Microevolution of Serial Clinical Isolates of Cryptococcus neoformans var. grubii and C. gattii

The pathogenic species of are a major cause of mortality owing to severe infections in immunocompromised as well as immunocompetent individuals. Although antifungal treatment is usually effective, many patients relapse after treatment, and in such cases, comparative analyses of the genomes of incide...

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Published inmBio Vol. 8; no. 2
Main Authors Chen, Yuan, Farrer, Rhys A, Giamberardino, Charles, Sakthikumar, Sharadha, Jones, Alexander, Yang, Timothy, Tenor, Jennifer L, Wagih, Omar, Van Wyk, Marelize, Govender, Nelesh P, Mitchell, Thomas G, Litvintseva, Anastasia P, Cuomo, Christina A, Perfect, John R
Format Journal Article
LanguageEnglish
Published United States American Society for Microbiology 07.03.2017
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Summary:The pathogenic species of are a major cause of mortality owing to severe infections in immunocompromised as well as immunocompetent individuals. Although antifungal treatment is usually effective, many patients relapse after treatment, and in such cases, comparative analyses of the genomes of incident and relapse isolates may reveal evidence of determinative, microevolutionary changes within the host. Here, we analyzed serial isolates cultured from cerebrospinal fluid specimens of 18 South African patients with recurrent cryptococcal meningitis. The time between collection of the incident isolates and collection of the relapse isolates ranged from 124 days to 290 days, and the analyses revealed that, during this period within the patients, the isolates underwent several genetic and phenotypic changes. Considering the vast genetic diversity of cryptococcal isolates in sub-Saharan Africa, it was not surprising to find that the relapse isolates had acquired different genetic and correlative phenotypic changes. They exhibited various mechanisms for enhancing virulence, such as growth at 39°C, adaptation to stress, and capsule production; a remarkable amplification of at the native and unlinked locus may provide stable resistance to fluconazole. Our data provide a deeper understanding of the microevolution of species under pressure from antifungal chemotherapy and host immune responses. This investigation clearly suggests a promising strategy to identify novel targets for improved diagnosis, therapy, and prognosis. Opportunistic infections caused by species of the pathogenic yeast lead to chronic meningoencephalitis and continue to ravage thousands of patients with HIV/AIDS. Despite receiving antifungal treatment, over 10% of patients develop recurrent disease. In this study, we collected isolates of from cerebrospinal fluid specimens of 18 patients at the time of their diagnosis and when they relapsed several months later. We then sequenced and compared the genomic DNAs of each pair of initial and relapse isolates. We also tested the isolates for several key properties related to cryptococcal virulence as well as for their susceptibility to the antifungal drug fluconazole. These analyses revealed that the relapsing isolates manifested multiple genetic and chromosomal changes that affected a variety of genes implicated in the pathogenicity of or resistance to fluconazole. This application of comparative genomics to serial clinical isolates provides a blueprint for identifying the mechanisms whereby pathogenic microbes adapt within patients to prolong disease.
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Present address: Yuan Chen, Aperiomics, Inc., Ashburn, Virginia, USA.
This article is a direct contribution from a Fellow of the American Academy of Microbiology. External solicited reviewers: James Kronstad, University of British Columbia; Peter Williamson, National Institutes of Health.
ISSN:2161-2129
2150-7511
DOI:10.1128/mBio.00166-17