Abstract
Here we report a new real-time PCR assay using SYBR Green which provides higher sensitivity for the specific detection of low levels of Pneumocystis jirovecii. To do so, two primer sets were designed, targeting the family of genes that code for the most abundant surface protein of Pneumocystis spp., namely the major surface glycoproteins (Msg), and the mitochondrial large subunit rRNA (mtLSUrRNA) multicopy gene, simultaneously detecting two regions. PCR methods are instrumental in detecting these low levels; however, current nested-PCR methods are time-consuming and complex. To validate our new real-time Msg-A/mtLSUrRNA PCR protocol, we compared it with nested-PCR based on the detection of Pneumocystis mitochondrial large subunit rRNA (mtLSUrRNA), one of the main targets used to detect this pathogen. All samples identified as positive by the nested-PCR method were found positive using our new real-time PCR protocol, which also detected P. jirovecii in three nasal aspirate samples that were negative for both rounds of nested-PCR. Furthermore, we read both rounds of the nested-PCR results for comparison and found that some samples with no PCR amplification, or with a feeble band in the first round, correlated with higher Ct values in our real-time Msg-A/mtLSUrRNA PCR. This finding demonstrates the ability of this new single-round protocol to detect low Pneumocystis levels. This new assay provides a valuable alternative for P. jirovecii detection, as it is both rapid and sensitive.
Highlights
Pneumocystis jirovecii is an opportunistic fungal pathogen
PCR methods are instrumental in detecting low P. jirovecii levels, as colonization is characterized by a Detecting Low Pneumocystis jirovecii Levels low fungal burden in the respiratory tract, hampering its detection
Multiplex real-time PCR methods have been developed where more than one gene is detected to characterize P. jirovecii specific single-nucleotide polymorphisms located at different loci (Esteves et al, 2011; Montesinos et al, 2017)
Summary
Children represent one of the main reservoirs in humans but predominantly suffer subclinical infection; P. jirovecii detection is hindered given the absence of overt signs or symptoms (Morris et al, 2008) In this context, PCR methods are instrumental in detecting low P. jirovecii levels, as colonization is characterized by a Detecting Low Pneumocystis jirovecii Levels low fungal burden in the respiratory tract, hampering its detection. The two rounds of PCR make this technique highly sensitive, enabling the detection of low fungal burdens (Ponce et al, 2010; Özkoç et al, 2016) This nestedPCR is the method of choice for detecting low P. jirovecii loads in non-invasive samples such as oral lavage, nasopharyngeal aspirates, or in lung samples. Real-time PCR has several advantages, including relatively rapid assay times (hours), reliability, and ease of replicating analyses
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