Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress

Magdalena Podkowik; Andrew I Perault; Gregory Putzel; Andrew Pountain; Jisun Kim; Ashley DuMont; Erin Zwack; Robert J Ulrich; Theodora K Karagounis; Chunyi Zhou; Andreas F Haag; Julia Shenderovich; Gregory A Wasserman; Junbeom Kwon; John Chen; Anthony R. Richardson; Jeffrey N Weiser; Carla R Nowosad; Desmond S Lun; Xilin Zhao; Dane Parker; Alejandro Pironti; Xilin Zhao; Karl Drlica; Itai Yanai; Victor J Torres; Bo Shopsin

doi:10.1101/2023.06.08.544038

Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress

Magdalena Podkowik, Andrew I Perault, Gregory Putzel, Andrew Pountain, Jisun Kim, Ashley DuMont, Erin Zwack, Robert J Ulrich, Theodora K Karagounis, Chunyi Zhou, Andreas F Haag, Julia Shenderovich, Gregory A Wasserman, Junbeom Kwon, John Chen, Anthony R. Richardson, Jeffrey N Weiser, Carla R Nowosad, Desmond S Lun, Xilin ZhaoDane Parker, Alejandro Pironti, Xilin Zhao, Karl Drlica, Itai Yanai, Victor J Torres, Bo Shopsin^*

^*Corresponding author for this work

Research output: Working paper › Preprint

Abstract

The agr quorum-sensing system links Staphylococcus aureus metabolism to virulence, in part by increasing bacterial survival during exposure to lethal concentrations of H₂O₂, a crucial host defense against S. aureus. We now report that protection by agr surprisingly extends beyond post-exponential growth to the exit from stationary phase when the agr system is no longer turned on. Thus, agr can be considered a constitutive protective factor. Deletion of agr increased both respiration and aerobic fermentation but decreased ATP levels and growth, suggesting that Δagr cells assume a hyperactive metabolic state in response to reduced metabolic efficiency. As expected from increased respiratory gene expression, reactive oxygen species (ROS) accumulated more in the agr mutant than in wild-type cells, thereby explaining elevated susceptibility of Δagr strains to lethal H2O2 doses. Increased survival of wild-type agr cells during H₂O₂ exposure required sodA, which detoxifies superoxide. Additionally, pretreatment of S. aureus with respiration-reducing menadione protected Δagr cells from killing by H₂O₂. Thus, genetic deletion and pharmacologic experiments indicate that agr helps control endogenous ROS, thereby providing resilience against exogenous ROS. The long-lived “memory” of agr-mediated protection, which is uncoupled from agr activation kinetics, increased hematogenous dissemination to certain tissues during sepsis in ROS-producing, wild-type mice but not ROS-deficient (Nox2^−/−) mice. These results demonstrate the importance of protection that anticipates impending ROS-mediated immune attack. The ubiquity of quorum sensing suggests that it protects many bacterial species from oxidative damage.

Original language	English
Publisher	bioRxiv
Number of pages	64
DOIs	https://doi.org/10.1101/2023.06.08.544038
Publication status	Published - 8 Jun 2023

Keywords

Quorum-sensing
Reactive oxygen species (ROS)
Peroxide (H2O2)
Staphylococcus aureus

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10.1101/2023.06.08.544038Licence: CC BY-NC-ND

Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress (dataset)
Haag, A. (Creator), NCBI GenBank, 2023
https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE207045
Dataset

Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress
Podkowik, M., Perault, A. I., Putzel, G., Pountain, A., Kim, J., DuMont, A. L., Zwack, E. E., Ulrich, R. J., Karagounis, T. K., Zhou, C., Haag, A. F., Shenderovich, J., Wasserman, G. A., Kwon, J., Chen, J., Richardson, A. R., Weiser, J. N., Nowosad, C. R., Lun, D. S. & Parker, D. & 6 others, Pironti, A., Zhao, X., Drlica, K., Yanai, I., Torres, V. J. & Shopsin, B., 30 Apr 2024, In: eLife. 12, 32 p., RP89098.
Research output: Contribution to journal › Article › peer-review

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Podkowik, M., Perault, A. I., Putzel, G., Pountain, A., Kim, J., DuMont, A., Zwack, E., Ulrich, R. J., Karagounis, T. K., Zhou, C., Haag, A. F., Shenderovich, J., Wasserman, G. A., Kwon, J., Chen, J., Richardson, A. R., Weiser, J. N., Nowosad, C. R., Lun, D. S., ... Shopsin, B. (2023). Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress. bioRxiv. https://doi.org/10.1101/2023.06.08.544038

