Abstract
Bachtiar et al. (2014) present a very interesting study in which they illustrate the ability of AI-2, produced by Aggregatibacter actinomycetemcomitans to inhibit biofilm formation by the fungal opportunistic pathogen Candida albicans. C. albicans is considered to be the most common fungal pathogen of humans, manifesting itself in the oral cavity (oral candidiasis or thrush), female reproductive tract (commonly referred to as a yeast infection), and less commonly in the digestive tract. It is also a notable blood-borne nosocomial pathogen (reviewed in Moyes and Naglik, 2011). While candidiasis is a complication in immunocompromised patients (Moyes and Naglik, 2011; Gow and Hube, 2012), in most other situations candidiasis arises as a consequence of normal flora disruption (Gow and Hube, 2012). In contrast to the considerable work done on mucosal immunity and other aspects of the immune system, less work has been done on mechanisms whereby normal flora control C. albicans. As part of its virulence, C. albicans does form biofilms through a quorum-regulated developmental process analogous to bacterial biofilms (Chandra et al., 2001; Ramage et al., 2002). Hogan and Kolter (2002) showed that Pseudomonas aeruginosa biofilms could colonize and inhibit C. albicans only when C. elegans was growing in the mycelia form and not the yeast form. These authors found that P. aeruginosa production of type 4 pili, involved in biofilm formation, antimicrobial phenazines, and other virulence factors, notably phospholipase C, were important inhibitors of C. albicans (Hogan and Kolter, 2002). Cruz et al. illustrated how proteins produced by Enterococcus faecalis could inhibit C. albicans hyphal growth and virulence (Cruz et al., 2013). There have also been reports of other specific interactions between individual bacteria and Candida albicans (reviewed in Shirtliff et al., 2009). While these studies address specific mechanisms, relevant to a specific bacterial species' interaction with C. albicans, it does not address the general phenomenon of normal flora inhibition of C. albicans growth and virulence. In this context, the study by Bachtiar et al. (2014), represents an intriguing and very welcome development. Autoinducer 2 (AI-2), encoded by luxS has been likened to a universal quorum signal in that it is produced and responded to by a wide number of bacterial species (Ng and Bassler, 2009). In their study, Bachtiar et al. (2014) focused on the interaction of A. actinomycetemcomitans with C. albicans. Using genetically defined strains, they showed that luxS mutants were unable to inhibit biofilm formation in C. albicans, but that this inhibition could be restored by genetic complementation or through the addition of physiologically-relevant concentrations of synthetic AI-2 or spent media from AI-2-producing A. actinomycetemcomitans. Although A. actinomycetemcomitans, found in the sub-gingival crevice, is normally a minor component of the oral cavity (Ramsey and Whiteley, 2009), the universal presence of AI-2 in many bacteria (Ng and Bassler, 2009) suggests that this signal molecule may represent a heretofore unrecognized general mechanism of the normal flora that protect against C. albicans infections. Certainly, work is needed with other AI-2-producing members of the normal flora to confirm this possibility. In light of the work by Hogan and Kolter (2002), it would also be very appropriate to determine whether AI-2 inhibition of C. albicans was a general phenomenon rather than being restricted to a specific physiological state (i.e., mycelia or yeast growth) of this fungal opportunistic pathogen. In summary, while there is considerable interest in exploiting quorum signal disruption as an antimicrobial therapy (Christensen et al., 2012; Vega et al., 2014), the work of Bachtiar et al. (2014) implies that enhanced C. albicans virulence might be an undesired consequence of this quorum-inhibiting strategy, as is the case with antibiotic-induced normal flora reduction (Gow and Hube, 2012).
Highlights
Bachtiar et al (2014) present a very interesting study in which they illustrate the ability of Autoinducer 2 (AI-2), produced by Aggregatibacter actinomycetemcomitans to inhibit biofilm formation by the fungal opportunistic pathogen Candida albicans
In contrast to the considerable work done on mucosal immunity and other aspects of the immune system, less work has been done on mechanisms whereby normal flora control C. albicans
There have been reports of other specific interactions between individual bacteria and Candida albicans. While these studies address specific mechanisms, relevant to a specific bacterial species’ interaction with C. albicans, it does not address the general phenomenon of normal flora inhibition of C. albicans growth and virulence
Summary
Normal bacterial flora may inhibit Candida albicans biofilm formation by Autoinducer-2 A commentary on AI-2 of Aggregatibacter actinomycetemcomitans inhibits Candida albicans biofilm formation by Bachtiar, E. Bachtiar et al (2014) present a very interesting study in which they illustrate the ability of AI-2, produced by Aggregatibacter actinomycetemcomitans to inhibit biofilm formation by the fungal opportunistic pathogen Candida albicans.
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