Genetic Analysis of Drug Resistance in
            <i>Neisseria gonorrhoeae</i>
            : Identification and Linkage Relationships of Loci Controlling Drug Resistance

Maier, Thomas W.; Zubrzycki, Leonard; Coyle, Marie B.

doi:10.1128/aac.7.5.676

Cited by 26 publications

(31 citation statements)

References 21 publications

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“…The mtr locus was initially identified in studies on the genetic basis of resistance to multiple antibiotics in N. gonorrhoeae (10,25,39,43). Further definition of the substrate repertoire of this efflux system was facilitated by the subsequent cloning of the Here we present data that support the role of the MtrCDE, but not the FarAB-MtrE, efflux system in survival of N. gonorrhoeae in the lower genital tract of female mice.…”

Section: Discussionmentioning

confidence: 99%

A Gonococcal Efflux Pump System Enhances Bacterial Survival in a Female Mouse Model of Genital Tract Infection

et al. 2003

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Active efflux of antimicrobial substances is likely to be an important bacterial defense against inhibitory host factors inherent to different body sites. Two well-characterized multidrug resistance efflux systems (MtrCDE and FarAB-MtrE) exist in Neisseria gonorrhoeae, a bacterial pathogen of the human genital mucosae. In vitro studies suggest that the MtrCDE and FarAB-MtrE efflux systems protect the gonococcus from hydrophobic antimicrobial substances that are likely to be present on mucosal surfaces. Here we report that a functional MtrCDE efflux system, but not a functional FarAB-MtrE system, enhances experimental gonococcal genital tract infection in female mice. Specifically, the recovery of mtrD and mtrE mutants, but not a farB mutant, from mice inoculated with mutant or wild-type gonococci was reduced compared with that of the wild-type strain. Competitive-infection experiments confirmed the survival disadvantage of MtrCDE-deficient gonococci. This report is the first direct evidence that a multidrug resistance efflux system enhances survival of a bacterial pathogen in the genital tract. Additionally, experiments using ovariectomized mice showed that MtrCDEdeficient gonococci were more rapidly cleared from mice that were capable of secreting gonadal hormones. MtrCDE-deficient gonococci were more sensitive to nonphysiological concentrations of progesterone in vitro than were wild-type or FarAB-MtrE-deficient gonococci. These results suggest that progesterone may play an inhibitory role in vivo. However, hormonally regulated factors rather than progesterone itself may be responsible for the more rapid clearance of mtr-deficient gonococci from intact mice.Bacterial colonization of mucosal surfaces is challenged by components of the host innate immune response, including hydrophobic, membrane-damaging compounds such as bile salts, fatty acids, and antibacterial peptides. Gram-negative bacteria have evolved elaborate active efflux systems, which together with the low permeability of the outer membrane confer inherent resistance to these antimicrobial substances. One class of active efflux systems, the multidrug resistance pumps, is remarkable in the capacity to recognize structurally dissimilar substrates, including diverse antibiotics (34,35). Two such systems, namely, the mtrCDE-encoded (6, 12, 13, 36) and farAB-encoded (22) efflux systems, have been well characterized in Neisseria gonorrhoeae. Like other multidrug resistance pumps, the mtrCDE-and farAB-encoded efflux systems are composed of three components that function together to capture the substrate in the inner membrane and transport it through the periplasm and out to the external milieu via an outer membrane pore (34,49). A third efflux system that utilizes a transporter homologous to NorM of Vibrio parahaemolyticus was recently identified in N. gonorrhoeae and Neisseria meningitidis (37).The gonococcal MtrCDE ("mtr" stands for multiple transferable resistance) system is encoded by an operon consisting of three genes, mtrC, mtrD, and mtrE (11), and ...

