Inhibition of the master regulator of Listeria monocytogenes virulence enables bacterial clearance from spacious replication vacuoles in infected macrophages

Thao Thanh Tran; Carmen D Mathmann; Marcela Gatica-Andrades; Rachel F Rollo; Melanie Oelker; Johanna K Ljungberg; Tam T K Nguyen; Alina Zamoshnikova; Lalith K Kummari; Orry J K Wyer; Katharine M Irvine; Javier Melo-Bolívar; Annette Gross; Darren Brown; Jeffrey Y W Mak; David P Fairlie; Karl A Hansford; Matthew A Cooper; Rabina Giri; Veronika Schreiber; Shannon R Joseph; Fiona Simpson; Timothy C Barnett; Jörgen Johansson; Wendy Dankers; James Harris; Timothy J Wells; Ronan Kapetanovic; Matthew J Sweet; Eleanor A Latomanski; Hayley J Newton; Romain J R Guérillot; Abderrahman Hachani; Timothy P Stinear; Sze Ying Ong; Yogeswari Chandran; Elizabeth L Hartland; Bostjan Kobe; Jennifer L Stow; A Elisabeth Sauer-Eriksson; Jakob Begun; Jessica C Kling; Antje Blumenthal

doi:https://doi.org/10.1371/journal.ppat.1010166

Inhibition of the master regulator of Listeria monocytogenes virulence enables bacterial clearance from spacious replication vacuoles in infected macrophages

Thao Thanh Tran, Carmen D Mathmann, Marcela Gatica-Andrades, Rachel F Rollo, Melanie Oelker, Johanna K Ljungberg, Tam T K Nguyen, Alina Zamoshnikova, Lalith K Kummari, Orry J K Wyer, Katharine M Irvine, Javier Melo-Bolívar, Annette Gross, Darren Brown, Jeffrey Y W Mak, David P Fairlie, Karl A Hansford, Matthew A Cooper, Rabina Giri, Veronika SchreiberShannon R Joseph, Fiona Simpson, Timothy C Barnett, Jörgen Johansson, Wendy Dankers, James Harris, Timothy J Wells, Ronan Kapetanovic, Matthew J Sweet, Eleanor A Latomanski, Hayley J Newton, Romain J R Guérillot, Abderrahman Hachani, Timothy P Stinear, Sze Ying Ong, Yogeswari Chandran, Elizabeth L Hartland, Bostjan Kobe, Jennifer L Stow, A Elisabeth Sauer-Eriksson, Jakob Begun, Jessica C Kling, Antje Blumenthal

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

Abstract

A hallmark of Listeria (L.) monocytogenes pathogenesis is bacterial escape from maturing entry vacuoles, which is required for rapid bacterial replication in the host cell cytoplasm and cell-to-cell spread. The bacterial transcriptional activator PrfA controls expression of key virulence factors that enable exploitation of this intracellular niche. The transcriptional activity of PrfA within infected host cells is controlled by allosteric coactivation. Inhibitory occupation of the coactivator site has been shown to impair PrfA functions, but consequences of PrfA inhibition for L. monocytogenes infection and pathogenesis are unknown. Here we report the crystal structure of PrfA with a small molecule inhibitor occupying the coactivator site at 2.0 Å resolution. Using molecular imaging and infection studies in macrophages, we demonstrate that PrfA inhibition prevents the vacuolar escape of L. monocytogenes and enables extensive bacterial replication inside spacious vacuoles. In contrast to previously described spacious Listeria-containing vacuoles, which have been implicated in supporting chronic infection, PrfA inhibition facilitated progressive clearance of intracellular L. monocytogenes from spacious vacuoles through lysosomal degradation. Thus, inhibitory occupation of the PrfA coactivator site facilitates formation of a transient intravacuolar L. monocytogenes replication niche that licenses macrophages to effectively eliminate intracellular bacteria. Our findings encourage further exploration of PrfA as a potential target for antimicrobials and highlight that intra-vacuolar residence of L. monocytogenes in macrophages is not inevitably tied to bacterial persistence.

Original language	English
Pages (from-to)	e1010166
Journal	PLoS pathogens
Volume	18
Issue number	1
DOIs	https://doi.org/10.1371/journal.ppat.1010166
Publication status	Published - Jan 2022
Externally published	Yes

Keywords

Animals
Female
Listeria monocytogenes/pathogenicity
Listeriosis/microbiology
Macrophages/microbiology
Male
Mice
Mice, Inbred C57BL
Vacuoles/microbiology
Virulence/physiology

Access to Document

https://doi.org/10.1371/journal.ppat.1010166

Cite this

Tran, T. T., Mathmann, C. D., Gatica-Andrades, M., Rollo, R. F., Oelker, M., Ljungberg, J. K., Nguyen, T. T. K., Zamoshnikova, A., Kummari, L. K., Wyer, O. J. K., Irvine, K. M., Melo-Bolívar, J., Gross, A., Brown, D., Mak, J. Y. W., Fairlie, D. P., Hansford, K. A., Cooper, M. A., Giri, R., ... Blumenthal, A. (2022). Inhibition of the master regulator of Listeria monocytogenes virulence enables bacterial clearance from spacious replication vacuoles in infected macrophages. PLoS pathogens, 18(1), e1010166. https://doi.org/10.1371/journal.ppat.1010166

