Conservation of the sterol regulatory element-binding protein pathway and its pathobiological importance in cryptococcus neoformans

Yun C. Chang, Susham S. Ingavale, Clara Bien, Peter Espenshade, Kyung J. Kwon-Chung

Research output: Contribution to journalArticle

Abstract

The mammalian sterol regulatory element-binding protein (SREBP) homolog, Sre1, is important for adaptation and growth of Cryptococcus neoformans in the mouse brain, where oxygen concentration and nutritional conditions are suboptimal for fungal growth. The extent of conservation of the SREBP pathway in C. neoformans or in any other fungi, however, has not been investigated. We generated mutants susceptible to low oxygen and identified six genes that play a role in the SREBP pathway. Three of these genes (SFB2, KAP123, and GSK3) are not known to be involved in the SREBP pathway in other fungi. Furthermore, we show that C. neoformans contains an additional gene, DAM1, which functions in the SREBP pathway but is yet to be described. Mutants associated with the steps prior to formation of the nuclear Sre1 form dramatically reduced accumulation of the nuclear form under low-oxygen conditions. Concurrently, two mutant strains, scp1Δ and stp1Δ, and the previously isolated sre1Δ strain snowed reduction in ergo sterol levels, hypersensitivity to several chemical agents, including azole antifungals, CoCl2, and compounds producing reactive oxygen or nitrogen species, and most importantly, reduced virulence in mice. Mutants affecting genes involved in later steps of the Sre1 pathway, such as those required for import and phosphorylation of proteins in the nucleus, showed less compelling phenotypes. These findings suggest that the SREBP pathway is highly conserved in C. neoformans and it serves as an Important link between sterol biosynthesis, oxygen sensing, CoCl2 sensitivity, and virulence in C. neoformans.

Original languageEnglish (US)
Pages (from-to)1770-1779
Number of pages10
JournalEukaryotic Cell
Volume8
Issue number11
DOIs
StatePublished - Nov 2009

ASJC Scopus subject areas

  • Microbiology
  • Molecular Biology

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