Substitutions at Methionine 220 in the 14α-Sterol Demethylase (Cyp51A) of Aspergillus fumigatus Are Responsible for Resistance In Vitro to Azole Antifungal Drugs

ABSTRACT Five clinical isolates of Aspergillus fumigatus that exhibited similar patterns of reduced susceptibility to itraconazole and other triazole drugs were analyzed. Sequence analysis of genes (cyp51A and cyp51B) encoding the 14α-sterol demethylases revealed that all five strains harbored mutations in cyp51A resulting in the replacement of methionine at residue 220 by valine, lysine, or threonine. When the mutated cyp51A genes were introduced into an A. fumigatus wild-type strain, the transformants exhibited reduced susceptibility to all triazole agents, confirming that the mutations were responsible for the resistance phenotype.

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Fitness Cost of Rifampin Resistance in Neisseria meningitidis:In VitroStudy of Mechanisms Associated withrpoBH553Y Mutation

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.01746-15 ◽

2015 ◽

Vol 59 (12) ◽

pp. 7637-7649 ◽

Cited By ~ 8

Author(s):

Roberta Colicchio ◽

Chiara Pagliuca ◽

Gabiria Pastore ◽

Annunziata Gaetana Cicatiello ◽

Caterina Pagliarulo ◽

...

Keyword(s):

Type Strain ◽

Wild Type Strain ◽

Capsular Polysaccharide ◽

Culture Media ◽

Point Mutations ◽

Clinical Isolates ◽

Sequencing Analysis ◽

Wild Type ◽

Rifampin Resistance

ABSTRACTRifampin chemoprophylaxis againstNeisseria meningitidisinfections led to the onset of rifampin resistance in clinical isolates harboring point mutations in therpoBgene, coding for the RNA polymerase β chain. These resistant strains are rare in medical practice, suggesting their decreased fitness in the human host. In this study, we isolated rifampin-resistantrpoBmutants from hypervirulent serogroup C strain 93/4286 and analyzed their different properties, including the ability to grow/survive in different culture media and in differentiated THP-1 human monocytes and to compete with the wild-type strainin vitro. Our results demonstrate that differentrpoBmutations (H553Y, H553R, and S549F) may have different effects, ranging from low- to high-cost effects, on bacterial fitnessin vitro. Moreover, we found that the S549F mutation confers temperature sensitivity, possibly explaining why it is observed very rarely in clinical isolates. Comparative high-throughput RNA sequencing analysis of bacteria grown in chemically defined medium demonstrated that the low-cost H553Y substitution resulted in global transcriptional changes that functionally mimic the stringent response. Interestingly, many virulence-associated genes, including those coding for meningococcal type IV pili, porin A, adhesins/invasins, IgA protease, two-partner secretion system HrpA/HrpB, enzymes involved in resistance to oxidative injury, lipooligosaccharide sialylation, and capsular polysaccharide biosynthesis, were downregulated in the H553Y mutant compared to their level of expression in the wild-type strain. These data might account for the reduced capacity of this mutant to grow/survive in differentiated THP-1 cells and explain the rarity of H553Y mutants among clinical isolates.

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Mutations of folC cause increased susceptibility to sulfamethoxazole in Mycobacterium tuberculosis

Scientific Reports ◽

10.1038/s41598-020-80213-4 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Ruiqi Wang ◽

Kun Li ◽

Jifang Yu ◽

Jiaoyu Deng ◽

Yaokai Chen

Keyword(s):

Mycobacterium Tuberculosis ◽

Type Strain ◽

Wild Type Strain ◽

Clinical Isolates ◽

Aminobenzoic Acid ◽

Wild Type ◽

Dihydropteroate Synthase ◽

Expression Levels ◽

Encoding Gene ◽

Increased Susceptibility

AbstractPrevious studies showed that mutation of folC caused decreased expression of the dihydropteroate synthase encoding gene folP2 in Mycobacterium tuberculosis (M. tuberculosis). We speculated that mutation of folC in M. tuberculosis might affect the susceptibility to sulfamethoxazole (SMX). To prove this, 53 clinical isolates with folC mutations were selected and two folC mutants (I43A, I43T) were constructed based on M. tuberculosis H37Ra. The results showed that 42 of the 53 clinical isolates (79.2%) and the two lab-constructed folC mutants were more sensitive to SMX. To probe the mechanism by which folC mutations make M. tuberculosis more sensitive to SMX, folP2 was deleted in H37Ra, and expression levels of folP2 were compared between H37Ra and the two folC mutants. Although deletion of folP2 resulted in increased susceptibility to SMX, no difference in folP2 expression was observed. Furthermore, production levels of para-aminobenzoic acid (pABA) were compared between the folC mutants and the wild-type strain, and results showed that folC mutation resulted in decreased production of pABA. Taken together, we show that folC mutation leads to decreased production of pABA in M. tuberculosis and thus affects its susceptibility to SMX, which broadens our understanding of mechanisms of susceptibilities to antifolates in this bacterium.

