A pharmacoproteomic landscape of organotypic intervention responses in Gram-negative sepsis

Tirthankar Mohanty; Christofer A Q Karlsson; Yashuan Chao; Erik Malmström; Eleni Bratanis; Andrietta Grentzmann; Martina Mørch; Victor Nizet; Lars Malmström; Adam Linder; Oonagh Shannon; Johan Malmström

doi:10.1038/s41467-023-39269-9

A pharmacoproteomic landscape of organotypic intervention responses in Gram-negative sepsis

Tirthankar Mohanty, Christofer A Q Karlsson, Yashuan Chao, Erik Malmström, Eleni Bratanis, Andrietta Grentzmann, Martina Mørch, Victor Nizet, Lars Malmström, Adam Linder, Oonagh Shannon, Johan Malmström

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

Abstract

Sepsis is the major cause of mortality across intensive care units globally, yet details of accompanying pathological molecular events remain unclear. This knowledge gap has resulted in ineffective biomarker development and suboptimal treatment regimens to prevent and manage organ dysfunction/damage. Here, we used pharmacoproteomics to score time-dependent treatment impact in a murine Escherichia coli sepsis model after administering beta-lactam antibiotic meropenem (Mem) and/or the immunomodulatory glucocorticoid methylprednisolone (Gcc). Three distinct proteome response patterns were identified, which depended on the underlying proteotype for each organ. Gcc enhanced some positive proteome responses of Mem, including superior reduction of the inflammatory response in kidneys and partial restoration of sepsis-induced metabolic dysfunction. Mem introduced sepsis-independent perturbations in the mitochondrial proteome that Gcc counteracted. We provide a strategy for the quantitative and organotypic assessment of treatment effects of candidate therapies in relationship to dosing, timing, and potential synergistic intervention combinations during sepsis.

Original language	English
Article number	3603
Pages (from-to)	1-17
Journal	Nature Communications
Volume	14
DOIs	https://doi.org/10.1038/s41467-023-39269-9
Publication status	Published - 2023 Jun 17

Subject classification (UKÄ)

Pharmaceutical Sciences

Free keywords

Mice
Animals
Anti-Bacterial Agents/pharmacology
Proteome
Meropenem/pharmacology
Sepsis/drug therapy
Gram-Negative Bacterial Infections/drug therapy
Bacteremia/drug therapy

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10.1038/s41467-023-39269-9Licence: CC BY

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title = "A pharmacoproteomic landscape of organotypic intervention responses in Gram-negative sepsis",

abstract = "Sepsis is the major cause of mortality across intensive care units globally, yet details of accompanying pathological molecular events remain unclear. This knowledge gap has resulted in ineffective biomarker development and suboptimal treatment regimens to prevent and manage organ dysfunction/damage. Here, we used pharmacoproteomics to score time-dependent treatment impact in a murine Escherichia coli sepsis model after administering beta-lactam antibiotic meropenem (Mem) and/or the immunomodulatory glucocorticoid methylprednisolone (Gcc). Three distinct proteome response patterns were identified, which depended on the underlying proteotype for each organ. Gcc enhanced some positive proteome responses of Mem, including superior reduction of the inflammatory response in kidneys and partial restoration of sepsis-induced metabolic dysfunction. Mem introduced sepsis-independent perturbations in the mitochondrial proteome that Gcc counteracted. We provide a strategy for the quantitative and organotypic assessment of treatment effects of candidate therapies in relationship to dosing, timing, and potential synergistic intervention combinations during sepsis.",

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AU - Mohanty, Tirthankar

AU - Karlsson, Christofer A Q

AU - Chao, Yashuan

AU - Malmström, Erik

AU - Bratanis, Eleni

AU - Grentzmann, Andrietta

AU - Mørch, Martina

AU - Nizet, Victor

AU - Malmström, Lars

AU - Linder, Adam

AU - Shannon, Oonagh

AU - Malmström, Johan

PY - 2023/6/17

Y1 - 2023/6/17

N2 - Sepsis is the major cause of mortality across intensive care units globally, yet details of accompanying pathological molecular events remain unclear. This knowledge gap has resulted in ineffective biomarker development and suboptimal treatment regimens to prevent and manage organ dysfunction/damage. Here, we used pharmacoproteomics to score time-dependent treatment impact in a murine Escherichia coli sepsis model after administering beta-lactam antibiotic meropenem (Mem) and/or the immunomodulatory glucocorticoid methylprednisolone (Gcc). Three distinct proteome response patterns were identified, which depended on the underlying proteotype for each organ. Gcc enhanced some positive proteome responses of Mem, including superior reduction of the inflammatory response in kidneys and partial restoration of sepsis-induced metabolic dysfunction. Mem introduced sepsis-independent perturbations in the mitochondrial proteome that Gcc counteracted. We provide a strategy for the quantitative and organotypic assessment of treatment effects of candidate therapies in relationship to dosing, timing, and potential synergistic intervention combinations during sepsis.

AB - Sepsis is the major cause of mortality across intensive care units globally, yet details of accompanying pathological molecular events remain unclear. This knowledge gap has resulted in ineffective biomarker development and suboptimal treatment regimens to prevent and manage organ dysfunction/damage. Here, we used pharmacoproteomics to score time-dependent treatment impact in a murine Escherichia coli sepsis model after administering beta-lactam antibiotic meropenem (Mem) and/or the immunomodulatory glucocorticoid methylprednisolone (Gcc). Three distinct proteome response patterns were identified, which depended on the underlying proteotype for each organ. Gcc enhanced some positive proteome responses of Mem, including superior reduction of the inflammatory response in kidneys and partial restoration of sepsis-induced metabolic dysfunction. Mem introduced sepsis-independent perturbations in the mitochondrial proteome that Gcc counteracted. We provide a strategy for the quantitative and organotypic assessment of treatment effects of candidate therapies in relationship to dosing, timing, and potential synergistic intervention combinations during sepsis.

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KW - Animals

KW - Anti-Bacterial Agents/pharmacology

KW - Proteome

KW - Meropenem/pharmacology

KW - Sepsis/drug therapy

KW - Gram-Negative Bacterial Infections/drug therapy

KW - Bacteremia/drug therapy

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DO - 10.1038/s41467-023-39269-9

M3 - Article

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EP - 17

JO - Nature Communications

JF - Nature Communications

M1 - 3603

ER -

A pharmacoproteomic landscape of organotypic intervention responses in Gram-negative sepsis

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Subject classification (UKÄ)

Free keywords

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