Abstract
Ongoing health care-associated outbreaks of the multidrug-resistant yeast Candida auris have prompted the development of several rapid DNA-based molecular diagnostic tests. These tests do not distinguish between live and dead C. auris cells, limiting their use for environmental surveillance and containment efforts. We addressed this critical gap by developing a reverse transcription (RT)-quantitative real-time PCR (RT-qPCR) assay to rapidly detect live C. auris in health care environments. This assay targeted the internal transcribed spacer 2 (ITS2) ribosomal gene by obtaining pure RNA followed by reverse transcription (ITS2 cDNA) and qPCR. ITS2 cDNA was not detectable in bleach-killed cells but was detectable in heat- and ethanol-killed C. auris cells. The assay was highly sensitive, with a detection limit of 10 CFU per RT-qPCR. Validation studies yielded positive cycle threshold (C(T)) values from sponge matrix samples spiked with 10(2) to 10(5) CFU of live C. auris, while dead (bleach-killed) C. auris (10(5)/mL) or other live Candida species (10(5)/mL) had no C(T) values. Finally, 33 environmental samples positive for C. auris DNA but negative by culture were all negative by RT-qPCR assay, confirming the concordance between culture and the PCR assay. The RT-qPCR assay appears highly reproducible, robust, and specific for detecting live C. auris from environmental samples. The Candida auris RT-qPCR assay could be an invaluable tool in surveillance efforts to control the spread of live C. auris in health care environments.