Journal of Fungi (Apr 2023)

Whole-Genome Sequence Analysis of <i>Candida glabrata</i> Isolates from a Patient with Persistent Fungemia and Determination of the Molecular Mechanisms of Multidrug Resistance

  • Ha Jin Lim,
  • Min Ji Choi,
  • Seung A. Byun,
  • Eun Jeong Won,
  • Joo Heon Park,
  • Yong Jun Choi,
  • Hyun-Jung Choi,
  • Hyun-Woo Choi,
  • Seung-Jung Kee,
  • Soo Hyun Kim,
  • Myung Geun Shin,
  • Seung Yeob Lee,
  • Mi-Na Kim,
  • Jong Hee Shin

DOI
https://doi.org/10.3390/jof9050515
Journal volume & issue
Vol. 9, no. 5
p. 515

Abstract

Read online

Whole-genome sequencing (WGS) was used to determine the molecular mechanisms of multidrug resistance for 10 serial Candida glabrata bloodstream isolates obtained from a neutropenic patient during 82 days of amphotericin B (AMB) or echinocandin therapy. For WGS, a library was prepared and sequenced using a Nextera DNA Flex Kit (Illumina) and the MiseqDx (Illumina) instrument. All isolates harbored the same Msh2p substitution, V239L, associated with multilocus sequence type 7 and a Pdr1p substitution, L825P, that caused azole resistance. Of six isolates with increased AMB MICs (≥2 mg/L), three harboring the Erg6p A158fs mutation had AMB MICs ≥ 8 mg/L, and three harboring the Erg6p R314K, Erg3p G236D, or Erg3p F226fs mutation had AMB MICs of 2–3 mg/L. Four isolates harboring the Erg6p A158fs or R314K mutation had fluconazole MICs of 4–8 mg/L while the remaining six had fluconazole MICs ≥ 256 mg/L. Two isolates with micafungin MICs > 8 mg/L harbored Fks2p (I661_L662insF) and Fks1p (C499fs) mutations, while six isolates with micafungin MICs of 0.25–2 mg/L harbored an Fks2p K1357E substitution. Using WGS, we detected novel mechanisms of AMB and echinocandin resistance; we explored mechanisms that may explain the complex relationship between AMB and azole resistance.

Keywords