Cryptococcus neoformans, Unlike Candida albicans, Forms Aneuploid Clones Directly from Uninucleated Cells under Fluconazole Stress

Heteroresistance to fluconazole (FLC) in is a transient adaptive resistance which is lost upon release from the drug pressure. It is known that clones heteroresistant to FLC invariably contain disomic chromosomes, but how disomy is formed remains unclear. Previous reports suggested that the aneuploi...

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Bibliographic Details
Published in:mBio 2018-12, Vol.9 (6)
Main Authors: Chang, Yun C, Khanal Lamichhane, Ami, Kwon-Chung, Kyung J
Format: Article
Language:English
Subjects:
aneuploid
Aneuploidy
Antifungal Agents - pharmacology
Candida albicans - drug effects
Cell Cycle Proteins - genetics
chromosomal endoduplication
Chromosomal Proteins, Non-Histone - genetics
Chromosome Segregation
Cryptococcus neoformans - drug effects
Cryptococcus neoformans - genetics
Cryptococcus neoformans - physiology
Drug Resistance, Fungal - genetics
fluconazole
Fluconazole - pharmacology
heteroresistance
Host-Microbe Biology
Mitosis
nondisjunction
Time-Lapse Imaging
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Summary:Heteroresistance to fluconazole (FLC) in is a transient adaptive resistance which is lost upon release from the drug pressure. It is known that clones heteroresistant to FLC invariably contain disomic chromosomes, but how disomy is formed remains unclear. Previous reports suggested that the aneuploid heteroresistant colonies in emerge from multinucleated cells, resembling the case in Although a small number of cells containing multiple nuclei appear in a short time after FLC treatment, we provide evidence that the heteroresistant colonies in the presence of FLC arise from uninucleate cells without involving multinuclear/multimeric stages. We found that fidelity of chromosome segregation in mitosis plays an important role in regulation of FLC heteroresistance frequency in Although FLC-resistant colonies occurred at a very low frequency, we were able to modulate the frequency of heteroresistance by overexpressing which encodes a protein containing an SMC domain in chromosome segregation. Using time-lapse microscopy, we captured the entire process of colony formation from a single cell in the presence of FLC. All the multinucleated cells formed within a few hours of FLC exposure failed to multiply after a few cell divisions, and the cells able to proliferate to form colonies were all uninucleate without exception. Furthermore, no nuclear fusion event or asymmetric survival between mother and daughter cells, a hallmark of chromosome nondisjunction in haploid organisms, was observed. Therefore, the mechanisms of aneuploidy formation in appear different from most common categories of aneuploid formation known for yeasts. The gold standard of cryptococcosis treatment consists of induction therapy with amphotericin B followed by lifelong maintenance therapy with fluconazole (FLC). However, prolonged exposure to FLC induces the emergence of clones heteroresistant to azoles. All the heteroresistant clones thus far analyzed have been shown to be aneuploids, but how the aneuploid is formed remains unclear. Aneuploidy in fungi and other eukaryotic cells is known to result most commonly from chromosome missegregation during cell division due to defects in any one of the multiple components and processes that are required for the formation of two genetically identical daughter cells. Although formation of multinucleated cells has been observed in cells exposed to FLC, evidence for the emergence of drug-resistant aneuploid populations directly from such cells has been lac
ISSN:2161-2129
2150-7511
DOI:10.1128/mBio.01290-18