Sequence analysis of Pneumocystis jiroveci internal transcribed spacer (ITS) regions has become an important epidemiological tool. The objectives of the present study were to investigate sequence variations in the ITS1-5.8S ribosomal DNA (rDNA)-ITS2 regions; determine the P. jiroveci genotypes present in Cape Town, South Africa; and resolve the lineage evolution of the types by use of the coalescent theory. ITS regions were amplified from samples collected from 19 patients. PCR products were cloned, and four to five clones were sequenced from each specimen. Statistical parsimony was applied for coalescence-based network genotype analysis. The most prevalent type was Eg (14 of 19 patients, 33 of 83 clones), followed by Gg (4 of 19 patients, 7 of 83 clones), Eu (3 of 19 patients, 5 of 83 clones), and Gh (2 of 19 patients, 2 of 83 clones). Four new combinations (Eo, Je, Ge, and No), 11 new ITS1 sequences, and 13 new ITS2 sequences were identified. A new ITS2 type was detected in three patients and was designated type u. Coinfection appeared to be common, with 15 of 19 patients harboring more than one type and with up to six types per specimen. The resultant parsimony network identified Eg as the most probable ancestral haplotype and supported the occurrence of recombinational events within the population studied. Although the 5.8S rDNA region revealed only 13 clones containing one to two nucleotide polymorphisms, it may assist in defining types. Coalescent theory proposed that Eg is an ancestral type from which microevolutionary subtypes radiate.Pneumocystis pneumonia (PCP) is a major contributor to morbidity and mortality in immunocompromised individuals (16,18). Many molecular epidemiological techniques are not applicable for the typing of Pneumocystis, as it cannot readily be propagated in vitro. Regions that have been investigated for use in the design of a typing method include the mitochondrial large-subunit rRNA, mitochondrial small-subunit rRNA, the arom locus, and internal transcribed spacer (ITS) regions (21). The sequence diversity of the Pneumocystis jiroveci ITS1 and ITS2 regions prompted these regions to be the basis on which typing of P. jiroveci could be conducted (10). Ribosomal DNA (rDNA) of P. jiroveci is present as a single copy in the cell and is transcribed as a single transcript, with 18S rRNA, 5.8S rRNA, and 26S rRNA occurring in tandem (4). The rRNA genes are separated by the ITS1 region between 18S rRNA and 5.8S rRNA and the ITS2 region between 5.8S rRNA and 26S rRNA (3, 6). Globally, the most frequently encountered genotypes are Eg and Ne (9, 20, 21). Latouche et al. (8) proposed that as a specific type was seen to persist during the same episode of PCP, genotype switching did not occur. However, in a study conducted with 19 patients during the same episode of PCP, genotype changes were observed in 53% of the patients (5) and coinfection with more than one genotype has been reported in a high proportion of PCP episodes (10,12,14,20,21,22). The present understanding is that P. jiroveci inf...
