.

A silica gel plate-based qualitative assay for acetylcholinesterase activity : a mass method to screen for potential inhibitors

A procedure for the qualitative assessment of inhibitory activity towards acetylcholinesterase for a given compound is described. Solutions of the compounds of interest are spotted on silica gel TLC plates in a matrix pattern. The silica gel plate is sprayed with a solution of acetylthiocholine iodide and 5,5-dithiobis(2-nitrobenzoic acid) followed by a solution of acetylcholinesterase. The enzyme reaction produces a yellow background color with inhibitor compounds exposed as white zones where color has failed to develop. The results for a test set of compounds were compared to those obtained using the standard Ellman assay procedure and found to agree for virtually all of these compounds. The conditions of silica gel plate thickness, reagent concentration, and enzyme source under which this procedure is suitable were investigated. This represents an extremely rapid method to screen large numbers of compounds to uncover new inhibitors of acetylcholinesterase and potentially other enzymes as well.

POLYMER-SUPPORTED PREPARATION OF SUBSTITUTED PHENOLS : A NEW EXAMPLE OF SIMULTANEOUS CYCLIZATION-CLEAVAGE REACTION ON SOLID PHASE

Abstract A series of variously substituted phenols was synthesized in high yields using the “cyclization-cleavage” approach. Base-catalyzed reactions between α,β-unsaturated ketones and polymer-bound acetonyl groups result in a tandem Michael addition/annulation reaction followed by elimination and rearrangement into phenols. Since all intermediates are on the resin until the last stage, the final reaction products contain only the desired phenols with the starting ketones as minor impurities. This efficient one-pot aromatic ring formation represents a new variant of solid phase synthesis.