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title = "Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress",

abstract = "The agr quorum-sensing system links Staphylococcus aureus metabolism to virulence, in part by increasing bacterial survival during exposure to lethal concentrations of H2O2, a crucial host defense against S. aureus. We now report that protection by agr surprisingly extends beyond post-exponential growth to the exit from stationary phase when the agr system is no longer turned on. Thus, agr can be considered a constitutive protective factor. Deletion of agr increased both respiration and aerobic fermentation but decreased ATP levels and growth, suggesting that Δagr cells assume a hyperactive metabolic state in response to reduced metabolic efficiency. As expected from increased respiratory gene expression, reactive oxygen species (ROS) accumulated more in the agr mutant than in wild-type cells, thereby explaining elevated susceptibility of Δagr strains to lethal H2O2 doses. Increased survival of wild-type agr cells during H2O2 exposure required sodA, which detoxifies superoxide. Additionally, pretreatment of S. aureus with respiration-reducing menadione protected Δagr cells from killing by H2O2. Thus, genetic deletion and pharmacologic experiments indicate that agr helps control endogenous ROS, thereby providing resilience against exogenous ROS. The long-lived “memory” of agr-mediated protection, which is uncoupled from agr activation kinetics, increased hematogenous dissemination to certain tissues during sepsis in ROS-producing, wild-type mice but not ROS-deficient (Nox2−/−) mice. These results demonstrate the importance of protection that anticipates impending ROS-mediated immune attack. The ubiquity of quorum sensing suggests that it protects many bacterial species from oxidative damage.",

keywords = "Quorum-sensing, Reactive oxygen species (ROS), Peroxide (H2O2), Staphylococcus aureus",

author = "Magdalena Podkowik and Perault, \{Andrew I\} and Gregory Putzel and Andrew Pountain and Jisun Kim and Ashley DuMont and Erin Zwack and Ulrich, \{Robert J\} and Karagounis, \{Theodora K\} and Chunyi Zhou and Haag, \{Andreas F\} and Julia Shenderovich and Wasserman, \{Gregory A\} and Junbeom Kwon and John Chen and Richardson, \{Anthony R.\} and Weiser, \{Jeffrey N\} and Nowosad, \{Carla R\} and Lun, \{Desmond S\} and Xilin Zhao and Dane Parker and Alejandro Pironti and Xilin Zhao and Karl Drlica and Itai Yanai and Torres, \{Victor J\} and Bo Shopsin",

note = "Funding: This work was supported by 759 NIH National Institute of Allergy and Infectious Diseases grants R01AI137336 (B.S., I.Y., and 760 V.J.T.); R01AI140754 (B.S. and V.J.T.); R01AI150893 and R01AI038446 (J.N.W.); R01AI149350 761 (V.J.T.); K08AI163457 (R.J.U.), and R21AI153646 (D.P.); New Jersey Health Foundation PC 142- 762 22 and New Jersey Commission on Cancer Research COCR22RBG005 grants (D. P.); and funds 763 from the NYU Langone Health Antimicrobial-Resistant Pathogens Program (B.S., A.P., and V.J.T.).",

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month = jun,

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doi = "10.1101/2023.06.08.544038",

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Podkowik, M, Perault, AI, Putzel, G, Pountain, A, Kim, J, DuMont, A, Zwack, E, Ulrich, RJ, Karagounis, TK, Zhou, C, Haag, AF, Shenderovich, J, Wasserman, GA, Kwon, J, Chen, J, Richardson, AR, Weiser, JN, Nowosad, CR, Lun, DS, Zhao, X, Parker, D, Pironti, A, Zhao, X, Drlica, K, Yanai, I, Torres, VJ & Shopsin, B 2023 'Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress' bioRxiv. https://doi.org/10.1101/2023.06.08.544038

TY - UNPB

T1 - Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress

AU - Podkowik, Magdalena

AU - Perault, Andrew I

AU - Putzel, Gregory

AU - Pountain, Andrew

AU - Kim, Jisun

AU - DuMont, Ashley

AU - Zwack, Erin

AU - Ulrich, Robert J

AU - Karagounis, Theodora K

AU - Zhou, Chunyi

AU - Haag, Andreas F

AU - Shenderovich, Julia

AU - Wasserman, Gregory A

AU - Kwon, Junbeom

AU - Chen, John

AU - Richardson, Anthony R.

