Abstract
Infected zebrafish coordinates defensive and offensive molecular mechanisms in response to Candida albicans infections, and invasive C. albicans coordinates corresponding molecular mechanisms to interact with the host. However, knowledge of the ensuing infection-activated signaling networks in both host and pathogen and their interspecific crosstalk during the innate and adaptive phases of the infection processes remains incomplete. In the present study, dynamic network modeling, protein interaction databases, and dual transcriptome data from zebrafish and C. albicans during infection were used to infer infection-activated host–pathogen dynamic interaction networks. The consideration of host–pathogen dynamic interaction systems as innate and adaptive loops and subsequent comparisons of inferred innate and adaptive networks indicated previously unrecognized crosstalk between known pathways and suggested roles of immunological memory in the coordination of host defensive and offensive molecular mechanisms to achieve specific and powerful defense against pathogens. Moreover, pathogens enhance intraspecific crosstalk and abrogate host apoptosis to accommodate enhanced host defense mechanisms during the adaptive phase. Accordingly, links between physiological phenomena and changes in the coordination of defensive and offensive molecular mechanisms highlight the importance of host–pathogen molecular interaction networks, and consequent inferences of the host–pathogen relationship could be translated into biomedical applications.
Highlights
The importance of host–pathogen interactions (HPIs) was recently highlighted in the infection process [1,2,3,4]
Most of host and pathogen proteins are common to innate and adaptive phases, whereas their interactions differ significantly between the two phases. Both host and pathogen use differing interactions between similar sets of proteins to respond to challenges during innate and adaptive phases
Some positive interspecific interactions were identified in the adaptive phase, indicating enhanced host offenses that are specific to C. albicans
Summary
The importance of host–pathogen interactions (HPIs) was recently highlighted in the infection process [1,2,3,4]. The gap between infection-activated molecular mechanisms and physiological phenomena restricts the translation of the knowledge from HPIs to biomedical. We used dual transcriptome data to simultaneously record the temporal gene expression profiles of the host (zebrafish) and pathogen (Candida albicans) during innate and adaptive phases of infection. These experiments allowed the analysis of the coordination of host and pathogen defensive and offensive molecular mechanisms in both phases. Dynamic host–pathogen protein–protein interaction networks (HP-PPINs) can be used to bridge the gap between infection-activated molecular mechanisms and physiological phenomena.
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