Phenotypic Switching in Candida glabrata Involves Phase-Specific Regulation of the Metallothionein Gene MT-II and the Newly Discovered Hemolysin Gene HLP

doi:10.1128/IAI.68.2.884-895.2000

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Infection and Immunity, February 2000, p. 884-895, Vol. 68, No. 2
0019-9567/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.

Phenotypic Switching in Candida glabrata Involves Phase-Specific Regulation of the Metallothionein Gene MT-II and the Newly Discovered Hemolysin Gene HLP

Salil A. Lachke, Thyagarajan Srikantha, Luong K. Tsai, Karla Daniels, and David R. Soll^*

Department of Biological Sciences, The University of Iowa, Iowa City, Iowa 52242

Received 17 September 1999/Returned for modification 15 October 1999/Accepted 29 October 1999

Although Candida glabrata has emerged in recent years as a major fungal pathogen, there have been no reports demonstratingthat it undergoes either the bud-hypha transition or high-frequencyphenotypic switching, two developmental programs believed to contributeto the pathogenic success of other Candida species. Here it isdemonstrated that C. glabrata undergoes reversible, high-frequencyphenotypic switching between a white (Wh), light brown (LB), anddark brown (DB) colony phenotype discriminated on an indicatoragar containing 1 mM CuSO₄. Switching regulates the transcriptlevel of the MT-II metallothionein gene(s) and a newly discoveredgene for a hemolysin-like protein, HLP. The relative MT-II transcriptlevels in Wh, LB, and DB cells grown in the presence of CuSO₄are 1:27:81, and the relative transcript levels of HLP are 1:20:35.The relative MT-II and HLP transcript levels in cells grown inthe absence of CuSO₄ are 1:20:30 and 1:20:25, respectively. Incontrast, switching has little or no effect on the transcriptlevels of the genes MT-I, AMT-I, TRPI, HIS3, EPAI, and PDHI. Switchingof C. glabrata is not associated with microevolutionary changesidentified by the DNA fingerprinting probe Cg6 and does not involvetandem amplification of the MT-IIa gene, which has been shownto occur in response to elevated levels of copper. Finally, switchingbetween Wh, LB, and DB occurred in all four clinical isolatesexamined in this study. As in Candida albicans, switching in C.glabrata may provide colonizing populations with phenotypic plasticityfor rapid responses to the changing physiology of the host, antibiotictreatment, and the immune response, through the differential regulationof genes involved in pathogenesis. More importantly, because C.glabrata is haploid, a mutational analysis of switching is nowfeasible.

^* Corresponding author. Mailing address: Department of Biological Sciences, The University of Iowa, Iowa City, IA 52242. Phone:(319) 335-1117. Fax: (319) 335-2772. E-mail: david-soll{at}uiowa.edu.

Infection and Immunity, February 2000, p. 884-895, Vol. 68, No. 2
0019-9567/00/$04.00+0
Copyright © 2000, American Society for Microbiology. All rights reserved.

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