Abstract
Candida albicans is the most prevalent opportunistic fungal pathogen in humans causing superficial and serious systemic infections. The infection process can be divided into three stages: adhesion, invasion, and host cell damage. To enhance our understanding of these C. albicans infection stages, this study aimed to predict phenotype-associated genes involved during these three infection stages and their roles in C. albicans–host interactions. In light of the principles that proteins that lie closer to one another in a protein interaction network are more likely to have similar functions, and that genes regulated by the same transcription factors tend to have similar functions, a cellular network approach was proposed to predict the phenotype-associated genes in this study. A total of 4, 12, and 3 genes were predicted as adhesion-, invasion-, and damage-associated genes during C. albicans infection, respectively. These predicted genes highlight the facts that cell surface components are critical for cell adhesion, and that morphogenesis is crucial for cell invasion. In addition, they provide targets for further investigations into the mechanisms of the three C. albicans infection stages. These results give insights into the responses elicited in C. albicans during interaction with the host, possibly instrumental in identifying novel therapies to treat C. albicans infection.
Highlights
Candida albicans is the most prevalent opportunistic fungal pathogen in humans
According to the constructed cellular networks and the experimentally validated gene pools, 4, 12, and 3 genes were predicted as adhesion, invasion, and damage-associated genes during C. albicans infection (Figure 3)
Candida albicans infection has emerged as significant cause of mortality in humans
Summary
Candida albicans is the most prevalent opportunistic fungal pathogen in humans. It can cause superficial infections in the oral and vaginal mucosa as well as life-threatening systemic infections [1]. The last stage is characterized by substantial cell damage and destruction of host tissues [5]. Using specific gene deletion mutants, Wachtler et al assessed the ability of each mutant to adhere to, invade, and cause damage in host cells. They successfully determined the extent of the contribution of each gene in the adhesion, invasion, and damage phenotypes during C. albicans infection, the construction of mutant strains is laborintensive and time-consuming. We aimed to predict phenotype-associated genes whose molecular functions may be responsible for the phenotypes of three infection stages in order to enhance our understanding of C. albicans infection
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