Aerosol is the optimal route of respiratory tract infection to induce pathological lesions of colibacillosis by a lux-tagged avian pathogenic Escherichia coli in chickens

Pathogenesis of colibacillosis caused by avian pathogenic Escherichia coli (APEC) in poultry is unclear and experimental studies reveal substantial inconsistency. In this study, the impact of three infection routes differing in the site of deposition of inoculum in the respiratory tract, were invest...

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Veröffentlicht in:	Avian pathology 2021-10, Vol.50 (5), p.417-426
Hauptverfasser:	Paudel, Surya, Fink, Dieter, Abdelhamid, Mohamed Kamal, Zöggeler, Anna, Liebhart, Dieter, Hess, Michael, Hess, Claudia
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Schlagworte:	aerosol Aerosols Animals APEC Avian pathogenic Escherichia coli Bird Diseases - microbiology Birds Body organs Body weight Bronchitis Chickens Chickens - microbiology Colibacillosis E coli Enumeration Escherichia coli experimental infection Histology Infections Inoculation Inoculum Lesions Lungs lux-tagged Microbiological strains Organs Pathogenesis Respiratory organs Respiratory tract Respiratory tract diseases Respiratory tract infection Respiratory Tract Infections - microbiology Respiratory Tract Infections - veterinary Spleen Tagging Trachea
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creator	Paudel, Surya Fink, Dieter Abdelhamid, Mohamed Kamal Zöggeler, Anna Liebhart, Dieter Hess, Michael Hess, Claudia
description	Pathogenesis of colibacillosis caused by avian pathogenic Escherichia coli (APEC) in poultry is unclear and experimental studies reveal substantial inconsistency. In this study, the impact of three infection routes differing in the site of deposition of inoculum in the respiratory tract, were investigated. Two-weeks-old chickens were infected with a lux-tagged APEC strain via aerosol, intranasally or intratracheally, and sequentially sampled along with uninfected birds. At 1 and 3 days post infection (dpi), liver or spleen to body-weight ratios in all infected groups were significantly higher than in negative control, while at 7 dpi, such differences were significant in both organs in the aerosol-infected group. The infection-strain colonized tracheas and lungs in infected birds at 1 dpi and persisted until 7 dpi. Among infected groups, in lungs, bacterial load at 1 dpi was significantly lower in intranasally-inoculated birds. Histology revealed that, independent of infection route, lesions were mostly seen in the lower respiratory organs (lungs and air sacs) characterized by bronchitis/pneumonia and airsacculitis. Birds infected via aerosol showed the highest mean lesion score in lungs while intranasal application caused the mildest pathological changes, and difference between the two groups was significant at 1 dpi. In spleen, heterophilic infiltrations were prominent in affected birds. Interestingly, tracheas were pathologically unaffected. Altogether, the results demonstrated the importance of infection route, with aerosol being the most suitable to induce pathological lesions of colibacillosis without predisposing factors. Furthermore, the lux-tagged APEC strain was discriminated from native isolates enabling exact differentiation and enumeration. RESEARCH HIGHLIGHTS Lux-tagged APEC strain was used for infection to differentiate from native E. coli. Pathologically, lungs, air sacs and spleen but not trachea were affected. The route of infection strongly impacts the pathological outcome with APEC. The infection with APEC via aerosol caused the most severe lesions in chickens.
