Toxoplasma strikes preemptively to swiftly suppress macrophage immune response during active infection

The apicomplexan parasite Toxoplasma gondii is known to manipulate its host in multiple ways, ranging from proteins secreted into the host cell to hormone balance disruption and behavioral changes. Host immune system is crucial in managing the outcome with macrophages as part of the first line of defense. However, the initial triggers that ultimately result in characteristic complex responses and, at times, health hazards, remain poorly understood. This study focuses on filling the gaps in our knowledge of acute transcriptomic changes taking place in a mouse macrophage T. gondii infection model. We performed time-resolved transcriptomic profiling to simultaneously capture host and parasite gene expression profiles during the course of infection, focusing on the initial time frame of fifteen to 120 minutes, a crucial window for the host to activate innate immunity but also for the parasite to establish within the host macrophage. Further, utilization of inactivated parasite stimulation enabled dissection of transcriptomic response to active parasite infection from innate immune responses. Here, we observed that macrophages upregulate transcripts encoding suppressors of cytokine signaling by 30 minutes, specific to live parasite infection. Additionally, both pro-growth and stress marker genes were dysregulated. Concurrently, transcriptional response of T. gondii was milder in magnitude, with initial changes pointing at increasing transcription and growth capacity, followed by a delayed transcriptional response pertaining to secreted proteins. Taken together, these results demonstrate that macrophages mount a rapid transcriptional response upon active invasion by T. gondii . In contrast, the delayed transcriptional activation in the invading Toxoplasma highlights its reliance on alternative regulatory mechanisms to establish its replicative niche within the host.