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title = "Inhibition of the master regulator of Listeria monocytogenes virulence enables bacterial clearance from spacious replication vacuoles in infected macrophages",

abstract = "A hallmark of Listeria (L.) monocytogenes pathogenesis is bacterial escape from maturing entry vacuoles, which is required for rapid bacterial replication in the host cell cytoplasm and cell-to-cell spread. The bacterial transcriptional activator PrfA controls expression of key virulence factors that enable exploitation of this intracellular niche. The transcriptional activity of PrfA within infected host cells is controlled by allosteric coactivation. Inhibitory occupation of the coactivator site has been shown to impair PrfA functions, but consequences of PrfA inhibition for L. monocytogenes infection and pathogenesis are unknown. Here we report the crystal structure of PrfA with a small molecule inhibitor occupying the coactivator site at 2.0 {\AA} resolution. Using molecular imaging and infection studies in macrophages, we demonstrate that PrfA inhibition prevents the vacuolar escape of L. monocytogenes and enables extensive bacterial replication inside spacious vacuoles. In contrast to previously described spacious Listeria-containing vacuoles, which have been implicated in supporting chronic infection, PrfA inhibition facilitated progressive clearance of intracellular L. monocytogenes from spacious vacuoles through lysosomal degradation. Thus, inhibitory occupation of the PrfA coactivator site facilitates formation of a transient intravacuolar L. monocytogenes replication niche that licenses macrophages to effectively eliminate intracellular bacteria. Our findings encourage further exploration of PrfA as a potential target for antimicrobials and highlight that intra-vacuolar residence of L. monocytogenes in macrophages is not inevitably tied to bacterial persistence.",

keywords = "Animals, Female, Listeria monocytogenes/pathogenicity, Listeriosis/microbiology, Macrophages/microbiology, Male, Mice, Mice, Inbred C57BL, Vacuoles/microbiology, Virulence/physiology",

author = "Tran, {Thao Thanh} and Mathmann, {Carmen D} and Marcela Gatica-Andrades and Rollo, {Rachel F} and Melanie Oelker and Ljungberg, {Johanna K} and Nguyen, {Tam T K} and Alina Zamoshnikova and Kummari, {Lalith K} and Wyer, {Orry J K} and Irvine, {Katharine M} and Javier Melo-Bol{\'i}var and Annette Gross and Darren Brown and Mak, {Jeffrey Y W} and Fairlie, {David P} and Hansford, {Karl A} and Cooper, {Matthew A} and Rabina Giri and Veronika Schreiber and Joseph, {Shannon R} and Fiona Simpson and Barnett, {Timothy C} and J{\"o}rgen Johansson and Wendy Dankers and James Harris and Wells, {Timothy J} and Ronan Kapetanovic and Sweet, {Matthew J} and Latomanski, {Eleanor A} and Newton, {Hayley J} and Gu{\'e}rillot, {Romain J R} and Abderrahman Hachani and Stinear, {Timothy P} and Ong, {Sze Ying} and Yogeswari Chandran and Hartland, {Elizabeth L} and Bostjan Kobe and Stow, {Jennifer L} and Sauer-Eriksson, {A Elisabeth} and Jakob Begun and Kling, {Jessica C} and Antje Blumenthal",

year = "2022",

month = jan,

doi = "https://doi.org/10.1371/journal.ppat.1010166",

language = "English",

volume = "18",

pages = "e1010166",

journal = "PLoS pathogens",

issn = "1553-7366",

publisher = "Public Library of Science",

number = "1",

}

Tran, TT, Mathmann, CD, Gatica-Andrades, M, Rollo, RF, Oelker, M, Ljungberg, JK, Nguyen, TTK, Zamoshnikova, A, Kummari, LK, Wyer, OJK, Irvine, KM, Melo-Bolívar, J, Gross, A, Brown, D, Mak, JYW, Fairlie, DP, Hansford, KA, Cooper, MA, Giri, R, Schreiber, V, Joseph, SR, Simpson, F, Barnett, TC, Johansson, J, Dankers, W, Harris, J, Wells, TJ, Kapetanovic, R, Sweet, MJ, Latomanski, EA, Newton, HJ, Guérillot, RJR, Hachani, A, Stinear, TP, Ong, SY, Chandran, Y, Hartland, EL, Kobe, B, Stow, JL, Sauer-Eriksson, AE, Begun, J, Kling, JC & Blumenthal, A 2022, 'Inhibition of the master regulator of Listeria monocytogenes virulence enables bacterial clearance from spacious replication vacuoles in infected macrophages', PLoS pathogens, vol. 18, no. 1, pp. e1010166. https://doi.org/10.1371/journal.ppat.1010166

TY - JOUR

T1 - Inhibition of the master regulator of Listeria monocytogenes virulence enables bacterial clearance from spacious replication vacuoles in infected macrophages

