Restoring methicillin-resistant Staphylococcus aureus susceptibility to β-lactam antibiotics

Christopher M. Tan; Alex G. Therien; Jun Lu; Sang H. Lee; Alexandre Caron; Charles J. Gill; Christian Lebeau-Jacob; Liliana Benton-Perdomo; João M. Monteiro; Pedro M. Pereira; Nathaniel L. Elsen; Jin Wu; Kathleen Deschamps; Mihai Petcu; Simon Wong; Etienne Daigneault; Susanne Kramer; Lianzhu Liang; Eugene Maxwell; David Claveau; John Vaillancourt; Kathryn Skorey; John Tam; Hao Wang; Timothy C. Meredith; Susan Sillaots; Lisa Wang-Jarantow; Yeeman Ramtohul; Eric Langlois; France Landry; John C. Reid; Gopal Parthasarathy; Sujata Sharma; Anastasia Baryshnikova; Kevin J. Lumb; Mariana G. Pinho; Stephen M. Soisson; Terry Roemer

doi:10.1126/scitranslmed.3003592

Restoring methicillin-resistant Staphylococcus aureus susceptibility to β-lactam antibiotics

Christopher M. Tan, Alex G. Therien, Jun Lu, Sang H. Lee, Alexandre Caron, Charles J. Gill, Christian Lebeau-Jacob, Liliana Benton-Perdomo, João M. Monteiro, Pedro M. Pereira, Nathaniel L. Elsen, Jin Wu, Kathleen Deschamps, Mihai Petcu, Simon Wong, Etienne Daigneault, Susanne Kramer, Lianzhu Liang, Eugene Maxwell, David ClaveauJohn Vaillancourt, Kathryn Skorey, John Tam, Hao Wang, Timothy C. Meredith, Susan Sillaots, Lisa Wang-Jarantow, Yeeman Ramtohul, Eric Langlois, France Landry, John C. Reid, Gopal Parthasarathy, Sujata Sharma, Anastasia Baryshnikova, Kevin J. Lumb, Mariana G. Pinho, Stephen M. Soisson, Terry Roemer

Biochemistry & Molecular Biology

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

226 Scopus citations

Abstract

Despite the need for new antibiotics to treat drug-resistant bacteria, current clinical combinations are largely restricted to β-lactam antibiotics paired with β-lactamase inhibitors. We have adapted a Staphylococcus aureus antisense knockdown strategy to genetically identify the cell division Z ring components-FtsA, FtsZ, and FtsW-as β-lactam susceptibility determinants of methicillin-resistant S. aureus (MRSA). We demonstrate that the FtsZ-specific inhibitor PC190723 acts synergistically with β-lactam antibiotics in vitro and in vivo and that this combination is efficacious in a murine model of MRSA infection. Fluorescence microscopy localization studies reveal that synergy between these agents is likely to be elicited by the concomitant delocalization of their cognate drug targets (FtsZ and PBP2) in MRSA treated with PC190723. A 2.0 Å crystal structure of S. aureus FtsZ in complex with PC190723 identifies the compound binding site, which corresponds to the predominant location of mutations conferring resistance to PC190723 (PC190723 ^R). Although structural studies suggested that these drug resistance mutations may be difficult to combat through chemical modification of PC190723, combining PC190723 with the β-lactam antibiotic imipenem markedly reduced the spontaneous frequency of PC190723 ^R mutants. Multiple MRSA PC190723 ^RFtsZ mutants also displayed attenuated virulence and restored susceptibility to β-lactam antibiotics in vitro and in a mouse model of imipenem efficacy. Collectively, these data support a target-based approach to rationally develop synergistic combination agents that mitigate drug resistance and effectively treat MRSA infections.

Original language	English (US)
Article number	126ra35
Journal	Science Translational Medicine
Volume	4
Issue number	126
DOIs	https://doi.org/10.1126/scitranslmed.3003592
State	Published - Mar 21 2012

All Science Journal Classification (ASJC) codes

General Medicine

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Tan, C. M., Therien, A. G., Lu, J., Lee, S. H., Caron, A., Gill, C. J., Lebeau-Jacob, C., Benton-Perdomo, L., Monteiro, J. M., Pereira, P. M., Elsen, N. L., Wu, J., Deschamps, K., Petcu, M., Wong, S., Daigneault, E., Kramer, S., Liang, L., Maxwell, E., ... Roemer, T. (2012). Restoring methicillin-resistant Staphylococcus aureus susceptibility to β-lactam antibiotics. Science Translational Medicine, 4(126), Article 126ra35. https://doi.org/10.1126/scitranslmed.3003592

