64 Detecting and monitoring Salmonella infection and chronic carriage in living mice using bioluminescent in vivo imaging
OBJECTIVES/GOALS: SalmonellaTyphi primarily persists in human chronic carriers by forming biofilms on gallstones in the gallbladder (GB). We developed a mouse model of GB chronic carriage, and using this model, aim to detect Salmonella in living mice and track the progression of GB carriage with bio...
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Format: | Article |
Language: | English |
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Cambridge University Press
2024-04-01
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Series: | Journal of Clinical and Translational Science |
Online Access: | https://www.cambridge.org/core/product/identifier/S2059866124000700/type/journal_article |
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author | Aliyah Bennett John S. Gunn |
author_facet | Aliyah Bennett John S. Gunn |
author_sort | Aliyah Bennett |
collection | DOAJ |
description | OBJECTIVES/GOALS: SalmonellaTyphi primarily persists in human chronic carriers by forming biofilms on gallstones in the gallbladder (GB). We developed a mouse model of GB chronic carriage, and using this model, aim to detect Salmonella in living mice and track the progression of GB carriage with bioluminescent S.Typhimurium and in vivoimaging. METHODS/STUDY POPULATION: S.Typhimurium 14028 (WT) was transduced with the lux operon from the S. Typhimurium Xen33 strain from Perkin Elmer©, creating 14028lux. 129X1/SvJ mice were fed a lithogenic diet for 6 weeks to induce gallstone formation. After cessation of diet, these mice were infected with 5x103-1x104 colony forming units (CFU) of either the 14028lux isolate, WT (non-luminescent) isolate, or an equal volume of sterile saline. Mice were serially imaged (IVIS SpectrumCT) every 2-3 days for up to 63 days. Images were quantified by measuring average radiance over selected regions of interest. The presence of bioluminescent bacteria in specific organs was confirmed by imaging the abdominal cavity post-mortem. Organs were homogenized and CFUs per mg of tissue were quantified and compared between each group. RESULTS/ANTICIPATED RESULTS: Compared to the controls, mice infected with 14028lux showed luminescence in the abdomen as early as three days post-infection. Within 15 days, the resolution was sufficient to discriminate signal in specific organs, notably the gallbladder, liver, spleen, and cecum. The presence of bacteria was confirmed in these organs via direct imaging and by quantifying CFUs in the tissues. At 63 days post-infection, we identified >103 CFUs and significant luminescence in the GB of a portion of 14028lux-infected mice. For all days post-infection, 14028lux-infected mice that lacked observable luminescence had <100 CFUs/mg tissue. DISCUSSION/SIGNIFICANCE: We have developed a technique using bioluminescent S.Typhimurium and in vivo imaging that, without sacrificing infected mice, enables us to reliably distinguish between mice that have maintained gallbladder chronic carriage >60 days and those that have cleared infection. |
first_indexed | 2024-04-24T14:32:32Z |
format | Article |
id | doaj.art-e13e46f890a245d9ac48d6975e4c8de8 |
institution | Directory Open Access Journal |
issn | 2059-8661 |
language | English |
last_indexed | 2024-04-24T14:32:32Z |
publishDate | 2024-04-01 |
publisher | Cambridge University Press |
record_format | Article |
series | Journal of Clinical and Translational Science |
spelling | doaj.art-e13e46f890a245d9ac48d6975e4c8de82024-04-03T02:00:30ZengCambridge University PressJournal of Clinical and Translational Science2059-86612024-04-018171710.1017/cts.2024.7064 Detecting and monitoring Salmonella infection and chronic carriage in living mice using bioluminescent in vivo imagingAliyah Bennett0John S. Gunn1The Ohio State UniversityThe Abigail Wexner Research Institute at Nationwide Children’s HospitalOBJECTIVES/GOALS: SalmonellaTyphi primarily persists in human chronic carriers by forming biofilms on gallstones in the gallbladder (GB). We developed a mouse model of GB chronic carriage, and using this model, aim to detect Salmonella in living mice and track the progression of GB carriage with bioluminescent S.Typhimurium and in vivoimaging. METHODS/STUDY POPULATION: S.Typhimurium 14028 (WT) was transduced with the lux operon from the S. Typhimurium Xen33 strain from Perkin Elmer©, creating 14028lux. 129X1/SvJ mice were fed a lithogenic diet for 6 weeks to induce gallstone formation. After cessation of diet, these mice were infected with 5x103-1x104 colony forming units (CFU) of either the 14028lux isolate, WT (non-luminescent) isolate, or an equal volume of sterile saline. Mice were serially imaged (IVIS SpectrumCT) every 2-3 days for up to 63 days. Images were quantified by measuring average radiance over selected regions of interest. The presence of bioluminescent bacteria in specific organs was confirmed by imaging the abdominal cavity post-mortem. Organs were homogenized and CFUs per mg of tissue were quantified and compared between each group. RESULTS/ANTICIPATED RESULTS: Compared to the controls, mice infected with 14028lux showed luminescence in the abdomen as early as three days post-infection. Within 15 days, the resolution was sufficient to discriminate signal in specific organs, notably the gallbladder, liver, spleen, and cecum. The presence of bacteria was confirmed in these organs via direct imaging and by quantifying CFUs in the tissues. At 63 days post-infection, we identified >103 CFUs and significant luminescence in the GB of a portion of 14028lux-infected mice. For all days post-infection, 14028lux-infected mice that lacked observable luminescence had <100 CFUs/mg tissue. DISCUSSION/SIGNIFICANCE: We have developed a technique using bioluminescent S.Typhimurium and in vivo imaging that, without sacrificing infected mice, enables us to reliably distinguish between mice that have maintained gallbladder chronic carriage >60 days and those that have cleared infection.https://www.cambridge.org/core/product/identifier/S2059866124000700/type/journal_article |
spellingShingle | Aliyah Bennett John S. Gunn 64 Detecting and monitoring Salmonella infection and chronic carriage in living mice using bioluminescent in vivo imaging Journal of Clinical and Translational Science |
title | 64 Detecting and monitoring Salmonella infection and chronic carriage in living mice using bioluminescent in vivo imaging |
title_full | 64 Detecting and monitoring Salmonella infection and chronic carriage in living mice using bioluminescent in vivo imaging |
title_fullStr | 64 Detecting and monitoring Salmonella infection and chronic carriage in living mice using bioluminescent in vivo imaging |
title_full_unstemmed | 64 Detecting and monitoring Salmonella infection and chronic carriage in living mice using bioluminescent in vivo imaging |
title_short | 64 Detecting and monitoring Salmonella infection and chronic carriage in living mice using bioluminescent in vivo imaging |
title_sort | 64 detecting and monitoring salmonella infection and chronic carriage in living mice using bioluminescent in vivo imaging |
url | https://www.cambridge.org/core/product/identifier/S2059866124000700/type/journal_article |
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