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Molecular mechanisms of antimicrobial resistance and population dynamics of Neisseria gonorrhoeae in Saskatchewan (2003-2011)2013 September 1900 (has links)
Gonorrhea is caused by the human pathogen Neisseria gonorrhoeae. More than 106 million new cases of N. gonorrhoeae infections occur each year worldwide. There is no vaccine available against gonococcal infections and treatment of gonorrhea with antibiotics is the only way to eradicate infection. The high prevalence of antibiotic resistance (AMR) in this microorganism makes the effective treatment of gonococcal infections increasingly problematic. The emergence of AMR, especially to extended spectrum cephalosporins (i.e. cefixime and ceftriaxone) which are the last possibilities for single dose treatment options for gonococcal infections, is a serious concern. Gonorrhea may become an untreatable infection in the near future.
Saskatchewan (SK) has one of the highest rates of gonorrhea in Canada. In order to better characterize the gonorrhea epidemic in SK, the objectives of the present research were to determine the prevalence and trends of AMR and emerging AMR mechanisms in N. gonorrhoeae isolates. AMR mechanisms were ascertained for the first time in SK in order to identify genetic causes of resistance. This was completed by determining and analyzing the DNA sequences of various genes - penA, mtrR, porB ponA, gyrA, parC mtrR, 23S rRNA alleles and erm –implicated in gonococcal AMR. The population dynamics of the N. gonorrhoeae isolates in SK was investigated by DNA based molecular methods to determine strain distribution, evolution of AMR phenotypes, and association between strain types (STs) and AMR genotypes and phenotypes.
N. gonorrhoeae isolates (n=427) from Saskatchewan (2003-2011) were susceptible to antibiotics now recommended for treatment - cefixime, ceftriaxone and spectinomycin. Over 95% of the isolates tested were also susceptible to penicillin (96%) and ciprofloxacin (95.5%), antibiotics no longer recommended for treatment, and azithromycin (99.4%). Tetracycline resistance was also high (50.1%).
N. gonorrhoeae isolates that were resistant to the antibiotics tested and also those isolates with MICs ≥0.003 mg/L to cefixime and ceftriaxone were analyzed (n=146) to determine their resistance mechanisms. This analysis revealed that reduced susceptibility to ceftriaxone and cefixime and resistance to penicillin is mediated by specific mutations in penicillin binding protein 2 (PBP2), in the promoter and dimerization domains of MtrR and porin protein (PorB). Novel mutations and combinations of mutations were noted. Ciprofloxacin resistant N. gonorrhoeae isolates carried double mutations in GyrA (S91F and D95G/N) and a S87R or S88P substitution in ParC. Isolates resistant to azithromycin had specific mutations in all the four alleles of 23S rRNA as well as in the DNA binding domain of MtrR. Most resistance was chromosomally mediated while plasmid-mediated resistance to penicillin (0.93% of penicillin resistant isolates) and tetracycline (3.3%) was low.
DNA based strain typing methods such as porB-DNA sequencing, N. gonorrhoeae multi-antigen sequence typing (NG-MAST) and multilocus sequence typing (MLST) showed that the gonococcal population in SK differs appreciably from both other Canadian provinces and from strains reported internationally. MLST analysis, which ascertains the evolution of isolates over time, demonstrated that penicillin and tetracycline resistant isolates in SK evolved through spontaneous mutations in established lineages. Ciprofloxacin and azithromycin resistant N. gonorrhoeae isolates, on the other hand, were introduced into SK from outside the province. Significant associations between particular mutation pattern combinations in resistance determining genes and specific NG-MAST STs were identified e.g. NG-MAST ST 25 was associated with specific combined mutation patterns in PBP2, MtrR and PorB and antibiotic susceptibility; and, NG-MAST ST 3654 was associated with another PBP2/MtrR/PorB mutation pattern, chromosomal resistance to penicillin and tetracycline and elevated MICs to cefixime.
This research shows the importance of regional antimicrobial susceptibility monitoring. In the context of SK, this means that local surveillance of gonococcal AMR may be used to develop policies for regional treatment guidelines which promote the prudent use of antimicrobials for treatment, including those antibiotics which may no longer be used in other regions due to higher AMR rates. Further, the significant association between particular AMR mutation pattern combinations and specific STs indicates that AMR might be predicted. These results should assist in the development of non-culture-based tests for the diagnosis of gonococcal AMR similar to nucleic acid amplification tests used to diagnose N. gonorrhoeae infections.
