Mycobacterium tuberculosis programs mesenchymal stem cells to establish dormancy and persistence
Samreen Fatima, … , Sujata Mohanty, Gobardhan Das
Samreen Fatima, … , Sujata Mohanty, Gobardhan Das
Published October 24, 2019
Citation Information: J Clin Invest. 2020;130(2):655-661. https://doi.org/10.1172/JCI128043.
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Concise Communication Infectious disease

Mycobacterium tuberculosis programs mesenchymal stem cells to establish dormancy and persistence

Abstract

Tuberculosis (TB) remains a major infectious disease worldwide. TB treatment displays a biphasic bacterial clearance, in which the majority of bacteria clear within the first month of treatment, but residual bacteria remain nonresponsive to treatment and eventually may become resistant. Here, we have shown that Mycobacterium tuberculosis was taken up by mesenchymal stem cells (MSCs), where it established dormancy and became highly nonresponsive to isoniazid, a major constituent of directly observed treatment short course (DOTS). Dormant M. tuberculosis induced quiescence in MSCs and promoted their long-term survival. Unlike macrophages, where M. tuberculosis resides in early-phagosomal compartments, in MSCs the majority of bacilli were found in the cytosol, where they promoted rapid lipid synthesis, hiding within lipid droplets. Inhibition of lipid synthesis prevented dormancy and sensitized the organisms to isoniazid. Thus, we have established that M. tuberculosis gains dormancy in MSCs, which serve as a long-term natural reservoir of dormant M. tuberculosis. Interestingly, in the murine model of TB, induction of autophagy eliminated M. tuberculosis from MSCs, and consequently, the addition of rapamycin to an isoniazid treatment regimen successfully attained sterile clearance and prevented disease reactivation.

Authors

Samreen Fatima, Shashank Shivaji Kamble, Ved Prakash Dwivedi, Debapriya Bhattacharya, Santosh Kumar, Anand Ranganathan, Luc Van Kaer, Sujata Mohanty, Gobardhan Das

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Figure 2

M. tuberculosis promotes host lipid synthesis and resides in lipid bodies, which is essential for maintaining latency in MSCs.

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M. tuberculosis promotes host lipid synthesis and resides in lipid bodi...
(A) Confocal microscopy images showing M. tuberculosis (M.tb) localization in macrophages (THP-1) (early endosomes: Rab5) and human MSCs (cytosol: phalloidin) after 6 hours of M. tuberculosis–GFP infection. Each image is representative of at least 30 fields. (B) Percentage colocalization of M. tuberculosis–GFP with Rab5 and phalloidin in macrophages (THP-1) and human MSCs. Calculation was performed by taking the average percentage colocalization of M. tuberculosis–GFP with Rab5 and phalloidin in macrophages (THP-1) and human MSCs (30 fields each). (C) Confocal microscopy images showing colocalization of M. tuberculosis–GFP with lipid bodies (LipidTox) in macrophages (THP-1) and human MSCs at 72 hours. Scale bars (A and C): 25 μm. (D) Percentage colocalization of M. tuberculosis–GFP with lipid bodies in both macrophages (THP-1) and human MSCs. (E) Mean intensity of lipid bodies stained with LipidTox in macrophages (THP-1) and human MSCs after infection with M. tuberculosis–GFP. (F) Transmission electron microscopy images of human MSCs infected with M. tuberculosis, 72 hours after infection. Lipid droplets (arrowheads) and M. tuberculosis (asterisk) are indicated. Original magnification, ×9900 (left) and ×19,500 (right). (G) Heatmap showing the relative expression of genes involved in sphingolipid synthesis in uninfected and M. tuberculosis–infected human MSCs at 48 hours and 96 hours. (H) Relative expression of dormancy genes of M. tuberculosis in infected human MSCs treated with or without triacsin C (0.05 μM) at 72 hours after infection. (I) Relative expression of replicative genes of M. tuberculosis inside human MSCs treated with or without triacsin C (0.05 μM) compared with macrophages (THP-1). These experiments are representative of 3 independent experiments with triplicate samples. Human MSCs were derived from 5 donors. Data in B, D, and E were analyzed by 2-tailed unpaired t test, and the remaining data were analyzed by 2-way ANOVA followed by Bonferroni’s post hoc test. Error bars represent SEM. ***P < 0.001, **P < 0.01, *P < 0.05. NS, P > 0.05.