AU - Tran, Thao Thanh

AU - Mathmann, Carmen D

AU - Gatica-Andrades, Marcela

AU - Rollo, Rachel F

AU - Oelker, Melanie

AU - Ljungberg, Johanna K

AU - Nguyen, Tam T K

AU - Zamoshnikova, Alina

AU - Kummari, Lalith K

AU - Wyer, Orry J K

AU - Irvine, Katharine M

AU - Melo-Bolívar, Javier

AU - Gross, Annette

AU - Brown, Darren

AU - Mak, Jeffrey Y W

AU - Fairlie, David P

AU - Hansford, Karl A

AU - Cooper, Matthew A

AU - Giri, Rabina

AU - Schreiber, Veronika

AU - Joseph, Shannon R

AU - Simpson, Fiona

AU - Barnett, Timothy C

AU - Johansson, Jörgen

AU - Dankers, Wendy

AU - Harris, James

AU - Wells, Timothy J

AU - Kapetanovic, Ronan

AU - Sweet, Matthew J

AU - Latomanski, Eleanor A

AU - Newton, Hayley J

AU - Guérillot, Romain J R

AU - Hachani, Abderrahman

AU - Stinear, Timothy P

AU - Ong, Sze Ying

AU - Chandran, Yogeswari

AU - Hartland, Elizabeth L

AU - Kobe, Bostjan

AU - Stow, Jennifer L

AU - Sauer-Eriksson, A Elisabeth

AU - Begun, Jakob

AU - Kling, Jessica C

AU - Blumenthal, Antje

PY - 2022/1

Y1 - 2022/1

N2 - A hallmark of Listeria (L.) monocytogenes pathogenesis is bacterial escape from maturing entry vacuoles, which is required for rapid bacterial replication in the host cell cytoplasm and cell-to-cell spread. The bacterial transcriptional activator PrfA controls expression of key virulence factors that enable exploitation of this intracellular niche. The transcriptional activity of PrfA within infected host cells is controlled by allosteric coactivation. Inhibitory occupation of the coactivator site has been shown to impair PrfA functions, but consequences of PrfA inhibition for L. monocytogenes infection and pathogenesis are unknown. Here we report the crystal structure of PrfA with a small molecule inhibitor occupying the coactivator site at 2.0 Å resolution. Using molecular imaging and infection studies in macrophages, we demonstrate that PrfA inhibition prevents the vacuolar escape of L. monocytogenes and enables extensive bacterial replication inside spacious vacuoles. In contrast to previously described spacious Listeria-containing vacuoles, which have been implicated in supporting chronic infection, PrfA inhibition facilitated progressive clearance of intracellular L. monocytogenes from spacious vacuoles through lysosomal degradation. Thus, inhibitory occupation of the PrfA coactivator site facilitates formation of a transient intravacuolar L. monocytogenes replication niche that licenses macrophages to effectively eliminate intracellular bacteria. Our findings encourage further exploration of PrfA as a potential target for antimicrobials and highlight that intra-vacuolar residence of L. monocytogenes in macrophages is not inevitably tied to bacterial persistence.

AB - A hallmark of Listeria (L.) monocytogenes pathogenesis is bacterial escape from maturing entry vacuoles, which is required for rapid bacterial replication in the host cell cytoplasm and cell-to-cell spread. The bacterial transcriptional activator PrfA controls expression of key virulence factors that enable exploitation of this intracellular niche. The transcriptional activity of PrfA within infected host cells is controlled by allosteric coactivation. Inhibitory occupation of the coactivator site has been shown to impair PrfA functions, but consequences of PrfA inhibition for L. monocytogenes infection and pathogenesis are unknown. Here we report the crystal structure of PrfA with a small molecule inhibitor occupying the coactivator site at 2.0 Å resolution. Using molecular imaging and infection studies in macrophages, we demonstrate that PrfA inhibition prevents the vacuolar escape of L. monocytogenes and enables extensive bacterial replication inside spacious vacuoles. In contrast to previously described spacious Listeria-containing vacuoles, which have been implicated in supporting chronic infection, PrfA inhibition facilitated progressive clearance of intracellular L. monocytogenes from spacious vacuoles through lysosomal degradation. Thus, inhibitory occupation of the PrfA coactivator site facilitates formation of a transient intravacuolar L. monocytogenes replication niche that licenses macrophages to effectively eliminate intracellular bacteria. Our findings encourage further exploration of PrfA as a potential target for antimicrobials and highlight that intra-vacuolar residence of L. monocytogenes in macrophages is not inevitably tied to bacterial persistence.

KW - Animals

KW - Female

KW - Listeria monocytogenes/pathogenicity

KW - Listeriosis/microbiology

KW - Macrophages/microbiology

KW - Male

KW - Mice

KW - Mice, Inbred C57BL

KW - Vacuoles/microbiology

KW - Virulence/physiology

U2 - https://doi.org/10.1371/journal.ppat.1010166

DO - https://doi.org/10.1371/journal.ppat.1010166

M3 - Article

C2 - 35007292

SN - 1553-7366

VL - 18

SP - e1010166

JO - PLoS pathogens

JF - PLoS pathogens

IS - 1

ER -