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Molecular epidemiology and molecular mechanisms of antimicrobial resistance in <i>Neisseria gonorrhoeae</i> in China : implications for disease controlLiao, Mingmin 22 June 2011
Gonorrhea, caused by the human pathogen Neisseria gonorrhoeae, is a severe public health problem worldwide with more than 82 million new infections each year. N. gonorrhoeae is transmitted by sexual contact and primarily causes urogenital mucosal infections in men and women. Left untreated, this infection may cause severe complications, especially in females. Eye infections of the newborn can occur. Gonorrhea infections enhance HIV transmission. The highly prevalent antibiotic resistance and the emergence of new drug resistances render treatment of the infections increasingly difficult. Close monitoring of antimicrobial susceptibility of this pathogen is crucial, and enhanced knowledge of molecular mechanisms of gonococcal antimicrobial resistance is urgently needed. There are no vaccines available against N. gonorrhoeae. Control of gonorrhea relies on comprehensive strategies which can be better formulated by understanding, at molecular levels, how N. gonorrhoeae is transmitted in communities.
My research aimed to illustrate the severe burden of antimicrobial resistance in N. gonorrhoeae temporally and geographically in China and to reveal the molecular mechanisms of antibiotic resistance particularly the development of reduced susceptibility to ceftriaxone in N. gonorrhoeae isolates. To determine specific strain distributions, N. gonorrhoeae isolates were characterized using molecular typing methods such as a modified porB-based typing scheme and the N. gonorrhoeae Multi-Antigen Typing (NG-MAST) method, compared to traditional epidemiological approaches. The ultimate goal was to provide information for better formulating disease control strategies for gonorrhea.
In this research, male patients with gonorrhea and their sex partners were recruited in Shanghai (2005 and 2008) and in Urumchi (2007-2008), China. Epidemiological information pertaining to sexual contacts was collected. N. gonorrhoeae isolates were investigated for their antimicrobial susceptibility. Molecular mechanisms of antimicrobial resistance were explored by analysis of potential resistant determinants (gyrA, parC, porB, mtrR, ponA and penA). The molecular data were combined with bioinformatic analysis and traditional epidemiological data.
High percentages of N. gonorrhoeae isolates (11% - 19% in Shanghai, 4.5% in Urumchi) exhibited reduced susceptibility to ceftriaxone (MICs = 0.125-0.25 mg/L), the first line drug recommended for the treatment of gonorrhea in China. The majority of isolates (>98%) were susceptible to spectinomycin, an alternative regimen for gonorrhea treatment; however, the proportion of isolates having intermediate levels of susceptibility increased from 1.9% in 2005 to 9.9% in 2008. The majority of isolates tested were resistant to penicillin (80% - 93%), tetracycline (56% - 65%) and ciprofloxacin (98% - 100%). Plasmid-mediated resistance in N. gonorrhoeae isolates were highly prevalent (51% - 79%) in Shanghai and Urumchi.
Analysis of 60 clinical isolates revealed that reduced susceptibility to ceftriaxone is mediated by porB1b allele and is associated with specific mutations in penicillin binding protein 2 and in the DNA binding and dimerization domains of MtrR. Penicillin binding protein 1 is not involved in reduced susceptibility to ceftriaxone. Although mutation patterns in quinolone resistant determinant regions (QRDRs) varied, the majority of ciprofloxacin resistant isolates had double mutations in GyrA (S91F and D95G/A/N) and most isolates also carried a S87R/N mutation in ParC. The presence of mutations in the QRDR of ParC is correlated with elevated ciprofloxacin MICs.
A modified porB-based molecular typing scheme was developed and involved ~82% of the DNA sequence of gonococcal porB. This typing method proved to have high discriminatory ability (index of discrimination = 0.93 0.96), and was cost effective and easy to perform as compared to the NG-MAST analysis. Using the modified porB-based typing method, N. gonorrhoeae isolates were reliably differentiated, and transmission clusters were identified. Molecular epidemiology using the porB-based method confirmed direct sexual connections and identified sexual networks otherwise unrevealed by the patient self-reporting or traditional case-tracing methods.