doi_str_mv	10.1080/03079457.2021.1978392
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In this study, the impact of three infection routes differing in the site of deposition of inoculum in the respiratory tract, were investigated. Two-weeks-old chickens were infected with a lux-tagged APEC strain via aerosol, intranasally or intratracheally, and sequentially sampled along with uninfected birds. At 1 and 3 days post infection (dpi), liver or spleen to body-weight ratios in all infected groups were significantly higher than in negative control, while at 7 dpi, such differences were significant in both organs in the aerosol-infected group. The infection-strain colonized tracheas and lungs in infected birds at 1 dpi and persisted until 7 dpi. Among infected groups, in lungs, bacterial load at 1 dpi was significantly lower in intranasally-inoculated birds. Histology revealed that, independent of infection route, lesions were mostly seen in the lower respiratory organs (lungs and air sacs) characterized by bronchitis/pneumonia and airsacculitis. Birds infected via aerosol showed the highest mean lesion score in lungs while intranasal application caused the mildest pathological changes, and difference between the two groups was significant at 1 dpi. In spleen, heterophilic infiltrations were prominent in affected birds. Interestingly, tracheas were pathologically unaffected. Altogether, the results demonstrated the importance of infection route, with aerosol being the most suitable to induce pathological lesions of colibacillosis without predisposing factors. Furthermore, the lux-tagged APEC strain was discriminated from native isolates enabling exact differentiation and enumeration. RESEARCH HIGHLIGHTS Lux-tagged APEC strain was used for infection to differentiate from native E. coli. Pathologically, lungs, air sacs and spleen but not trachea were affected. The route of infection strongly impacts the pathological outcome with APEC. 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In this study, the impact of three infection routes differing in the site of deposition of inoculum in the respiratory tract, were investigated. Two-weeks-old chickens were infected with a lux-tagged APEC strain via aerosol, intranasally or intratracheally, and sequentially sampled along with uninfected birds. At 1 and 3 days post infection (dpi), liver or spleen to body-weight ratios in all infected groups were significantly higher than in negative control, while at 7 dpi, such differences were significant in both organs in the aerosol-infected group. The infection-strain colonized tracheas and lungs in infected birds at 1 dpi and persisted until 7 dpi. Among infected groups, in lungs, bacterial load at 1 dpi was significantly lower in intranasally-inoculated birds. Histology revealed that, independent of infection route, lesions were mostly seen in the lower respiratory organs (lungs and air sacs) characterized by bronchitis/pneumonia and airsacculitis. Birds infected via aerosol showed the highest mean lesion score in lungs while intranasal application caused the mildest pathological changes, and difference between the two groups was significant at 1 dpi. In spleen, heterophilic infiltrations were prominent in affected birds. Interestingly, tracheas were pathologically unaffected. Altogether, the results demonstrated the importance of infection route, with aerosol being the most suitable to induce pathological lesions of colibacillosis without predisposing factors. Furthermore, the lux-tagged APEC strain was discriminated from native isolates enabling exact differentiation and enumeration. RESEARCH HIGHLIGHTS Lux-tagged APEC strain was used for infection to differentiate from native E. coli. Pathologically, lungs, air sacs and spleen but not trachea were affected. The route of infection strongly impacts the pathological outcome with APEC. The infection with APEC via aerosol caused the most severe lesions in chickens.</description><subject>aerosol</subject><subject>Aerosols</subject><subject>Animals</subject><subject>APEC</subject><subject>Avian pathogenic Escherichia coli</subject><subject>Bird Diseases - microbiology</subject><subject>Birds</subject><subject>Body organs</subject><subject>Body weight</subject><subject>Bronchitis</subject><subject>Chickens</subject><subject>Chickens - microbiology</subject><subject>Colibacillosis</subject><subject>E coli</subject><subject>Enumeration</subject><subject>Escherichia coli</subject><subject>experimental infection</subject><subject>Histology</subject><subject>Infections</subject><subject>Inoculation</subject><subject>Inoculum</subject><subject>Lesions</subject><subject>Lungs</subject><subject>lux-tagged</subject><subject>Microbiological strains</subject><subject>Organs</subject><subject>Pathogenesis</subject><subject>Respiratory