Abstract
Tuberculosis (TB) is a persistent global pandemic, and standard treatment for it has not changed for 30 years. Mycobacterium tuberculosis (Mtb) has undergone prolonged coevolution with humans, and patients can control Mtb even after extensive infection, demonstrating the fine balance between protective and pathological host responses within infected granulomas. We hypothesized that whole transcriptome analysis of human TB granulomas isolated by laser capture microdissection could identify therapeutic targets, and that comparison with a noninfectious granulomatous disease, sarcoidosis, would identify disease-specific pathological mechanisms. Bioinformatic analysis of RNAseq data identified numerous shared pathways between TB and sarcoidosis lymph nodes, and also specific clusters demonstrating TB results from a dysregulated inflammatory immune response. To translate these insights, we compared 3 primary human cell culture models at the whole transcriptome level and demonstrated that the 3D collagen granuloma model most closely reflected human TB disease. We investigated shared signaling pathways with human disease and identified 12 intracellular enzymes as potential therapeutic targets. Sphingosine kinase 1 inhibition controlled Mtb growth, concurrently reducing intracellular pH in infected monocytes and suppressing inflammatory mediator secretion. Immunohistochemical staining confirmed that sphingosine kinase 1 is expressed in human lung TB granulomas, and therefore represents a host therapeutic target to improve TB outcomes.
Highlights
Tuberculosis (TB) kills 1.4 million people each year, and in 2019 it was the leading cause of mortality due to a single infectious agent [1]
Through a combination of transcriptomic analysis of treatment-naive clinical lymph node samples alongside a biomimetic TB granuloma model, this study explored processes dysregulated in human TB and identified novel potential therapeutic pathways
Sphingosine kinase 1 (SphK1) emerged as an important regulator, with inhibition of SphK1 leading to rapid Mycobacterium tuberculosis (Mtb) death and suppression of inflammatory mediator secretion
Summary
Tuberculosis (TB) kills 1.4 million people each year, and in 2019 it was the leading cause of mortality due to a single infectious agent [1]. TB primarily affects young people of working age, resulting in a disproportionately high socioeconomic burden. Mycobacterium tuberculosis (Mtb) causes TB and has undergone prolonged coevolution with humans, essentially resulting in a symbiotic. Conflict of interest: NK has served as a consultant to Biogen Idec, Boehringer Ingelheim, Third Rock, Pliant, Samumed, NuMedii, Theravance, LifeMax, Three Lake Partners, Optikira, Astra Zeneca, Veracyte, Augmanity, and CSL Behring, and reports equity in Pliant and grants from Veracyte, Boehringer Ingelheim, and Bristol Myers Squibb.
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