Abstract

Abstract During Mycobacterium tuberculosis (Mtb) infection, bacteria are inhaled into the lung where they first infect resident, alveolar macrophages (AM). The majority of the infection remains in AM until D14, when other cells, including recruited monocyte-derived macrophages (MDM) begin to become infected. By the peak of infection (D28) MDM represent the major infected cell type. However, even at this time point, a small population of infected AM remain. This led us to ask how these cell types control Mtb. Using microscopy, we observed that AM harbor more bacteria than MDM on a per cell basis at multiple time points, including after the initiation of the T cell response. Using RNA-seq, we identified multiple differentially expressed pathways between the two cell types. While infected MDM upregulate proinflammatory signaling pathways associated with Mtb control, infected AM are enriched for proliferation and fatty acid metabolism pathways. We performed validation studies using dyes to track cell division and mitochondrial metabolism and observed that AM were more proliferative and had sustained engagement of mitochondrial metabolism relative to MDM. In parallel, we analyzed the bacterial transcriptome and found that Mtb in MDM have a signature associated with late hypoxia. These bacterial responses also suggested that Mtb may differ in its drug tolerance in a cell type specific manner, which we are currently investigating. Together, this work is in agreement with other studies demonstrating differences in the response to Mtb by tissue resident and recruited macrophages and suggests that these differences may lead to distinct transcriptional changes in the bacteria, which could have important implications for therapeutic interventions.

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