organs</subject><subject>Respiratory tract</subject><subject>Respiratory tract diseases</subject><subject>Respiratory tract infection</subject><subject>Respiratory Tract Infections - microbiology</subject><subject>Respiratory Tract Infections - veterinary</subject><subject>Spleen</subject><subject>Tagging</subject><subject>Trachea</subject><issn>0307-9457</issn><issn>1465-3338</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kc2OFCEUhYnROO3oI2hI3LipFoqigJ2TyfiTTOJG14SiLt2MdFECNdqv5FNK2T0uXLgiJ_c795JzEHpJyZYSSd4SRoTquNi2pKVbqoRkqn2ENrTrecMYk4_RZmWaFbpAz3K-I4T0nLdP0QXrOOGc0w36dQUp5hiwz7jsAce5-IMJOMWlVOVwgjz7ZEpMR1ySsQX7yYEtPk64xCrGxQKeTdnHEHfeVm-AXKd5ddsY_GCsDyHmemE4YoPD8rMpZreDEZt7b6aTeQeTt_gm2z0kb_fe_PHW_bgK-w2m_Bw9cSZkeHF-L9HX9zdfrj82t58_fLq-um0sU11pxkExOTgiec8spU5SC9w6IYfBda5mMPTKOdnROjedkC2DsbfEgqD9yEdgl-jNae-c4vcFctEHny2EYCaIS9YtF1S1pOtlRV__g97FJU31d5VSRIhetaJS_ETZGnVO4PScasjpqCnRa5n6oUy9lqnPZVbfq_P2ZTjA-Nf10F4F3p2AWklMB_MjpjDqYo4hJpfMZH3W7P83fgOnbbHS</recordid><startdate>202110</startdate><enddate>202110</enddate><creator>Paudel, Surya</creator><creator>Fink, Dieter</creator><creator>Abdelhamid, Mohamed Kamal</creator><creator>Zöggeler, Anna</creator><creator>Liebhart, Dieter</creator><creator>Hess, Michael</creator><creator>Hess, Claudia</creator><general>Taylor & Francis</general><general>Taylor & Francis Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QL</scope><scope>7T5</scope><scope>7TM</scope><scope>7U7</scope><scope>7U9</scope><scope>C1K</scope><scope>F1W</scope><scope>H94</scope><scope>H95</scope><scope>K9.</scope><scope>L.G</scope><scope>M7N</scope><scope>7X8</scope></search><sort><creationdate>202110</creationdate><title>Aerosol is the optimal route of respiratory tract infection to induce pathological lesions of colibacillosis by a lux-tagged avian pathogenic Escherichia coli in chickens</title><author>Paudel, Surya ; 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In this study, the impact of three infection routes differing in the site of deposition of inoculum in the respiratory tract, were investigated. Two-weeks-old chickens were infected with a lux-tagged APEC strain via aerosol, intranasally or intratracheally, and sequentially sampled along with uninfected birds. At 1 and 3 days post infection (dpi), liver or spleen to body-weight ratios in all infected groups were significantly higher than in negative control, while at 7 dpi, such differences were significant in both organs in the aerosol-infected group. The infection-strain colonized tracheas and lungs in infected birds at 1 dpi and persisted until 7 dpi. Among infected groups, in lungs, bacterial load at 1 dpi was significantly lower in intranasally-inoculated birds. Histology revealed that, independent of infection route, lesions were mostly seen in the lower respiratory organs (lungs and air sacs) characterized by bronchitis/pneumonia and airsacculitis. Birds infected via aerosol showed the highest mean lesion score in lungs while intranasal application caused the mildest pathological changes, and difference between the two groups was significant at 1 dpi. In spleen, heterophilic infiltrations were prominent in affected birds. Interestingly, tracheas were pathologically unaffected. Altogether, the results demonstrated the importance of infection route, with aerosol being the most suitable to induce pathological lesions of colibacillosis without predisposing factors. Furthermore, the lux-tagged APEC strain was discriminated from native isolates enabling exact differentiation and enumeration. RESEARCH HIGHLIGHTS Lux-tagged APEC strain was used for infection to differentiate from native E. coli. Pathologically, lungs, air sacs and spleen but not trachea were affected. The route of infection strongly impacts the pathological outcome with APEC. The infection with APEC via aerosol caused the most severe lesions in chickens.</abstract><cop>England</cop><pub>Taylor & Francis</pub><pmid>34505551</pmid><doi>10.1080/03079457.2021.1978392</doi><tpages>10</tpages></addata></record>
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subjects	aerosol Aerosols Animals APEC Avian pathogenic Escherichia coli Bird Diseases - microbiology Birds Body organs Body weight Bronchitis Chickens Chickens - microbiology Colibacillosis E coli Enumeration Escherichia coli experimental infection Histology Infections Inoculation Inoculum Lesions Lungs lux-tagged Microbiological strains Organs Pathogenesis Respiratory organs Respiratory tract Respiratory tract diseases Respiratory tract infection Respiratory Tract Infections - microbiology Respiratory Tract Infections - veterinary Spleen Tagging Trachea
title	Aerosol is the optimal route of respiratory tract infection to induce pathological lesions of colibacillosis by a lux-tagged avian pathogenic Escherichia coli in chickens
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