TY - JOUR
T1 - A non-invasive in vivo imaging system to study dissemination of bioluminescent Yersinia pestis CO92 in a mouse model of pneumonic plague
AU - Sha, Jian
AU - Rosenzweig, Jason A.
AU - Kirtley, Michelle L.
AU - van Lier, Christina J.
AU - Fitts, Eric C.
AU - Kozlova, Elena V.
AU - Erova, Tatiana E.
AU - Tiner, Bethany L.
AU - Chopra, Ashok K.
N1 - Funding Information:
Studies conducted for this manuscript were supported by the NIH/NIAID AI064389 and N01 AI30065 grants (AKC). JAR was supported by the National Aeronautics and Space Administration (NASA) cooperative agreement NNX08B4A47A as well as AI64389. We thank Dr. A.G. Torres, UTMB, for providing pUTmini-Tn5::luxKm2 plasmid and Ms. K. Johnston for her initial help in imaging. We also thank Dr. S. Massey for his initial help with the software to determine total flux. We would also like to acknowledge UC7 grant which facilitated our research in the Galveston National Laboratory and the Biomedical Imaging Network Core for providing imaging facilities. Christina van Lier was supported by the T32 predoctoral training grant on Biodefense ( AI060549 ).
PY - 2013/2
Y1 - 2013/2
N2 - The gold standard in microbiology for monitoring bacterial dissemination in infected animals has always been viable plate counts. This method, despite being quantitative, requires sacrificing the infected animals. Recently, however, an alternative method of in vivo imaging of bioluminescent bacteria (IVIBB) for monitoring microbial dissemination within the host has been employed. Yersinia pestis is a Gram-negative bacterium capable of causing bubonic, septicemic, and pneumonic plague. In this study, we compared the conventional counting of bacterial colony forming units (cfu) in the various infected tissues to IVIBB in monitoring Y. pestis dissemination in a mouse model of pneumonic plague. By using a transposon mutagenesis system harboring the luciferase (luc) gene, we screened approximately 4000 clones and obtained a fully virulent, luc-positive Y. pestis CO92 (Y. pestis-luc2) reporter strain in which transposition occurred within the largest pMT1 plasmid which possesses murine toxin and capsular antigen encoding genes. The aforementioned reporter strain and the wild-type CO92 exhibited similar growth curves, formed capsule based on immunofluorescence microscopy and flow cytometry, and had a similar LD50. Intranasal infection of mice with 15 LD50 of CO92-luc2 resulted in animal mortality by 72 h, and an increasing number of bioluminescent bacteria were observed in various mouse organs over a 24-72 h period when whole animals were imaged. However, following levofloxacin treatment (10 mg/kg/day) for 6 days 24 h post infection, no luminescence was observed after 72 h of infection, indicating that the tested antimicrobial killed bacteria preventing their detection in host peripheral tissues. Overall, we demonstrated that IVIBB is an effective and non-invasive way of monitoring bacterial dissemination in animals following pneumonic plague having strong correlation with cfu, and our reporter CO92-luc2 strain can be employed as a useful tool to monitor the efficacy of antimicrobial countermeasures in real time.
AB - The gold standard in microbiology for monitoring bacterial dissemination in infected animals has always been viable plate counts. This method, despite being quantitative, requires sacrificing the infected animals. Recently, however, an alternative method of in vivo imaging of bioluminescent bacteria (IVIBB) for monitoring microbial dissemination within the host has been employed. Yersinia pestis is a Gram-negative bacterium capable of causing bubonic, septicemic, and pneumonic plague. In this study, we compared the conventional counting of bacterial colony forming units (cfu) in the various infected tissues to IVIBB in monitoring Y. pestis dissemination in a mouse model of pneumonic plague. By using a transposon mutagenesis system harboring the luciferase (luc) gene, we screened approximately 4000 clones and obtained a fully virulent, luc-positive Y. pestis CO92 (Y. pestis-luc2) reporter strain in which transposition occurred within the largest pMT1 plasmid which possesses murine toxin and capsular antigen encoding genes. The aforementioned reporter strain and the wild-type CO92 exhibited similar growth curves, formed capsule based on immunofluorescence microscopy and flow cytometry, and had a similar LD50. Intranasal infection of mice with 15 LD50 of CO92-luc2 resulted in animal mortality by 72 h, and an increasing number of bioluminescent bacteria were observed in various mouse organs over a 24-72 h period when whole animals were imaged. However, following levofloxacin treatment (10 mg/kg/day) for 6 days 24 h post infection, no luminescence was observed after 72 h of infection, indicating that the tested antimicrobial killed bacteria preventing their detection in host peripheral tissues. Overall, we demonstrated that IVIBB is an effective and non-invasive way of monitoring bacterial dissemination in animals following pneumonic plague having strong correlation with cfu, and our reporter CO92-luc2 strain can be employed as a useful tool to monitor the efficacy of antimicrobial countermeasures in real time.
KW - Bacterial dissemination
KW - Bioluminescent Yersinia pestis
KW - Flow cytometry
KW - Immunofluorescence microscopy
KW - In vivo imaging
KW - Levofloxacin
KW - Pneumonic plague
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UR - http://www.scopus.com/inward/citedby.url?scp=84876155985&partnerID=8YFLogxK
U2 - 10.1016/j.micpath.2012.09.011
DO - 10.1016/j.micpath.2012.09.011
M3 - Article
C2 - 23063826
AN - SCOPUS:84876155985
SN - 0882-4010
VL - 55
SP - 39
EP - 50
JO - Microbial Pathogenesis
JF - Microbial Pathogenesis
IS - 1
ER -