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CaNdt80 Is Involved in Drug Resistance in Candida albicans by Regulating CDR1

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.48.12.4505-4512.2004 ◽

2004 ◽

Vol 48 (12) ◽

pp. 4505-4512 ◽

Cited By ~ 66

Author(s):

Chia-Geun Chen ◽

Yun-Liang Yang ◽

Hsin-I Shih ◽

Chia-Li Su ◽

Hsiu-Jung Lo

Keyword(s):

Saccharomyces Cerevisiae ◽

Drug Resistance ◽

Candida Albicans ◽

Type Strain ◽

Antifungal Agents ◽

Wild Type Strain ◽

Efflux Pump ◽

Antifungal Drugs ◽

Galactosidase Activity ◽

Wild Type

ABSTRACT Overexpression of CDR1, an efflux pump, is one of the major mechanisms contributing to drug resistance in Candida albicans. CDR1 p-lacZ was constructed and transformed into a Saccharomyces cerevisiae strain so that the lacZ gene could be used as the reporter to monitor the activity of the CDR1 promoter. Overexpression of CaNDT80, the C. albicans homolog of S. cerevisiae NDT80, increases the β-galactosidase activity of the CDR1 p-lacZ construct in S. cerevisiae. Furthermore, mutations in CaNDT80 abolish the induction of CDR1 expression by antifungal agents in C. albicans. Consistently, the Candt80/Candt80 mutant is also more susceptible to antifungal drugs than the wild-type strain. Thus, the gene for CaNdt80 may be the first gene among the regulatory factors involved in drug resistance in C. albicans whose function has been identified.

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Construction and Characterization of aMycobacterium tuberculosis Mutant Lacking the Alternate Sigma Factor Gene, sigF

Infection and Immunity ◽

10.1128/iai.68.10.5575-5580.2000 ◽

2000 ◽

Vol 68 (10) ◽

pp. 5575-5580 ◽

Cited By ~ 99

Author(s):

Ping Chen ◽

Rafael E. Ruiz ◽

Qing Li ◽

Richard F. Silver ◽

William R. Bishai

Keyword(s):

Stationary Phase ◽

Sigma Factor ◽

Type Strain ◽

Wild Type Strain ◽

Axenic Culture ◽

Wild Type ◽

Intracellular Growth ◽

Factor Gene ◽

Time To Death

ABSTRACT The alternate RNA polymerase sigma factor gene, sigF, which is expressed in stationary phase and under stress conditions in vitro, has been deleted in the virulent CDC1551 strain ofMycobacterium tuberculosis. The growth rate of the ΔsigF mutant was identical to that of the isogenic wild-type strain in exponential phase, although in stationary phase the mutant achieved a higher density than the wild type. The mutant showed increased susceptibility to rifampin and rifapentine. Additionally, the ΔsigF mutant displayed diminished uptake of chenodeoxycholate, and this effect was reversed by complementation with a wild-type sigF gene. No differences in short-term intracellular growth between mutant and wild-type organisms within human monocytes were observed. Similarly, the organisms did not differ in their susceptibilities to lymphocyte-mediated inhibition of intracellular growth. However, mice infected with the ΔsigF mutant showed a median time to death of 246 days compared with 161 days for wild-type strain-infected animals (P < 0.001). These data indicate that M. tuberculosis sigF is a nonessential alternate sigma factor both in axenic culture and for survival in macrophages in vitro. While the ΔsigF mutant produces a lethal infection of mice, it is less virulent than its wild-type counterpart by time-to-death analysis.

