Bacteria use small diffusible molecules to exchange information in a process called quorum sensing. An important class of autoinducers used by Gram-negative bacteria is the family of N-acylhomoserine lactones. Here, we report the discovery of a previously undescribed nonenzymatically formed product from N-(3-oxododecanoyl)-L-homoserine lactone; both the N-acylhomoserine and its novel tetramic acid degradation product, 3-(1-hydroxydecylidene)-5-(2-hydroxyethyl)pyrrolidine-2,4-dione, are potent antibacterial agents. Bactericidal activity was observed against all tested Gram-positive bacterial strains, whereas no toxicity was seen against Gram-negative bacteria. We propose that Pseudomonas aeruginosa utilizes this tetramic acid as an interference strategy to preclude encroachment by competing bacteria. Additionally, we have discovered that this tetramic acid binds iron with comparable affinity to known bacterial siderophores, possibly providing an unrecognized mechanism for iron solubilization. These findings merit new attention such that other previously identified autoinducers be reevaluated for additional biological functions.tetramic acid ͉ bactericidal agents ͉ evolution
Cell density-dependent coordination of gene expression in bacteria has been termed "quorum sensing" (QS). 1 N-acyl L-homoserine lactones (AHLs) are produced by over 70 species of Gram-negative bacteria, and structural differences within AHLs occur in the length and oxidation state of the acyl side chain (Figure 1). Upon reaching a critical threshold concentration, AHLs bind to their cognate receptor proteins, triggering the expression of target genes. AHLs have been shown to play an important role in the establishment and course of bacterial infections. One example of a Gram-negative pathogen that employs AHL-based QS to regulate the expression of its pathogenicity factors is Pseudomonas aeruginosa. This common environmental microorganism has acquired the ability to take advantage of weaknesses in the host defenses to become an opportunistic pathogen in humans. Most prominent is the role of P. aeruginosa in patients suffering from cystic fibrosis (CF). Over the last 15 years, much progress has been made in elucidating the molecular mechanisms underlying P. aeruginosa pathogenicity. 2 Two different AHLs, N-(3-oxododecanoyl) homoserine lactone (3-oxo-C 12 -AHL) and N-butyryl homoserine lactone (C 4 -AHL), have been identified as QS signaling molecules in P. aeruginosa. Genes regulated by this QS mechanism encode enzymes such as elastases A and B, catalase, and superoxide dismutase as well as exotoxins. 2Interference with QS signaling has been suggested as a new approach for anti-infective therapy. 3 In fact, this strategy has yielded interesting results using AHL analogs as QS antagonists in P. aeruginosa. 4 Alternatively, we have embarked on a program utilizing antibodies to inhibit AHL-mediated quorum sensing signaling in P. aeruginosa. AHL-based QS systems represent an ideal target for antibody-based anti-infective therapy given the highly conserved molecular scaffold and extracellular distribution of AHLs.Our initial hapten design for the elicitation of anti-AHL antibodies focused on synthesizing a set of molecules highly congruent in structure to AHLs while also possessing a pendant carboxylic acid functionality that would enable carrier proteins BSA or KLH conjugates to be easily accessed. However, we were aware that such molecules might also be prone to hydrolysis (ring opened products) under conditions required for chemical coupling and also immunization. Thus, to guide our hapten design the stability of several AHLs under physiological conditions was investigated; we synthesized a number of AHL analogs and their corresponding ring opened hydrolysis products, both of which contained a 4-methoxyphenyl amide group that allowed for a detailed investigation into the rate of hydrolysis of the AHL analogues using HPLC with UV detection (Figure 2 Each compound was assayed for its hydrolysis rate in phosphate buffer saline (PBS), pH 7.2, at a concentration of 200 μM at 37 °C. The half lives of each of the lactones varied from 13.7 to 18.1 hours. Interestingly, the oxidation state and chain length did not influence...
The preparation of polymer-supported proline-based diamine catalyst 12 for the kinetic resolution of racemic mixtures of secondary alcohols is described. Not only is the catalyst effective for the resolution of a host of different alcohols, it can also be recovered and reused several times without loss of either activity or selectivity. The catalyst has been used in conjunction with a polymer-supported sequestration strategy, giving rise to an essentially pure mixture of resolved products that can be separated using flash chromatography.
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