Carbon dioxide water-bath treatment augments peripheral blood flow through the development of angiogenesis

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

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Evidence for Ozone Formation in Human Atherosclerotic Arteries

Wentworth

Nieva

Takeuchi

et al. 2003

Science

258

303

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Here, we report evidence for the production of ozone in human disease. Signature products unique to cholesterol ozonolysis are present within atherosclerotic tissue at the time of carotid endarterectomy, suggesting that ozone production occurred during lesion development. Furthermore, advanced atherosclerotic plaques generate ozone when the leukocytes within the diseased arteries are activated in vitro. The steroids produced by cholesterol ozonolysis cause effects that are thought to be critical to the pathogenesis of atherosclerosis, including cytotoxicity, lipid-loading in macrophages, and deformation of the apolipoprotein B-100 secondary structure. We propose the trivial designation "atheronals" for this previously unrecognized class of steroids.

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Organic Synthesis on Soluble Polymer Supports: Liquid-Phase Methodologies

1997

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Antibody Catalysis of the Oxidation of Water

Wentworth

Jones

Wentworth

et al. 2001

Science

256

243

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Recently we reported that antibodies can generate hydrogen peroxide (H2O2) from singlet molecular oxygen (1O2*). We now show that this process is catalytic, and we identify the electron source for a quasi-unlimited generation of H2O2. Antibodies produce up to 500 mole equivalents of H2O2 from 1O2*, without a reduction in rate, and we have excluded metals or Cl- as the electron source. On the basis of isotope incorporation experiments and kinetic data, we propose that antibodies use H2O as an electron source, facilitating its addition to 1O2* to form H2O3 as the first intermediate in a reaction cascade that eventually leads to H2O2. X-ray crystallographic studies with xenon point to putative conserved oxygen binding sites within the antibody fold where this chemistry could be initiated. Our findings suggest a protective function of immunoglobulins against 1O2* and raise the question of whether the need to detoxify 1O2* has played a decisive role in the evolution of the immunoglobulin fold.

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Evidence for Antibody-Catalyzed Ozone Formation in Bacterial Killing and Inflammation

Wentworth¹,

McDunn²,

Wentworth³

et al. 2002

Science

322

245

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Recently, we showed that antibodies catalyze the generation of hydrogen peroxide (H2O2) from singlet molecular oxygen (1O2*) and water. Here, we show that this process can lead to efficient killing of bacteria, regardless of the antigen specificity of the antibody. H2O2 production by antibodies alone was found to be not sufficient for bacterial killing. Our studies suggested that the antibody-catalyzed water-oxidation pathway produced an additional molecular species with a chemical signature similar to that of ozone. This species is also generated during the oxidative burst of activated human neutrophils and during inflammation. These observations suggest that alternative pathways may exist for biological killing of bacteria that are mediated by potent oxidants previously unknown to biology.

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Soluble Polymers as Scaffolds for Recoverable Catalysts and Reagents

2002

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Catalytic Antibodies

Tramontano

Janda

Lerner

1986

Science

612

222

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Monoclonal antibodies elicited to haptens that are analogs of the transition state for hydrolysis of carboxylic esters behaved as enzymic catalysts with the appropriate substrates. These substrates are distinguished by the structural congruence of both hydrolysis products with haptenic fragments. The haptens were potent inhibitors of this esterolytic activity, in agreement with their classification as transition state analogs. Mechanisms are proposed to account for the different chemical behavior of these antibodies with two types of ester substrates. The generation of an artificial enzyme through transition state stabilization by antibodies was thus demonstrated. These studies indicate a potentially general approach to catalyst design.

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Modulation of Gene Expression via Disruption of NF-κB Signaling by a Bacterial Small Molecule

Kravchenko

Kaufmann

Mathison

et al. 2008

Science

194

211

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Kim D. Janda

Revisiting quorum sensing: Discovery of additional chemical and biological functions for 3-oxo- N -acylhomoserine lactones

Evidence for Ozone Formation in Human Atherosclerotic Arteries

Organic Synthesis on Soluble Polymer Supports: Liquid-Phase Methodologies

Antibody Catalysis of the Oxidation of Water

Evidence for Antibody-Catalyzed Ozone Formation in Bacterial Killing and Inflammation

Soluble Polymers as Scaffolds for Recoverable Catalysts and Reagents

Catalytic Antibodies

Modulation of Gene Expression via Disruption of NF-κB Signaling by a Bacterial Small Molecule

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