Development of bactericidal antibody during branhamella catarrhalis infection

Alann J. Chapman; Daniel M. Musher; Steinn Jonsson; Jill E. Clarridge; Richard J. Wallace

doi:10.1093/infdis/151.5.878

Development of bactericidal antibody during branhamella catarrhalis infection

Alann J. Chapman, Daniel M. Musher, Steinn Jonsson, Jill E. Clarridge, Richard J. Wallace

Faculty of Medicine

University of Iceland

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

Abstract

The recent observation that Branhamella catarrhalis may cause a variety of infections in humans has stimulated interest in human host defenses against this organism. We encountered 21 patients with B. catarrhalis infection: Seven with pneumonia, 13 with a purulent exacerbation of chronic bronchitis, and one with purulent sinusitis. Normal human serum (NHS) demonstrated no bactericidal activity against 20 of the 21 isolates. In contrast, 7 of 19 acute and 18 of 20 convalescent sera demonstrated significant bactericidal effects against the corresponding B. catarrhalis isolate. Heating convalescent sera to 56 C for 30 min abolished bactericidal activity. This activity was restored by NHS but not by complement-rich guinea pig serum. Selective blockage of the classic complement pathway eliminated bactericidal activity, whereas selective blockage of the alternative pathway did not. IgG isolated from convalescent serum plus NHS was bactericidal for the corresponding B. catarrhalis isolate. These results suggest that most patients with pulmonary infections due to B. catarrhalis develop a convalescent IgG antibody response that mediates serum bactericidal activity by the classic complement pathway.

Original language	English
Pages (from-to)	878-882
Number of pages	5
Journal	Journal of Infectious Diseases
Volume	151
Issue number	5
DOIs	https://doi.org/10.1093/infdis/151.5.878
Publication status	Published - May 1985

Bibliographical note

Funding Information: From the Medical Service, Infectious Diseases Section, and the Laboratory Service, Veterans Administration Medical Center, Houston; the Departments ofMedicine, and Microbiology and Immunology, Baylor College ofMedicine, Houston; and the Department ofMicrobiology Research, University of TexasHealth Science Center, Tyler, Texas

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title = "Development of bactericidal antibody during branhamella catarrhalis infection",

abstract = "The recent observation that Branhamella catarrhalis may cause a variety of infections in humans has stimulated interest in human host defenses against this organism. We encountered 21 patients with B. catarrhalis infection: Seven with pneumonia, 13 with a purulent exacerbation of chronic bronchitis, and one with purulent sinusitis. Normal human serum (NHS) demonstrated no bactericidal activity against 20 of the 21 isolates. In contrast, 7 of 19 acute and 18 of 20 convalescent sera demonstrated significant bactericidal effects against the corresponding B. catarrhalis isolate. Heating convalescent sera to 56 C for 30 min abolished bactericidal activity. This activity was restored by NHS but not by complement-rich guinea pig serum. Selective blockage of the classic complement pathway eliminated bactericidal activity, whereas selective blockage of the alternative pathway did not. IgG isolated from convalescent serum plus NHS was bactericidal for the corresponding B. catarrhalis isolate. These results suggest that most patients with pulmonary infections due to B. catarrhalis develop a convalescent IgG antibody response that mediates serum bactericidal activity by the classic complement pathway.",

author = "Chapman, \{Alann J.\} and Musher, \{Daniel M.\} and Steinn Jonsson and Clarridge, \{Jill E.\} and Wallace, \{Richard J.\}",

note = "Funding Information: From the Medical Service, Infectious Diseases Section, and the Laboratory Service, Veterans Administration Medical Center, Houston; the Departments ofMedicine, and Microbiology and Immunology, Baylor College ofMedicine, Houston; and the Department ofMicrobiology Research, University of TexasHealth Science Center, Tyler, Texas",

year = "1985",

month = may,

doi = "10.1093/infdis/151.5.878",

language = "English",

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pages = "878--882",

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AU - Chapman, Alann J.

AU - Musher, Daniel M.

AU - Jonsson, Steinn

AU - Clarridge, Jill E.

AU - Wallace, Richard J.

N1 - Funding Information: From the Medical Service, Infectious Diseases Section, and the Laboratory Service, Veterans Administration Medical Center, Houston; the Departments ofMedicine, and Microbiology and Immunology, Baylor College ofMedicine, Houston; and the Department ofMicrobiology Research, University of TexasHealth Science Center, Tyler, Texas

PY - 1985/5

Y1 - 1985/5

N2 - The recent observation that Branhamella catarrhalis may cause a variety of infections in humans has stimulated interest in human host defenses against this organism. We encountered 21 patients with B. catarrhalis infection: Seven with pneumonia, 13 with a purulent exacerbation of chronic bronchitis, and one with purulent sinusitis. Normal human serum (NHS) demonstrated no bactericidal activity against 20 of the 21 isolates. In contrast, 7 of 19 acute and 18 of 20 convalescent sera demonstrated significant bactericidal effects against the corresponding B. catarrhalis isolate. Heating convalescent sera to 56 C for 30 min abolished bactericidal activity. This activity was restored by NHS but not by complement-rich guinea pig serum. Selective blockage of the classic complement pathway eliminated bactericidal activity, whereas selective blockage of the alternative pathway did not. IgG isolated from convalescent serum plus NHS was bactericidal for the corresponding B. catarrhalis isolate. These results suggest that most patients with pulmonary infections due to B. catarrhalis develop a convalescent IgG antibody response that mediates serum bactericidal activity by the classic complement pathway.

AB - The recent observation that Branhamella catarrhalis may cause a variety of infections in humans has stimulated interest in human host defenses against this organism. We encountered 21 patients with B. catarrhalis infection: Seven with pneumonia, 13 with a purulent exacerbation of chronic bronchitis, and one with purulent sinusitis. Normal human serum (NHS) demonstrated no bactericidal activity against 20 of the 21 isolates. In contrast, 7 of 19 acute and 18 of 20 convalescent sera demonstrated significant bactericidal effects against the corresponding B. catarrhalis isolate. Heating convalescent sera to 56 C for 30 min abolished bactericidal activity. This activity was restored by NHS but not by complement-rich guinea pig serum. Selective blockage of the classic complement pathway eliminated bactericidal activity, whereas selective blockage of the alternative pathway did not. IgG isolated from convalescent serum plus NHS was bactericidal for the corresponding B. catarrhalis isolate. These results suggest that most patients with pulmonary infections due to B. catarrhalis develop a convalescent IgG antibody response that mediates serum bactericidal activity by the classic complement pathway.

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DO - 10.1093/infdis/151.5.878

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SN - 0022-1899

VL - 151

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EP - 882

JO - Journal of Infectious Diseases

JF - Journal of Infectious Diseases

IS - 5

ER -

Development of bactericidal antibody during branhamella catarrhalis infection

Abstract

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