@article{aad8bee1261b415289398e9d3134997d,

title = "Restoring methicillin-resistant Staphylococcus aureus susceptibility to β-lactam antibiotics",

abstract = "Despite the need for new antibiotics to treat drug-resistant bacteria, current clinical combinations are largely restricted to β-lactam antibiotics paired with β-lactamase inhibitors. We have adapted a Staphylococcus aureus antisense knockdown strategy to genetically identify the cell division Z ring components-FtsA, FtsZ, and FtsW-as β-lactam susceptibility determinants of methicillin-resistant S. aureus (MRSA). We demonstrate that the FtsZ-specific inhibitor PC190723 acts synergistically with β-lactam antibiotics in vitro and in vivo and that this combination is efficacious in a murine model of MRSA infection. Fluorescence microscopy localization studies reveal that synergy between these agents is likely to be elicited by the concomitant delocalization of their cognate drug targets (FtsZ and PBP2) in MRSA treated with PC190723. A 2.0 {\AA} crystal structure of S. aureus FtsZ in complex with PC190723 identifies the compound binding site, which corresponds to the predominant location of mutations conferring resistance to PC190723 (PC190723 R). Although structural studies suggested that these drug resistance mutations may be difficult to combat through chemical modification of PC190723, combining PC190723 with the β-lactam antibiotic imipenem markedly reduced the spontaneous frequency of PC190723 R mutants. Multiple MRSA PC190723 RFtsZ mutants also displayed attenuated virulence and restored susceptibility to β-lactam antibiotics in vitro and in a mouse model of imipenem efficacy. Collectively, these data support a target-based approach to rationally develop synergistic combination agents that mitigate drug resistance and effectively treat MRSA infections.",

author = "Tan, {Christopher M.} and Therien, {Alex G.} and Jun Lu and Lee, {Sang H.} and Alexandre Caron and Gill, {Charles J.} and Christian Lebeau-Jacob and Liliana Benton-Perdomo and Monteiro, {Jo{\~a}o M.} and Pereira, {Pedro M.} and Elsen, {Nathaniel L.} and Jin Wu and Kathleen Deschamps and Mihai Petcu and Simon Wong and Etienne Daigneault and Susanne Kramer and Lianzhu Liang and Eugene Maxwell and David Claveau and John Vaillancourt and Kathryn Skorey and John Tam and Hao Wang and Meredith, {Timothy C.} and Susan Sillaots and Lisa Wang-Jarantow and Yeeman Ramtohul and Eric Langlois and France Landry and Reid, {John C.} and Gopal Parthasarathy and Sujata Sharma and Anastasia Baryshnikova and Lumb, {Kevin J.} and Pinho, {Mariana G.} and Soisson, {Stephen M.} and Terry Roemer",

year = "2012",

month = mar,

day = "21",

doi = "10.1126/scitranslmed.3003592",

language = "English (US)",

volume = "4",

journal = "Science Translational Medicine",

issn = "1946-6234",

publisher = "American Association for the Advancement of Science",

number = "126",

}

Tan, CM, Therien, AG, Lu, J, Lee, SH, Caron, A, Gill, CJ, Lebeau-Jacob, C, Benton-Perdomo, L, Monteiro, JM, Pereira, PM, Elsen, NL, Wu, J, Deschamps, K, Petcu, M, Wong, S, Daigneault, E, Kramer, S, Liang, L, Maxwell, E, Claveau, D, Vaillancourt, J, Skorey, K, Tam, J, Wang, H, Meredith, TC, Sillaots, S, Wang-Jarantow, L, Ramtohul, Y, Langlois, E, Landry, F, Reid, JC, Parthasarathy, G, Sharma, S, Baryshnikova, A, Lumb, KJ, Pinho, MG, Soisson, SM & Roemer, T 2012, 'Restoring methicillin-resistant Staphylococcus aureus susceptibility to β-lactam antibiotics', Science Translational Medicine, vol. 4, no. 126, 126ra35. https://doi.org/10.1126/scitranslmed.3003592

TY - JOUR

T1 - Restoring methicillin-resistant Staphylococcus aureus susceptibility to β-lactam antibiotics

AU - Tan, Christopher M.

AU - Therien, Alex G.

AU - Lu, Jun

AU - Lee, Sang H.

AU - Caron, Alexandre

AU - Gill, Charles J.

AU - Lebeau-Jacob, Christian

AU - Benton-Perdomo, Liliana

AU - Monteiro, João M.

AU - Pereira, Pedro M.

AU - Elsen, Nathaniel L.

