Population genetics and microevolution of clinical Candida glabrata reveals recombinant sequence types and hyper-variation within mitochondrial genomes, virulence genes and drug-targets

Nicolas Helmstetter, Aleksandra D Chybowska, Christopher Delaney, Alessandra da Silva Dantas, Hugh Gifford, Theresa Wacker, Carol Munro, Adilia Warris, Brian L. Jones, Christina A Cuomo, Duncan Wilson, Gordon Ramage, Rhys A Farrer* (Corresponding Author)

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Candida glabrata is the second most common etiological cause of worldwide
systemic candidiasis in adult patients. Genome analysis of 68 isolates from 8
hospitals across Scotland, together with 83 global isolates, revealed insights into the population genetics and evolution of C. glabrata. Clinical isolates of C. glabrata from across Scotland are highly-genetically diverse, including at least separate sequence types (STs) that have been recovered previously in globally diverse locations, and one newly discovered ST. Several STs had evidence for ancestral recombination, suggesting transmission between distinct geographical regions has coincided with genetic exchange arising in new clades. Three isolates were missing MAT1, potentially representing a second mating type. Signatures of positive selection were identified in every ST including enrichment for Epithelial Adhesins (EPA) thought to facilitate fungal adhesion to human epithelial cells. In patent microevolution was identified from seven sets of recurrent cases of candidiasis, revealing an enrichment for non-synonymous and frameshift indels in cell surface proteins. Microevolution within patients also affected EPA genes, and several genes involved in drug resistance including the ergosterol synthesis gene ERG4 and the echinocandin target FKS1/2, the latter coinciding with a marked drop in fluconazole MIC. In addition to nuclear genome diversity, the C. glabrata mitochondrial genome was particularly diverse, appearing reduced in size and with fewer conserved protein encoding genes in all non-reference ST15 isolates. Together, this study highlights the genetic diversity present within the C. glabrata population that may impact virulence and drug resistance, and two major mechanisms generating this diversity: microevolution and genetic exchange/recombination.
Original languageEnglish
Article numberiyac031
JournalGenetics
Volume221
Issue number1
Early online date23 Feb 2022
DOIs
Publication statusPublished - May 2022

Keywords

  • Candida glabrata
  • genome sequencing
  • epidemiology
  • candidiasis
  • microevolution
  • mitochondria
  • drug-resistance
  • evolution

Fingerprint

Dive into the research topics of 'Population genetics and microevolution of clinical Candida glabrata reveals recombinant sequence types and hyper-variation within mitochondrial genomes, virulence genes and drug-targets'. Together they form a unique fingerprint.

Cite this