Studies of field- and patient-derived isolates conducted over the past 75 years have provided a general picture of the population structure of Coccidioides, the cause of coccidioidomycosis. Premolecular studies provided a general outline of the geographical range, epidemiology and distribution of the fungus. Recent studies based on molecular markers have demonstrated that the genus is comprised of two genetically diverse, and genetically isolated, species: Coccidioides immitis and C. posadasii. Both species are composed of biogeographically distinct populations. Structure for two of these populations (C. immitis from central California, and C. posadasii from southern Arizona) indicates that frequent genetic recombination occurs within the entire geographic range of each population, even though sex has never been observed in the genus. Outbreaks of coccidioidomycosis are not the result of the spread of a single clonal isolate, but are caused by a diversity of genotypes. Although it is now possible to match patient isolates to populations, the lack of apparent structure within each population and the current paucity of environmental isolates limit map-based epidemiological approaches to understanding outbreaks. Therefore, a comprehensive database comprised of soil-derived isolates from across the biogeographic range of Coccidioides will improve the utility of this approach. Appropriate collection of environmental isolates will assist the investigation of remaining questions regarding the population biology of Coccidioides. The comparative genomics of representative genotypes from both species and all populations of Coccidioides will provide a thorough set of genetic markers in order to resolve the population genetics of this pathogenic fungus.
Increasing coccidioidomycosis rates in Arizona may indicate the development of a hypervirulent strain. One hundred and twenty-one clinical Coccidioides spp. isolates were collected over 16 months from Maricopa, Graham, Yuma, and Pima counties in Arizona. The patient age distribution ranged from 9 to 91 years, with a median age of 58 years; 36% were female, and 64% male. All isolates were analyzed by measuring length polymorphisms in nine distinct microsatellite regions. The three microsatellites found to have the greatest discriminatory power for Coccidioides posadasii were: K03 (0.87), GA37 (0.83), and K01 (0.78). The majority of isolates (n=119) were C. posadasii. Duplicate isolates (n=28) from 13 patients showed single strain infections. Phylogenetic analysis of the microsatellite data showed no dominant microsatellite pattern. We conclude that the increase in reported cases of coccidioidomycosis in Arizona is not linked to a dominant, hypervirulent strain of Coccidioides posadasii.
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