Abstract
The mechanisms by which micro-organisms sense and internalize extracellular pH signals are not completely understood. One example of a known external pH-sensing process is the fungal-specific Rim/Pal signal transduction pathway. Fungi, such as the opportunistic pathogen Cryptococcus neoformans, use Rim signaling to sense and respond to changes in environmental pH. Mutations in this pathway result in strains that are attenuated for survival at alkaline pH, and often for survival within the host. Here, we used an insertional mutagenesis screen to identify novel genes required for C. neoformans growth at host pH. We discovered altered alkaline pH growth in several strains with specific defects in plasma membrane composition and maintenance of phospholipid assembly. Among these, loss of function of the Cdc50 lipid flippase regulatory subunit affected the temporal dynamics of Rim pathway activation. We defined distinct and overlapping cellular processes regulated by Rim101 and Cdc50 through analysis of the transcriptome in these mutant strains. We further explored how pH-induced membrane changes affect membrane-bound pH-sensing proteins, specifically the C-terminal domain of the Rra1 protein, an upstream Rim pathway activator and pH sensor. These results suggest both broadly applicable and phylum-specific molecular interactions that drive microbial environmental sensing.
Highlights
A key virulence attribute of any microbial pathogen is the ability to rapidly adapt to the conditions of the infected host
We identified that a relationship between the newly identified C. neoformans Cdc50 lipid flippase regulatory subunit influences the temporal dynamics of Rim pathway activation
We could distinguish between pH-sensitivity due to Rim pathway dysfunction and that due to more general alkaline pH growth defects
Summary
A key virulence attribute of any microbial pathogen is the ability to rapidly adapt to the conditions of the infected host. In C. albicans, the proper activation of Rim101 is required for the transition from a yeast to hyphal form, which is necessary for infection and dissemination (Davis et al, 2000; Cornet et al, 2009; Cornet and Gaillardin, 2014) In another opportunistic fungal pathogen, Aspergillus fumigatus, the Rim101 ortholog (PacC) is required for effective infection in a murine model of aspergillosis, which is characterized by conidial germination and hyphal growth within the host bronchioles and surrounding lung tissue (Dagenais and Keller, 2009; Bertuzzi et al, 2014). The Rim pathway has been well described in the model ascomycete Saccharomyces cerevisiae, especially for its role in surviving alkaline pH stress (Lamb et al, 2001; Mira et al, 2009; Selvig and Alspaugh, 2011)
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