AU - Weiser, Jeffrey N

AU - Nowosad, Carla R

AU - Lun, Desmond S

AU - Zhao, Xilin

AU - Parker, Dane

AU - Pironti, Alejandro

AU - Zhao, Xilin

AU - Drlica, Karl

AU - Yanai, Itai

AU - Torres, Victor J

AU - Shopsin, Bo

N1 - Funding: This work was supported by 759 NIH National Institute of Allergy and Infectious Diseases grants R01AI137336 (B.S., I.Y., and 760 V.J.T.); R01AI140754 (B.S. and V.J.T.); R01AI150893 and R01AI038446 (J.N.W.); R01AI149350 761 (V.J.T.); K08AI163457 (R.J.U.), and R21AI153646 (D.P.); New Jersey Health Foundation PC 142- 762 22 and New Jersey Commission on Cancer Research COCR22RBG005 grants (D. P.); and funds 763 from the NYU Langone Health Antimicrobial-Resistant Pathogens Program (B.S., A.P., and V.J.T.).

PY - 2023/6/8

Y1 - 2023/6/8

N2 - The agr quorum-sensing system links Staphylococcus aureus metabolism to virulence, in part by increasing bacterial survival during exposure to lethal concentrations of H2O2, a crucial host defense against S. aureus. We now report that protection by agr surprisingly extends beyond post-exponential growth to the exit from stationary phase when the agr system is no longer turned on. Thus, agr can be considered a constitutive protective factor. Deletion of agr increased both respiration and aerobic fermentation but decreased ATP levels and growth, suggesting that Δagr cells assume a hyperactive metabolic state in response to reduced metabolic efficiency. As expected from increased respiratory gene expression, reactive oxygen species (ROS) accumulated more in the agr mutant than in wild-type cells, thereby explaining elevated susceptibility of Δagr strains to lethal H2O2 doses. Increased survival of wild-type agr cells during H2O2 exposure required sodA, which detoxifies superoxide. Additionally, pretreatment of S. aureus with respiration-reducing menadione protected Δagr cells from killing by H2O2. Thus, genetic deletion and pharmacologic experiments indicate that agr helps control endogenous ROS, thereby providing resilience against exogenous ROS. The long-lived “memory” of agr-mediated protection, which is uncoupled from agr activation kinetics, increased hematogenous dissemination to certain tissues during sepsis in ROS-producing, wild-type mice but not ROS-deficient (Nox2−/−) mice. These results demonstrate the importance of protection that anticipates impending ROS-mediated immune attack. The ubiquity of quorum sensing suggests that it protects many bacterial species from oxidative damage.

AB - The agr quorum-sensing system links Staphylococcus aureus metabolism to virulence, in part by increasing bacterial survival during exposure to lethal concentrations of H2O2, a crucial host defense against S. aureus. We now report that protection by agr surprisingly extends beyond post-exponential growth to the exit from stationary phase when the agr system is no longer turned on. Thus, agr can be considered a constitutive protective factor. Deletion of agr increased both respiration and aerobic fermentation but decreased ATP levels and growth, suggesting that Δagr cells assume a hyperactive metabolic state in response to reduced metabolic efficiency. As expected from increased respiratory gene expression, reactive oxygen species (ROS) accumulated more in the agr mutant than in wild-type cells, thereby explaining elevated susceptibility of Δagr strains to lethal H2O2 doses. Increased survival of wild-type agr cells during H2O2 exposure required sodA, which detoxifies superoxide. Additionally, pretreatment of S. aureus with respiration-reducing menadione protected Δagr cells from killing by H2O2. Thus, genetic deletion and pharmacologic experiments indicate that agr helps control endogenous ROS, thereby providing resilience against exogenous ROS. The long-lived “memory” of agr-mediated protection, which is uncoupled from agr activation kinetics, increased hematogenous dissemination to certain tissues during sepsis in ROS-producing, wild-type mice but not ROS-deficient (Nox2−/−) mice. These results demonstrate the importance of protection that anticipates impending ROS-mediated immune attack. The ubiquity of quorum sensing suggests that it protects many bacterial species from oxidative damage.

KW - Quorum-sensing

KW - Reactive oxygen species (ROS)

KW - Peroxide (H2O2)

KW - Staphylococcus aureus

U2 - 10.1101/2023.06.08.544038

DO - 10.1101/2023.06.08.544038

M3 - Preprint

BT - Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress

PB - bioRxiv

ER -

Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress

Abstract

Keywords

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Datasets

Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress (dataset)

Research output

Quorum-sensing agr system of Staphylococcus aureus primes gene expression for protection from lethal oxidative stress

Cite this