Clinical Relevance of Multiple Single-Nucleotide Polymorphisms in Pneumocystis jirovecii Pneumonia: Development of a Multiplex PCR-Single-Base-Extension Methodology

Esteves, Francisco; Gaspar, Jorge; Sousa, Bruno de; Antúnes, Francisco; Kamal, Mehnaz; Matos, Olga

doi:10.1128/jcm.02303-10

Cited by 35 publications

(47 citation statements)

References 37 publications

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“…It has been suggested that the epidemiological factors inherent in geographical locations may influence the transmission and circulation of different P. jirovecii genotypes (8,28,37).…”

Section: Discussionmentioning

confidence: 99%

Prevalence and Genotype Distribution of Pneumocystis jirovecii in Cuban Infants and Toddlers with Whooping Cough

et al. 2014

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e This study describes the prevalence and genotype distribution of Pneumocystis jirovecii obtained from nasopharyngeal (NP) swabs from immunocompetent Cuban infants and toddlers with whooping cough (WC). A total of 163 NP swabs from 163 young Cuban children with WC who were admitted to the respiratory care units at two pediatric centers were studied. The prevalence of the organism was determined by a quantitative PCR (qPCR) assay targeting the P. jirovecii mitochondrial large subunit (mtLSU) rRNA gene. Genotypes were identified by direct sequencing of mtLSU ribosomal DNA (rDNA) and restriction fragment length polymorphism (RFLP) analysis of the dihydropteroate synthase (DHPS) gene amplicons. qPCR detected P. jirovecii DNA in 48/163 (29.4%) samples. mtLSU rDNA sequence analysis revealed the presence of three different genotypes in the population. Genotype 2 was most common (48%), followed in prevalence by genotypes 1 (23%) and 3 (19%); mixed-genotype infections were seen in 10% of the cases. RFLP analysis of DHPS PCR products revealed four genotypes, 18% of which were associated with resistance to sulfa drugs. Only contact with coughers (prevalence ratio [PR], 3.51 [95% confidence interval {CI}, 1.79 to 6.87]; P ‫؍‬ 0.000) and exposure to tobacco smoke (PR, 1.82 [95% CI, 1.14 to 2.92]; P ‫؍‬ 0.009) were statistically associated with being colonized by P. jirovecii. The prevalence of P. jirovecii in infants and toddlers with WC and the genotyping results provide evidence that this population represents a potential reservoir and transmission source of P. jirovecii.

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“…It has been suggested that the epidemiological factors inherent in geographical locations may influence the transmission and circulation of different P. jirovecii genotypes (8,28,37).…”

Section: Discussionmentioning

confidence: 99%

Prevalence and Genotype Distribution of Pneumocystis jirovecii in Cuban Infants and Toddlers with Whooping Cough

et al. 2014

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“…Studies from other sites have failed to find nonsynonomous mutations in DHFR from P. jirovecii, suggesting failure of therapy is not uniquely linked to mutations in DHFR (7)(8)(9)(10). Although DHPS mutations apparently contribute to clinical failure by conferring resistance to sulfamethoxazole (1,2), the appearance of mutations in both DHPS and DHFR in clinical isolates and the apparently more frequent development of DHFR mutations among patients who did receive prophylaxis that included an inhibitor of DHFR suggest a selection pressure is exerted on DHFR by exposure to trimethoprim or pyrimethamine (2).…”

mentioning

confidence: 99%

“…Mutations leading to amino acid substitutions in DHPS have been linked to resistance to sulfamethoxazole (1). Mutations leading to amino acid substitutions in dihydrofolate reductase of Pneumocystis jirovecii have also been observed worldwide for over a decade, but attempts to link clinical outcomes to these mutations have been inconclusive (2)(3)(4)(5)(6)(7)(8)(9)(10).…”

mentioning

confidence: 99%

Trimethoprim Resistance of Dihydrofolate Reductase Variants from Clinical Isolates of Pneumocystis jirovecii

Queener

Cody

Pace

et al. 2013

Antimicrob Agents Chemother

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dPneumocystis jirovecii is an opportunistic pathogen that causes serious pneumonia in immunosuppressed patients. Standard therapy and prophylaxis include trimethoprim (TMP)-sulfamethoxazole; trimethoprim in this combination targets dihydrofolate reductase (DHFR). Fourteen clinically observed variants of P. jirovecii DHFR were produced recombinantly to allow exploration of the causes of clinically observed failure of therapy and prophylaxis that includes trimethoprim. Six DHFR variants (S31F, F36C, L65P, A67V, V79I, and I158V) showed resistance to inhibition by trimethoprim, with K i values for trimethoprim 4-fold to 100-fold higher than those for the wild-type P. jirovecii DHFR. An experimental antifolate with more conformational flexibility than trimethoprim showed strong activity against one trimethoprim-resistant variant. The two variants that were most resistant to trimethoprim (F36C and L65P) also had increased K m values for dihydrofolic acid (DHFA). The catalytic rate constant (k cat ) was unchanged for most variant forms of P. jirovecii DHFR but was significantly lowered in F36C protein; one naturally occurring variant with two amino acid substitutions (S106P and E127G) showed a doubling of k cat , as well as a K m for NADPH half that of the wild type. The strongest resistance to trimethoprim occurred with amino acid changes in the binding pocket for DHFA or trimethoprim, and the strongest effect on binding of NADPH was linked to a mutation involved in binding the phosphate group of the cofactor. This study marks the first confirmation that naturally occurring mutations in the gene for DHFR from P. jirovecii produce variant forms of DHFR that are resistant to trimethoprim and may contribute to clinically observed failures of standard therapy or prophylaxis.

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“…However, some studies on Pneumocystis genetic diversity have reported significant association between some singlenucleotide polymorphisms (SNPs) and clinical parameters in patient with PcP. Notably, SNPs at position 110 and 215 in the sod locus were described and associated with favourable outcome of PcP (SOD215C ) (Esteves et al 2010) or a lower parasite burden (SOD215C/SOD110T) (Esteves et al 2011(Esteves et al , 2012. The mitochondrial MnSOD is probably not the unique component of the Pneumocystis antioxidant system (Fig 6).…”

Section: Discussionmentioning

confidence: 96%

Complementation of a manganese-dependent superoxide dismutase-deficient yeast strain with Pneumocystis carinii sod2 gene

Khalife¹,

Aliouat²,

Gantois³

et al. 2014

Fungal Biology

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Clinical Relevance of Multiple Single-Nucleotide Polymorphisms in Pneumocystis jirovecii Pneumonia: Development of a Multiplex PCR-Single-Base-Extension Methodology

Cited by 35 publications

References 37 publications

Prevalence and Genotype Distribution of Pneumocystis jirovecii in Cuban Infants and Toddlers with Whooping Cough

Prevalence and Genotype Distribution of Pneumocystis jirovecii in Cuban Infants and Toddlers with Whooping Cough

Trimethoprim Resistance of Dihydrofolate Reductase Variants from Clinical Isolates of Pneumocystis jirovecii

Complementation of a manganese-dependent superoxide dismutase-deficient yeast strain with Pneumocystis carinii sod2 gene

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