TY - JOUR T1 - Exposure to the oral host niche yields rapid phenotypic and genotypic diversification in <em>Candida albicans</em> JF - bioRxiv DO - 10.1101/254201 SP - 254201 AU - A. Forche AU - G. Cromie AU - A.C. Gerstein AU - N. V. Solis AU - Z. Pisithkul AU - W. Srifa AU - E. Jeffery AU - S.G. Filler AU - A.M. Dudley AU - J. Berman Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/01/25/254201.abstract N2 - In vitro studies suggest that stress may generate random standing variation, and that different cellular and ploidy states may evolve more rapidly under stress. Yet this idea has not been tested with pathogenic fungi growing within their host niche in vivo. Here, we analyzed the generation of both genotypic and phenotypic diversity during exposure of Candida albicans to the mouse oral cavity. Ploidy, aneuploidy, loss of heterozygosity (LOH) and recombination were determined using flow cytometry and ddRADseq. Colony phenotypic changes (CPs) in size and filamentous growth were evident without selection, and were enriched among colonies selected for LOH of the GAL1 marker. Aneuploidy and LOH occurred on all chromosomes (Chrs), with aneuploidy more frequent for smaller Chrs and whole Chr LOH more frequent for larger Chrs. Large genome shifts in ploidy to haploidy often maintained one or more heterozygous disomic Chrs, consistent with random Chr missegregation events. Most isolates displayed several different types of genomic changes, suggesting that the oral environment rapidly generates diversity de novo. In sharp contrast, following in vitro propagation isolates were not enriched for multiple LOH events, except in those that underwent haploidization and/or had high levels of Chr loss. The frequency of events was overall 100 times higher for C. albicans populations following in vivo passage compared to in vitro. These hyperdiverse in vivo isolates likely provide C. albicans with the ability to adapt rapidly to the diversity of stress environments it encounters inside the host.Author summary Adaption is a continuous dynamic process that requires genotypic and phenotypic variation. Here we studied the effects of a single passage in a mouse oropharyngeal model of infection on the appearance of diversity in C. albicans, a common commensal of the human oral cavity and GI tract. We found that variation could be rapidly detected following oral colonization, with the frequency of genome change being considerably higher with pre-selection for recombination and colony phenotypic changes. Importantly, one third of all isolates had multiple genome changes, significantly higher than expected by chance alone. We suggest that some cells in the population are naturally hypervariable and that they are a major source of diversity upon which selection can act in stressful conditions in vivo and in vitro. ER -