Exploring the translational disconnect between the murine and human inflammatory response: analysis of LPS dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsis
Eamon P McCarron,1 Dominic P Williams,1 Daniel J Antoine,1 Anja Kipar,2 Jana Lemm,3 Sebastian Stehr,3 Ingeborg D Welters,4 1Department of Clinical and Molecular Pharmacology, Centre for Drug Safety Science, Institute of Translational Medicine, 2Department of Veterinary Pathology, University of Liver...
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2015-10-01
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doaj-b9cb993ed03e420fbcb839c30cb460c12020-11-25T00:08:20ZengDove Medical PressJournal of Inflammation Research1178-70312015-10-012015default20120924196Exploring the translational disconnect between the murine and human inflammatory response: analysis of LPS dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsisMcCarron EPWilliams DPAntoine DJKipar ALemm JStehr SWelters IDEamon P McCarron,1 Dominic P Williams,1 Daniel J Antoine,1 Anja Kipar,2 Jana Lemm,3 Sebastian Stehr,3 Ingeborg D Welters,4 1Department of Clinical and Molecular Pharmacology, Centre for Drug Safety Science, Institute of Translational Medicine, 2Department of Veterinary Pathology, University of Liverpool, Liverpool, UK; 3Department of Anaesthesiology and Intensive Care Medicine, Jena University Hospital, Jena, Germany; 4Department of Obesity and Endocrinology, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK Background: Inflammation forms an important part of the human innate immune system and is largely dependent on the activation of the "classical" NF-κB pathway through Toll-like receptors (TLRs). Understanding this has allowed researchers to explore roles of therapeutic targets in managing conditions such as sepsis. Recapitulating an inflammatory response using lipopolysaccharide (LPS), a "sterile" technique, can provide information that is dissimilar to the clinical condition. By examining NF-κB activation (through immunoblotting of the p65 subunit) in two separate cell lines (murine and human) and analyzing two murine models of sepsis (intraperitoneal [IP] LPS and IP stool inoculation), an evaluation of the translational disconnect between experimental and clinical sepsis can be made. Methods: THP-1 (human) cells and RAW 264.7 (murine) cells were dosed with concentrations of LPS (human, 1 pg/mL to 100 ng/mL; murine, 30 pg/mL to 1,000 ng/mL) and nuclear actin and p65 were immunoblotted to measure changes in nuclear density. In vivo, C57BL/6 mice received either IP injection of stool suspension (5 µL/g ) or LPS (25 mg/kg) or saline (1 mL/kg). Animals were culled at 6 hours and tissues were analyzed. Results: An increase in basal p65:actin density in THP-1 cells (mean 0.214, standard error of the mean 0.024) was seen at doses as small as 0.1 ng/mL (0.519±0.064). In contrast to RAW 264.7 cells, basal increases (0.170±0.025) were only seen when a dose of 3 ng/mL (0.387±0.078) was used. Dose–response analysis of p65:actin ratio showed that THP-1 cells respond to lower doses of LPS than RAW 264.7 cells and lower doses produce a greater fold increase in the nuclear p65 density. Both in vivo models showed evidence of neutrophil (NL) recruitment into tissues (which was more intense after LPS treatment). IP stool inoculation resulted in an acute suppurative peritonitis and more substantial evidence of NL recruitment into adipose tissue and skeletal muscle. Conclusion: Our results support previous observations that translation of murine models into the human clinical setting suffers from considerable limitations including species-associated differences in LPS response seen at a molecular level. Furthermore, the histopathological changes during clinical sepsis cannot be adequately reproduced by injection of LPS. Therefore, the so-called translational disconnect that exists between murine LPS models and human sepsis involves NF-κB activation at a molecular level and is further augmented by the use of LPS as a stimulus for infectious responses in vivo. Keywords: NF-κB, p65, LPS, murine, sepsis, inflammation, leukocyte, monocyte, macrophagehttps://www.dovepress.com/exploring-the-translational-disconnect-between-the-murine-and-human-in-peer-reviewed-article-JIR |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
McCarron EP Williams DP Antoine DJ Kipar A Lemm J Stehr S Welters ID |
spellingShingle |
McCarron EP Williams DP Antoine DJ Kipar A Lemm J Stehr S Welters ID Exploring the translational disconnect between the murine and human inflammatory response: analysis of LPS dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsis Journal of Inflammation Research |
author_facet |
McCarron EP Williams DP Antoine DJ Kipar A Lemm J Stehr S Welters ID |
