Debra Smith scite author profile

A number of bacteria, including some significant pathogens, utilize N-acylhomoserine lactones (AHLs) as quorum sensing signals. There is considerable interest in the therapeutic potential of disrupting quorum sensing. Recently, a number of bacteria have been identified which are capable of enzymic inactivation of AHLs. These enzymes show considerable promise as 'quenchers' of quorum sensing. However, the assumption that the natural function of these enzymes is to disrupt or modulate quorum sensing has yet to be established. This review surveys the progress made to date in this field and examines what implications these findings have for our understanding of the role played by these enzymes in vivo.

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Mycobacterium terrae: Case Reports, Literature Review, and In Vitro Antibiotic Susceptibility Testing

Smith

Lindholm-Levy

Huitt

et al. 2000

Clinical Infectious Diseases

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Mycobacterium terrae infection can cause debilitating disease that is relatively resistant to antibiotic therapy. Two cases are presented, and data from an additional 52 reports from the literature are reviewed. Tenosynovitis of the upper extremity, often following trauma, was the most commonly reported presentation (59% of cases), with pulmonary disease occurring in an additional 26% of cases. Underlying medical problems were absent (44%) or not reported (28%) in 72% of the cases. One-half of the patients with upper extremity tenosynovitis were treated with local or systemic corticosteroids, before microbiological identification. Only one-half of the patients with tenosynovitis who were followed up for 6 months had clinical improvement or were cured. The other one-half of the patients required repeated debridement, tendon extirpation, or amputation. The best antimicrobial therapy for M. terrae infection is unknown but might include a macrolide antibiotic plus ethambutol and one other effective drug for at least 12 months after clinical response. Parenteral treatment with an aminoglycoside and surgery may be useful in selected cases.

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Variations on a Theme: Diverse N-Acyl Homoserine Lactone-Mediated Quorum Sensing Mechanisms in Gram-Negative Bacteria

et al. 2006

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Many Gram-negative bacteria employ a mechanism of cell–cell communication known as quorum sensing (QS). The role of QS is to enable the cells in a culture to coordinate their gene expression profile with changes in the population cell density. The best characterized mechanisms of QS employ N-acylated homoserine lactones (AHLs) as signalling molecules. These AHLs are made by enzymes known as Luxl homologs, and accumulate in the culture supernatant at a rate proportional to the increase in cell density. Once the AHL concentration exceeds a certain threshold value, these ligands bind to intracellular receptors known as LuxR homologs. The latter are transcriptional regulators, whose activity alters upon binding the AHL ligand, thereby eliciting a change in gene transcription. Over the last five years, it has become increasingly obvious that this is a rather simplistic view of AHL-dependent QS, and that in fact, there is considerable diversity in the way in which Luxl-R homologs operate. The aim of the current review is to describe these variations on the basic theme, and to show how functional genomics is revolutionizing our understanding of QS-controlled regulons.

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Cell–cell communication in Gram-negative bacteria

et al. 2005

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Over the last decade or so, a wealth of research has established that bacteria communicate with one another using small molecules. These signals enable the individuals in a population to coordinate their behaviour. In the case of pathogens, this behaviour may include decisions such as when to attack a host organism or form a biofilm. Consequently, such signalling systems are excellent targets for the development of new antibacterial therapies. In this review, we assess how Gram-negative bacteria use small molecules for cell-cell communication, and discuss the main approaches that have been developed to interfere with it.

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Debra Smith

Communications blackout? Do N-acylhomoserine-lactone-degrading enzymes have any role in quorum sensing?

Mycobacterium terrae: Case Reports, Literature Review, and In Vitro Antibiotic Susceptibility Testing

Variations on a Theme: Diverse N-Acyl Homoserine Lactone-Mediated Quorum Sensing Mechanisms in Gram-Negative Bacteria

Cell–cell communication in Gram-negative bacteria

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