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Mutations Conferring Aminoglycoside and Spectinomycin Resistance in Borrelia burgdorferi

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.50.2.445-452.2006 ◽

2006 ◽

Vol 50 (2) ◽

pp. 445-452 ◽

Cited By ~ 39

Author(s):

Daniel Criswell ◽

Virginia L. Tobiason ◽

J. Stephen Lodmell ◽

D. Scott Samuels

Keyword(s):

16S Rrna ◽

Borrelia Burgdorferi ◽

Type Strain ◽

Wild Type Strain ◽

Small Subunit ◽

Wild Type ◽

Spectinomycin Resistance ◽

E Coli ◽

Resistant Mutants

ABSTRACT We have isolated and characterized in vitro mutants of the Lyme disease agent Borrelia burgdorferi that are resistant to spectinomycin, kanamycin, gentamicin, or streptomycin, antibiotics that target the small subunit of the ribosome. 16S rRNA mutations A1185G and C1186U, homologous to Escherichia coli nucleotides A1191 and C1192, conferred >2,200-fold and 1,300-fold resistance to spectinomycin, respectively. A 16S rRNA A1402G mutation, homologous to E. coli A1408, conferred >90-fold resistance to kanamycin and >240-fold resistance to gentamicin. Two mutations were identified in the gene for ribosomal protein S12, at a site homologous to E. coli residue Lys-87, in mutants selected in streptomycin. Substitutions at codon 88, K88R and K88E, conferred 7-fold resistance and 10-fold resistance, respectively, to streptomycin on B. burgdorferi. The 16S rRNA A1185G and C1186U mutations, associated with spectinomycin resistance, appeared in a population of B. burgdorferi parental strain B31 at a high frequency of 6 × 10−6. These spectinomycin-resistant mutants successfully competed with the wild-type strain during 100 generations of coculture in vitro. The aminoglycoside-resistant mutants appeared at a frequency of 3 × 10−9 to 1 ×10−7 in a population and were unable to compete with wild-type strain B31 after 100 generations. This is the first description of mutations in the B. burgdorferi ribosome that confer resistance to antibiotics. These results have implications for the evolution of antibiotic resistance, because the 16S rRNA mutations conferring spectinomycin resistance have no significant fitness cost in vitro, and for the development of new selectable markers.

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In VivoEfficacy of Human Simulated Regimens of Carbapenems and Comparator Agents against NDM-1-Producing Enterobacteriaceae

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.01946-13 ◽

2013 ◽

Vol 58 (3) ◽

pp. 1671-1677 ◽

Cited By ~ 23

Author(s):

Dora E. Wiskirchen ◽

Patrice Nordmann ◽

Jared L. Crandon ◽

David P. Nicolau

Keyword(s):

Type Strain ◽

Wild Type Strain ◽

Similar Efficacy ◽

Infection Model ◽

High Dose ◽

Wild Type ◽

Prolonged Infusion ◽

Content Type

ABSTRACTDoripenem and ertapenem have demonstrated efficacy against several NDM-1-producing isolatesin vivo, despite having high MICs. In this study, we sought to further characterize the efficacy profiles of humanized regimens of standard (500 mg given every 8 h) and high-dose, prolonged infusion of doripenem (2 g given every 8 h, 4-h infusion) and 1 g of ertapenem given intravenously every 24 h and the comparator regimens of ceftazidime at 2 g given every 8 h (2-h infusion), levofloxacin at 500 mg every 24 h, and aztreonam at 2 g every 6 h (1-h infusion) against a wider range of isolates in a murine thigh infection model. An isogenic wild-type strain and NDM-1-producingKlebsiella pneumoniaeand eight clinical NDM-1-producing members of the familyEnterobacteriaceaewere tested in immunocompetent- and neutropenic-mouse models. The wild-type strain was susceptible to all of the agents, while the isogenic NDM-1-producing strain was resistant to ceftazidime, doripenem, and ertapenem. Clinical NDM-1-producing strains were resistant to nearly all five of the agents (two were susceptible to levofloxacin). In immunocompetent mice, all of the agents produced ≥1-log10CFU reductions of the isogenic wild-type and NDM-1-producing strains after 24 h. Minimal efficacy of ceftazidime, aztreonam, and levofloxacin against the clinical NDM-1-producing strains was observed. However, despitein vitroresistance, ≥1-log10CFU reductions of six of eight clinical strains were achieved with high-dose, prolonged infusion of doripenem and ertapenem. Slight enhancements of doripenem activity over the standard doses were obtained with high-dose, prolonged infusion for three of the four isolates tested. Similar efficacy observations were noted in neutropenic mice. These data suggest that carbapenems are a viable treatment option for infections caused by NDM-1-producingEnterobacteriaceae.

