Intracellular growth of Mycobacterium tuberculosis after macrophage cell death leads to serial killing of host cells

Deeqa Mahamed; Mikael Boulle; Yashica Ganga; Chanelle Mc Arthur; Steven Skroch; Lance Oom; Oana Catinas; Kelly Pillay; Myshnee Naicker; Sanisha Rampersad; Colisile Mathonsi; Jessica Hunter; Gopalkrishna Sreejit; Alexander S. Pym; Gila Lustig; Alex Sigal

doi:10.7554/eLife.22028

Intracellular growth of Mycobacterium tuberculosis after macrophage cell death leads to serial killing of host cells

Deeqa Mahamed
, Mikael Boulle
, Yashica Ganga
, Chanelle Mc Arthur
, Steven Skroch
, Lance Oom
, Oana Catinas
, Kelly Pillay
, Myshnee Naicker
, Sanisha Rampersad
, Colisile Mathonsi
, Jessica Hunter
, Gopalkrishna Sreejit
, Alexander S. Pym
, Gila Lustig
, Alex Sigal^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

114 Scopus citations

Abstract

A hallmark of pulmonary tuberculosis is the formation of macrophage-rich granulomas. These may restrict Mycobacterium tuberculosis (Mtb) growth, or progress to central necrosis and cavitation, facilitating pathogen growth. To determine factors leading to Mtb proliferation and host cell death, we used live cell imaging to track Mtb infection outcomes in individual primary human macrophages. Internalization of Mtb aggregates caused macrophage death, and phagocytosis of large aggregates was more cytotoxic than multiple small aggregates containing similar numbers of bacilli. Macrophage death did not result in clearance of Mtb. Rather, it led to accelerated intracellular Mtb growth regardless of prior activation or macrophage type. In contrast, bacillary replication was controlled in live phagocytes. Mtb grew as a clump in dead cells, and macrophages which internalized dead infected cells were very likely to die themselves, leading to a cell death cascade. This demonstrates how pathogen virulence can be achieved through numbers and aggregation states.

Original language	English
Article number	e22028
Journal	eLife
Volume	6
DOIs	https://doi.org/10.7554/eLife.22028
State	Published - 28 Jan 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© Mahamed et al.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

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10.7554/eLife.22028

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Mahamed, D., Boulle, M., Ganga, Y., Mc Arthur, C., Skroch, S., Oom, L., Catinas, O., Pillay, K., Naicker, M., Rampersad, S., Mathonsi, C., Hunter, J., Sreejit, G., Pym, A. S., Lustig, G., & Sigal, A. (2017). Intracellular growth of Mycobacterium tuberculosis after macrophage cell death leads to serial killing of host cells. eLife, 6, Article e22028. https://doi.org/10.7554/eLife.22028

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title = "Intracellular growth of Mycobacterium tuberculosis after macrophage cell death leads to serial killing of host cells",

abstract = "A hallmark of pulmonary tuberculosis is the formation of macrophage-rich granulomas. These may restrict Mycobacterium tuberculosis (Mtb) growth, or progress to central necrosis and cavitation, facilitating pathogen growth. To determine factors leading to Mtb proliferation and host cell death, we used live cell imaging to track Mtb infection outcomes in individual primary human macrophages. Internalization of Mtb aggregates caused macrophage death, and phagocytosis of large aggregates was more cytotoxic than multiple small aggregates containing similar numbers of bacilli. Macrophage death did not result in clearance of Mtb. Rather, it led to accelerated intracellular Mtb growth regardless of prior activation or macrophage type. In contrast, bacillary replication was controlled in live phagocytes. Mtb grew as a clump in dead cells, and macrophages which internalized dead infected cells were very likely to die themselves, leading to a cell death cascade. This demonstrates how pathogen virulence can be achieved through numbers and aggregation states.",

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AU - Mahamed, Deeqa

AU - Boulle, Mikael

AU - Ganga, Yashica

AU - Mc Arthur, Chanelle

AU - Skroch, Steven

AU - Oom, Lance

AU - Catinas, Oana

AU - Pillay, Kelly

AU - Naicker, Myshnee

AU - Rampersad, Sanisha

AU - Mathonsi, Colisile

AU - Hunter, Jessica

AU - Sreejit, Gopalkrishna

AU - Pym, Alexander S.

AU - Lustig, Gila

AU - Sigal, Alex

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N2 - A hallmark of pulmonary tuberculosis is the formation of macrophage-rich granulomas. These may restrict Mycobacterium tuberculosis (Mtb) growth, or progress to central necrosis and cavitation, facilitating pathogen growth. To determine factors leading to Mtb proliferation and host cell death, we used live cell imaging to track Mtb infection outcomes in individual primary human macrophages. Internalization of Mtb aggregates caused macrophage death, and phagocytosis of large aggregates was more cytotoxic than multiple small aggregates containing similar numbers of bacilli. Macrophage death did not result in clearance of Mtb. Rather, it led to accelerated intracellular Mtb growth regardless of prior activation or macrophage type. In contrast, bacillary replication was controlled in live phagocytes. Mtb grew as a clump in dead cells, and macrophages which internalized dead infected cells were very likely to die themselves, leading to a cell death cascade. This demonstrates how pathogen virulence can be achieved through numbers and aggregation states.

AB - A hallmark of pulmonary tuberculosis is the formation of macrophage-rich granulomas. These may restrict Mycobacterium tuberculosis (Mtb) growth, or progress to central necrosis and cavitation, facilitating pathogen growth. To determine factors leading to Mtb proliferation and host cell death, we used live cell imaging to track Mtb infection outcomes in individual primary human macrophages. Internalization of Mtb aggregates caused macrophage death, and phagocytosis of large aggregates was more cytotoxic than multiple small aggregates containing similar numbers of bacilli. Macrophage death did not result in clearance of Mtb. Rather, it led to accelerated intracellular Mtb growth regardless of prior activation or macrophage type. In contrast, bacillary replication was controlled in live phagocytes. Mtb grew as a clump in dead cells, and macrophages which internalized dead infected cells were very likely to die themselves, leading to a cell death cascade. This demonstrates how pathogen virulence can be achieved through numbers and aggregation states.

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SN - 2050-084X

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JO - eLife

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Intracellular growth of Mycobacterium tuberculosis after macrophage cell death leads to serial killing of host cells

Abstract

Bibliographical note

UN SDGs

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