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Molecular epidemiology and molecular mechanisms of antimicrobial resistance in <i>Neisseria gonorrhoeae</i> in China : implications for disease controlLiao, Mingmin 22 June 2011 (has links)
Gonorrhea, caused by the human pathogen Neisseria gonorrhoeae, is a severe public health problem worldwide with more than 82 million new infections each year. N. gonorrhoeae is transmitted by sexual contact and primarily causes urogenital mucosal infections in men and women. Left untreated, this infection may cause severe complications, especially in females. Eye infections of the newborn can occur. Gonorrhea infections enhance HIV transmission. The highly prevalent antibiotic resistance and the emergence of new drug resistances render treatment of the infections increasingly difficult. Close monitoring of antimicrobial susceptibility of this pathogen is crucial, and enhanced knowledge of molecular mechanisms of gonococcal antimicrobial resistance is urgently needed. There are no vaccines available against N. gonorrhoeae. Control of gonorrhea relies on comprehensive strategies which can be better formulated by understanding, at molecular levels, how N. gonorrhoeae is transmitted in communities.
My research aimed to illustrate the severe burden of antimicrobial resistance in N. gonorrhoeae temporally and geographically in China and to reveal the molecular mechanisms of antibiotic resistance particularly the development of reduced susceptibility to ceftriaxone in N. gonorrhoeae isolates. To determine specific strain distributions, N. gonorrhoeae isolates were characterized using molecular typing methods such as a modified porB-based typing scheme and the N. gonorrhoeae Multi-Antigen Typing (NG-MAST) method, compared to traditional epidemiological approaches. The ultimate goal was to provide information for better formulating disease control strategies for gonorrhea.
In this research, male patients with gonorrhea and their sex partners were recruited in Shanghai (2005 and 2008) and in Urumchi (2007-2008), China. Epidemiological information pertaining to sexual contacts was collected. N. gonorrhoeae isolates were investigated for their antimicrobial susceptibility. Molecular mechanisms of antimicrobial resistance were explored by analysis of potential resistant determinants (gyrA, parC, porB, mtrR, ponA and penA). The molecular data were combined with bioinformatic analysis and traditional epidemiological data.
High percentages of N. gonorrhoeae isolates (11% - 19% in Shanghai, 4.5% in Urumchi) exhibited reduced susceptibility to ceftriaxone (MICs = 0.125-0.25 mg/L), the first line drug recommended for the treatment of gonorrhea in China. The majority of isolates (>98%) were susceptible to spectinomycin, an alternative regimen for gonorrhea treatment; however, the proportion of isolates having intermediate levels of susceptibility increased from 1.9% in 2005 to 9.9% in 2008. The majority of isolates tested were resistant to penicillin (80% - 93%), tetracycline (56% - 65%) and ciprofloxacin (98% - 100%). Plasmid-mediated resistance in N. gonorrhoeae isolates were highly prevalent (51% - 79%) in Shanghai and Urumchi.
Analysis of 60 clinical isolates revealed that reduced susceptibility to ceftriaxone is mediated by porB1b allele and is associated with specific mutations in penicillin binding protein 2 and in the DNA binding and dimerization domains of MtrR. Penicillin binding protein 1 is not involved in reduced susceptibility to ceftriaxone. Although mutation patterns in quinolone resistant determinant regions (QRDRs) varied, the majority of ciprofloxacin resistant isolates had double mutations in GyrA (S91F and D95G/A/N) and most isolates also carried a S87R/N mutation in ParC. The presence of mutations in the QRDR of ParC is correlated with elevated ciprofloxacin MICs.
A modified porB-based molecular typing scheme was developed and involved ~82% of the DNA sequence of gonococcal porB. This typing method proved to have high discriminatory ability (index of discrimination = 0.93 0.96), and was cost effective and easy to perform as compared to the NG-MAST analysis. Using the modified porB-based typing method, N. gonorrhoeae isolates were reliably differentiated, and transmission clusters were identified. Molecular epidemiology using the porB-based method confirmed direct sexual connections and identified sexual networks otherwise unrevealed by the patient self-reporting or traditional case-tracing methods.
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