author_sort |
McCarron EP |
title |
Exploring the translational disconnect between the murine and human inflammatory response: analysis of LPS dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsis |
title_short |
Exploring the translational disconnect between the murine and human inflammatory response: analysis of LPS dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsis |
title_full |
Exploring the translational disconnect between the murine and human inflammatory response: analysis of LPS dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsis |
title_fullStr |
Exploring the translational disconnect between the murine and human inflammatory response: analysis of LPS dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsis |
title_full_unstemmed |
Exploring the translational disconnect between the murine and human inflammatory response: analysis of LPS dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsis |
title_sort |
exploring the translational disconnect between the murine and human inflammatory response: analysis of lps dose–response relationship in murine versus human cell lines and implications for translation into murine models of sepsis |
publisher |
Dove Medical Press |
series |
Journal of Inflammation Research |
issn |
1178-7031 |
publishDate |
2015-10-01 |
description |
Eamon P McCarron,1 Dominic P Williams,1 Daniel J Antoine,1 Anja Kipar,2 Jana Lemm,3 Sebastian Stehr,3 Ingeborg D Welters,4 1Department of Clinical and Molecular Pharmacology, Centre for Drug Safety Science, Institute of Translational Medicine, 2Department of Veterinary Pathology, University of Liverpool, Liverpool, UK; 3Department of Anaesthesiology and Intensive Care Medicine, Jena University Hospital, Jena, Germany; 4Department of Obesity and Endocrinology, Institute of Ageing and Chronic Disease, University of Liverpool, Liverpool, UK Background: Inflammation forms an important part of the human innate immune system and is largely dependent on the activation of the "classical" NF-κB pathway through Toll-like receptors (TLRs). Understanding this has allowed researchers to explore roles of therapeutic targets in managing conditions such as sepsis. Recapitulating an inflammatory response using lipopolysaccharide (LPS), a "sterile" technique, can provide information that is dissimilar to the clinical condition. By examining NF-κB activation (through immunoblotting of the p65 subunit) in two separate cell lines (murine and human) and analyzing two murine models of sepsis (intraperitoneal [IP] LPS and IP stool inoculation), an evaluation of the translational disconnect between experimental and clinical sepsis can be made. Methods: THP-1 (human) cells and RAW 264.7 (murine) cells were dosed with concentrations of LPS (human, 1 pg/mL to 100 ng/mL; murine, 30 pg/mL to 1,000 ng/mL) and nuclear actin and p65 were immunoblotted to measure changes in nuclear density. In vivo, C57BL/6 mice received either IP injection of stool suspension (5 µL/g ) or LPS (25 mg/kg) or saline (1 mL/kg). Animals were culled at 6 hours and tissues were analyzed. Results: An increase in basal p65:actin density in THP-1 cells (mean 0.214, standard error of the mean 0.024) was seen at doses as small as 0.1 ng/mL (0.519±0.064). In contrast to RAW 264.7 cells, basal increases (0.170±0.025) were only seen when a dose of 3 ng/mL (0.387±0.078) was used. Dose–response analysis of p65:actin ratio showed that THP-1 cells respond to lower doses of LPS than RAW 264.7 cells and lower doses produce a greater fold increase in the nuclear p65 density. Both in vivo models showed evidence of neutrophil (NL) recruitment into tissues (which was more intense after LPS treatment). IP stool inoculation resulted in an acute suppurative peritonitis and more substantial evidence of NL recruitment into adipose tissue and skeletal muscle. Conclusion: Our results support previous observations that translation of murine models into the human clinical setting suffers from considerable limitations including species-associated differences in LPS response seen at a molecular level. Furthermore, the histopathological changes during clinical sepsis cannot be adequately reproduced by injection of LPS. Therefore, the so-called translational disconnect that exists between murine LPS models and human sepsis involves NF-κB activation at a molecular level and is further augmented by the use of LPS as a stimulus for infectious responses in vivo. Keywords: NF-κB, p65, LPS, murine, sepsis, inflammation, leukocyte, monocyte, macrophage |
url |
https://www.dovepress.com/exploring-the-translational-disconnect-between-the-murine-and-human-in-peer-reviewed-article-JIR |
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