AU - Wu, Jin

AU - Deschamps, Kathleen

AU - Petcu, Mihai

AU - Wong, Simon

AU - Daigneault, Etienne

AU - Kramer, Susanne

AU - Liang, Lianzhu

AU - Maxwell, Eugene

AU - Claveau, David

AU - Vaillancourt, John

AU - Skorey, Kathryn

AU - Tam, John

AU - Wang, Hao

AU - Meredith, Timothy C.

AU - Sillaots, Susan

AU - Wang-Jarantow, Lisa

AU - Ramtohul, Yeeman

AU - Langlois, Eric

AU - Landry, France

AU - Reid, John C.

AU - Parthasarathy, Gopal

AU - Sharma, Sujata

AU - Baryshnikova, Anastasia

AU - Lumb, Kevin J.

AU - Pinho, Mariana G.

AU - Soisson, Stephen M.

AU - Roemer, Terry

PY - 2012/3/21

Y1 - 2012/3/21

N2 - Despite the need for new antibiotics to treat drug-resistant bacteria, current clinical combinations are largely restricted to β-lactam antibiotics paired with β-lactamase inhibitors. We have adapted a Staphylococcus aureus antisense knockdown strategy to genetically identify the cell division Z ring components-FtsA, FtsZ, and FtsW-as β-lactam susceptibility determinants of methicillin-resistant S. aureus (MRSA). We demonstrate that the FtsZ-specific inhibitor PC190723 acts synergistically with β-lactam antibiotics in vitro and in vivo and that this combination is efficacious in a murine model of MRSA infection. Fluorescence microscopy localization studies reveal that synergy between these agents is likely to be elicited by the concomitant delocalization of their cognate drug targets (FtsZ and PBP2) in MRSA treated with PC190723. A 2.0 Å crystal structure of S. aureus FtsZ in complex with PC190723 identifies the compound binding site, which corresponds to the predominant location of mutations conferring resistance to PC190723 (PC190723 R). Although structural studies suggested that these drug resistance mutations may be difficult to combat through chemical modification of PC190723, combining PC190723 with the β-lactam antibiotic imipenem markedly reduced the spontaneous frequency of PC190723 R mutants. Multiple MRSA PC190723 RFtsZ mutants also displayed attenuated virulence and restored susceptibility to β-lactam antibiotics in vitro and in a mouse model of imipenem efficacy. Collectively, these data support a target-based approach to rationally develop synergistic combination agents that mitigate drug resistance and effectively treat MRSA infections.

AB - Despite the need for new antibiotics to treat drug-resistant bacteria, current clinical combinations are largely restricted to β-lactam antibiotics paired with β-lactamase inhibitors. We have adapted a Staphylococcus aureus antisense knockdown strategy to genetically identify the cell division Z ring components-FtsA, FtsZ, and FtsW-as β-lactam susceptibility determinants of methicillin-resistant S. aureus (MRSA). We demonstrate that the FtsZ-specific inhibitor PC190723 acts synergistically with β-lactam antibiotics in vitro and in vivo and that this combination is efficacious in a murine model of MRSA infection. Fluorescence microscopy localization studies reveal that synergy between these agents is likely to be elicited by the concomitant delocalization of their cognate drug targets (FtsZ and PBP2) in MRSA treated with PC190723. A 2.0 Å crystal structure of S. aureus FtsZ in complex with PC190723 identifies the compound binding site, which corresponds to the predominant location of mutations conferring resistance to PC190723 (PC190723 R). Although structural studies suggested that these drug resistance mutations may be difficult to combat through chemical modification of PC190723, combining PC190723 with the β-lactam antibiotic imipenem markedly reduced the spontaneous frequency of PC190723 R mutants. Multiple MRSA PC190723 RFtsZ mutants also displayed attenuated virulence and restored susceptibility to β-lactam antibiotics in vitro and in a mouse model of imipenem efficacy. Collectively, these data support a target-based approach to rationally develop synergistic combination agents that mitigate drug resistance and effectively treat MRSA infections.

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UR - http://www.scopus.com/inward/citedby.url?scp=84863341292&partnerID=8YFLogxK

U2 - 10.1126/scitranslmed.3003592

DO - 10.1126/scitranslmed.3003592

M3 - Article

C2 - 22440737

AN - SCOPUS:84863341292

SN - 1946-6234

VL - 4

JO - Science Translational Medicine

JF - Science Translational Medicine

IS - 126

M1 - 126ra35

ER -

Restoring methicillin-resistant Staphylococcus aureus susceptibility to β-lactam antibiotics

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