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Molecular Studies Reveal Frequent Misidentification of Aspergillus fumigatus by Morphotyping

Eukaryotic Cell ◽

10.1128/ec.00162-06 ◽

2006 ◽

Vol 5 (10) ◽

pp. 1705-1712 ◽

Cited By ~ 147

Author(s):

S. Arunmozhi Balajee ◽

David Nickle ◽

Janos Varga ◽

Kieren A. Marr

Keyword(s):

Aspergillus Fumigatus ◽

Amphotericin B ◽

Distinct Species ◽

Enzyme Polymorphism ◽

Antifungal Drugs ◽

Clinical Isolates ◽

Polymorphism Analysis ◽

In Vitro Susceptibility ◽

Epidemiological Surveys

ABSTRACT Aspergillus fumigatus has been understood to be the most common cause of invasive aspergillosis (IA) in all epidemiological surveys. However, recent studies have uncovered a large degree of genetic heterogeneity between isolates morphologically identified as A. fumigatus, leading to the description of a new species, Aspergillus lentulus. Here, we examined the genetic diversity of clinical isolates identified as A. fumigatus using restriction enzyme polymorphism analysis and sequence-based identification. Analysis of 50 clinical isolates from geographically diverse locations recorded the presence of at least three distinct species: A. lentulus, Aspergillus udagawae, and A. fumigatus. In vitro, A. lentulus isolates demonstrated decreased susceptibility to antifungal drugs currently used for IA, including amphotericin B, voriconazole, and caspofungin; A. udagawae isolates demonstrated decreased in vitro susceptibility to amphotericin B. Results of the present study demonstrate that current phenotypic methods to identify fungi do not differentiate between genetically distinct species in the A. fumigatus group. Differential antifungal susceptibilities of these species may account for some of the reported poor outcomes of therapy in clinical studies.

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A Bile Salt Hydrolase of Brucella abortus Contributes to the Establishment of a Successful Infection through the Oral Route in Mice

Infection and Immunity ◽

10.1128/iai.00952-06 ◽

2006 ◽

Vol 75 (1) ◽

pp. 299-305 ◽

Cited By ~ 44

Author(s):

M. Victoria Delpino ◽

María I. Marchesini ◽

Silvia M. Estein ◽

Diego J. Comerci ◽

Juliana Cassataro ◽

...

Keyword(s):

Bile Salt ◽

Brucella Abortus ◽

Type Strain ◽

Wild Type Strain ◽

Interleukin 2 ◽

Oral Route ◽

Bile Salt Hydrolase ◽

Wild Type ◽

Successful Infection

ABSTRACT Choloylglycine hydrolase (CGH), a bile salt hydrolase, has been annotated in all the available genomes of Brucella species. We obtained the Brucella CGH in recombinant form and demonstrated in vitro its capacity to cleave glycocholate into glycine and cholate. Brucella abortus 2308 (wild type) and its isogenic Δcgh deletion mutant exhibited similar growth rates in tryptic soy broth in the absence of bile. In contrast, the growth of the Δcgh mutant was notably impaired by both 5% and 10% bile. The bile resistance of the complemented mutant was similar to that of the wild-type strain. In mice infected through the intragastric or the intraperitoneal route, splenic infection was significantly lower at 10 and 20 days postinfection in animals infected with the Δcgh mutant than in those infected with the wild-type strain. For both routes, no differences in spleen CFU were found between animals infected with the wild-type strain and those infected with the complemented mutant. Mice immunized intragastrically with recombinant CGH mixed with cholera toxin (CGH+CT) developed a specific mucosal humoral (immunoglobulin G [IgG] and IgA) and cellular (interleukin-2) immune responses. Fifteen days after challenge by the same route with live B. abortus 2308 cells, splenic CFU counts were 10-fold lower in mice immunized with CGH+CT than in mice immunized with CT or phosphate-buffered saline. This study shows that CGH confers on Brucella the ability to resist the antimicrobial action of bile salts. The results also suggest that CGH may contribute to the ability of Brucella to infect the host through the oral route.

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Lipooligosaccharide Structure Contributes to Multiple Steps in the Virulence of Neisseria meningitidis

Infection and Immunity ◽

10.1128/iai.74.2.1360-1367.2006 ◽

2006 ◽

Vol 74 (2) ◽

pp. 1360-1367 ◽

Cited By ~ 44

Author(s):

Laura Plant ◽

Johanna Sundqvist ◽

Susu Zughaier ◽

Lena Lövkvist ◽

David S. Stephens ◽

...