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Section: Discussionmentioning

confidence: 99%

A Gonococcal Efflux Pump System Enhances Bacterial Survival in a Female Mouse Model of Genital Tract Infection

et al. 2003

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“…Transformation procedures were performed in a manner slightly modified from that described by Maier, Zubrzycki, and Coyle (23). Eighteen-hour-old cultures of the recipient organisms were suspended at a concentration of approximately 3 x 10' colony-forming units per ml in GC broth containing 2 mM MgC12 and were exposed to the action of a Vortex mixer to minimize cell clumping.…”

Section: Selection Of Streptomycin-resistant Mutantsmentioning

confidence: 99%

Taxonomy of the Neisseriae: Deoxyribonucleic Acid Base Composition, Interspecific Transformation, and Deoxyribonucleic Acid Hybridization

Hoke

Vedros

1982

International Journal of Systematic Bacteriology

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Deoxyribonucleic acid (DNA) base composition, intergenic transformation efficiency, and DNA hybridization were used to determine the relatedness of a variety of established or proposed species of Neisseria and Branhamella. These studies indicated that these bacteria form three genetic groupings. Group I, comprised of N . meningitidis, N . gonorrhoeae, N . subflava, N . flava, N . perflava, N . sicca, N . mucosa, N . cinerea, N . flavescens, N . lactamica, N . elongata, N . canis, and N . denitrificans, was characterized by DNA base compositions ranging between 49.3 and 55.6 mol% guanine plus cytosine. Group 11, comprised of N . cuniculi, N . caviae, and N . ovis, was characterized by DNA base compositions ranging between 45.3 and 47.3 mol% guanine plus cytosine. Group 111, comprised of one species, B . catarrhalis, was characterized by DNA base compositions between 41 and 42 mol% guanine plus cytosine. Transformation and DNA hybridization results revealed that members of each group, with few exceptions, exhibited high DNA homology with other members of the same group but most often distinctly lower levels of homology with members of a different group. These data suggest that N . ovis, N . caviae, and N . cuniculi may be significantly different from other neisseriae and from branhamellae to warrant their separation in a distinct genus. The results of nucleic acid hybridizations performed by Kingsbury (17) revealed that the genus Neisseria was a heterogeneous group comprised of at least three distinct subgroups and questioned the proper classification of N . catarrhalis and N . caviae as members of the genus Neisseria. On the basis of nucleic acid hybridization studies, Bdvre reported that N . ovis, N . caviae, and B. catarrhalis showed distinct degrees of relatedness to several Moraxella species (3, 4). This supported the inclusion of Moraxella in the family Neisseriaceae.The purpose of this study was to use DNA base composition determinations, transformation, and DNA hybridization studies to clarify the taxonomic positions of recognized or proposed species of Neisseria and Branhamella. Special attention was focused on evaluating the potential of transformation as a toxonomic tool for determining the relatedness of members of these genera. MATERIALS AND METHODSThe bacterial strains examined are listed in Table 1. Stock cultures were preserved by freeze-drying. Working cultures were maintained at -70°C in Trypticase soy broth (BBL Microbiology Systems) supplemented with 6% lactose. Cultures were routinely passaged on GC agar consisting of GC medium base (Difco Laboratories) and 1 % (vol/vol) chemically defined supplements (36) and were incubated at 36°C for 18 h (5% C02, humidity).Preparation of DNA for base composition determinations. A modification of the procedure originally described by Marmur (25) was followed for the extrac- 57

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“…These results indicate that ampicillin resistance in N. gonorrhoeae arises by a series of mutations in multiple genes distinct from those previously mapped (6,8,11,15,16). Mutation frequencies from initial selection were 10-9 to 10-1o, although the first-step resistance was shown to derive from two mutation sites.…”

Section: Discussionmentioning

confidence: 69%

Genetic analysis of spontaneous resistance to ampicillin in Neisseria gonorrhoeae

Jones¹,

Cunningham²,

Shockley³

et al. 1985

Antimicrob Agents Chemother

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Genetic Analysis of Drug Resistance in Neisseria gonorrhoeae : Identification and Linkage Relationships of Loci Controlling Drug Resistance

Cited by 26 publications

References 21 publications

A Gonococcal Efflux Pump System Enhances Bacterial Survival in a Female Mouse Model of Genital Tract Infection

A Gonococcal Efflux Pump System Enhances Bacterial Survival in a Female Mouse Model of Genital Tract Infection

Taxonomy of the Neisseriae: Deoxyribonucleic Acid Base Composition, Interspecific Transformation, and Deoxyribonucleic Acid Hybridization

Genetic analysis of spontaneous resistance to ampicillin in Neisseria gonorrhoeae

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