Keyword(s):

Epithelial Cells ◽

Mouse Model ◽

Neisseria Meningitidis ◽

Type Strain ◽

Lipid A ◽

Wild Type Strain ◽

Inner Core ◽

Wild Type ◽

Proinflammatory Response

ABSTRACT Lipooligosaccharide (LOS) of Neisseria meningitidis has been implicated in meningococcal interaction with host epithelial cells and is a major factor contributing to the human proinflammatory response to meningococci. LOS mutants of the encapsulated N. meningitidis serogroup B strain NMB were used to further determine the importance of the LOS structure in in vitro adherence and invasion of human pharyngeal epithelial cells by meningococci and to study pathogenicity in a mouse (CD46 transgenic) model of meningococcal disease. The wild-type strain [NeuNAc-Galβ-GlcNAc-Galβ-Glcβ-Hep2 (GlcNAc, Glcα) 3-deoxy-d-manno-2-octulosonic acid (KDO2)-lipid A; 1,4′ bisphosphorylated], although poorly adherent, rapidly invaded an epithelial cell layer in vitro, survived and multiplied early in blood, reached the cerebrospinal fluid, and caused lethal disease in the mouse model. In contrast, the Hep2 (GlcNAc) KDO2-lipid A (pgm) mutant, which was highly adherent to cultured epithelial cells, caused significantly less bacteremia and mortality in the mouse model. The Hep2-KDO2-lipid A (rfaK) mutant was shown to be moderately adherent and to cause levels of bacteremia and mortality similar to those caused by the wild-type strain in the mouse model. The KDO2-lipid A (gmhB) mutant, which lacks the heptose disaccharide in the inner core of LOS, avidly attached to epithelial cells but was otherwise avirulent. Disease development correlated with expression of specific LOS structures and was associated with lower adherence but rapid meningococcal passage to and survival in the bloodstream, induction of proinflammatory cytokines, and the crossing of the blood-brain barrier. Taken together, the results of this study further define the importance of the LOS structure as a virulence component involved in multiple steps in the pathogenesis of N. meningitidis.

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Identification of Concomitant Infection with Chlamydia trachomatis IncA-Negative Mutant and Wild-Type Strains by Genomic, Transcriptional, and Biological Characterizations

Infection and Immunity ◽

10.1128/iai.00984-08 ◽

2008 ◽

Vol 76 (12) ◽

pp. 5438-5446 ◽

Cited By ~ 27

Author(s):

Robert J. Suchland ◽

Brendan M. Jeffrey ◽

Minsheng Xia ◽

Ajay Bhatia ◽

Hencelyn G. Chu ◽

...

Keyword(s):

Chlamydia Trachomatis ◽

Genome Sequence ◽

Type Strain ◽

Wild Type Strain ◽

Genomic Sequence ◽

Genomic Structure ◽

Transcriptional Analysis ◽

Clinical Samples ◽

Wild Type

ABSTRACT Clinical isolates of Chlamydia trachomatis that lack IncA on their inclusion membrane form nonfusogenic inclusions and have been associated with milder, subclinical infections in patients. The molecular events associated with the generation of IncA-negative strains and their roles in chlamydial sexually transmitted infections are not clear. We explored the biology of the IncA-negative strains by analyzing their genomic structure, transcription, and growth characteristics in vitro and in vivo in comparison with IncA-positive C. trachomatis strains. Three clinical samples were identified that contained a mixture of IncA-positive and -negative same-serovar C. trachomatis populations, and two more such pairs were found in serial isolates from persistently infected individuals. Genomic sequence analysis of individual strains from each of two serovar-matched pairs showed that these pairs were very similar genetically. In contrast, the genome sequence of an unmatched IncA-negative strain contained over 5,000 nucleotide polymorphisms relative to the genome sequence of a serovar-matched but otherwise unlinked strain. Transcriptional analysis, in vitro culture kinetics, and animal modeling demonstrated that IncA-negative strains isolated in the presence of a serovar-matched wild-type strain are phenotypically more similar to the wild-type strain than are IncA-negative strains isolated in the absence of a serovar-matched wild-type strain. These studies support a model suggesting that a change from an IncA-positive strain to the previously described IncA-negative phenotype may involve multiple steps, the first of which involves a translational inactivation of incA, associated with subsequent unidentified steps that lead to the observed decrease in transcript level, differences in growth rate, and differences in mouse infectivity.

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