Immunological Reaction of Guinea-pigs Following Intranasal Mycoplasma pneumoniae Infection and Immunization with the 168 kDa Adherence Protein

Jacobs, Enno; Drews, M.; Stuhlert, A.; Büttner, C.; Klein, P. J.; Kist, Manfred; Bredt, W.

doi:10.1099/00221287-134-2-473

Cited by 17 publications

(25 citation statements)

References 12 publications

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“…Similar problems were encountered with temperature-sensitive mutant vaccines (51,172,388,389). Other vaccine candidates have included acellular protein and polysaccharide components and recombinant DNA (50,52,123,204,206). While the importance of the P1 adhesin in mediating M. pneumoniae cytadherence and initiation of disease cannot be denied, animal studies using P1 as a vaccine antigen have not demonstrated protective efficacy (76,(204)(205)(206).…”

Section: Vaccinesmentioning

confidence: 99%

“…Other vaccine candidates have included acellular protein and polysaccharide components and recombinant DNA (50,52,123,204,206). While the importance of the P1 adhesin in mediating M. pneumoniae cytadherence and initiation of disease cannot be denied, animal studies using P1 as a vaccine antigen have not demonstrated protective efficacy (76,(204)(205)(206). Experimental animal studies involving mice (449,450) hamsters (18,(75)(76)(77), guinea pigs (206), and chimpanzees (21,153) have continued through the 1980s and 1990s, but to our knowledge there have been no recent clinical trials in humans with any newer versions of M. pneumoniae vaccines, and there is no indication that any type of vaccine will be approved for use against M. pneumoniae any time soon.…”

Section: Vaccinesmentioning

confidence: 99%

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Mycoplasma pneumoniaeand Its Role as a Human Pathogen

2004

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Mycoplasma pneumoniae is a unique bacterium that does not always receive the attention it merits considering the number of illnesses it causes and the degree of morbidity associated with it in both children and adults. Serious infections requiring hospitalization, while rare, occur in both adults and children and may involve multiple organ systems. The severity of disease appears to be related to the degree to which the host immune response reacts to the infection. Extrapulmonary complications involving all of the major organ systems can occur in association with M. pneumoniae infection as a result of direct invasion and/or autoimmune response. The extrapulmonary manifestations are sometimes of greater severity and clinical importance than the primary respiratory infection. Evidence for this organism's contributory role in chronic lung conditions such as asthma is accumulating. Effective management of M. pneumoniae infections can usually be achieved with macrolides, tetracyclines, or fluoroquinolones. As more is learned about the pathogenesis and immune response elicited by M. pneumoniae, improvement in methods for diagnosis and prevention of disease due to this organism may occur

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Section: Vaccinesmentioning

confidence: 99%

Section: Vaccinesmentioning

confidence: 99%

Mycoplasma pneumoniaeand Its Role as a Human Pathogen

2004

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“…The spectrum of vaccines examined includes killed whole-cell vaccines (formalin), live temperaturesensitive mutants, polysaccharide extracts, protein extracts, and single component vaccines e.g. P1 vaccine (2,18). A large number of studies in both animal models and humans led to the recognition of several important findings.…”

Section: Discussionmentioning

confidence: 99%

“…Among their investigations, experimental animal infections were successful and these findings were integral to the development of better-defined animal models when the etiological agent could be artificially cultivated (9,11). Recent studies have favored the golden Syrian hamster or the guinea pig as hosts in the model systems (3,18), and a spectrum of histopathological scoring schemata has been employed to describe the pulmonary pathology (3,14,15,18,26). Despite the apparent fact that M. pneumoniae is not a natural pathogen in the aforementioned animals, the nature of the histopathology after experimental infection is analogous to that recorded for human pulmonary infection (24).…”

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confidence: 99%

Definition and Application of a Histopathological Scoring Scheme for an Animal Model of Acute Mycoplasma pneumoniae Pulmonary Infection

Cimolai

Taylor

Mah

et al. 1992

Microbiology and Immunology

122

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A histopathological scoring system was developed to assess the pathology of acute Mycoplasma pneumoniae pulmonary infection in a hamster model. A final score per animal (ranging 0-26) is obtained by averaging scores from each lung which have been accumulated by the addition of subscores from the assessments of quantity and quality of peribronchiolar and peribronchial infiltrates, luminal exudates, perivascular infiltrates, and parenchymal pneumonia. The scoring scheme was then applied to test the ability of a heat-killed inoculum to induce pulmonary pathology and to the trial of a 43 kDa protein-associated antigen as a vaccine immunogen. A heat-killed inoculum delivered by both intratracheal and intranasal routes did not induce pulmonary pathology compared to a live inoculum (respective mean scores 0

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“…Live vaccines composed of M. pneumoniae strains attenuated by continuous passages in vitro or temperature-sensitive mutants protected hamsters, but are unsuitable for human use because they retained partial virulence or decreased immunogenicity (4, 12). A current approach to vaccine development is based on producing cell extract vaccines made of defined cell components of the pathogen (5-7), especially the disease-related and virulence-related antigenic components, such as the attachment protein P1 (17,18). It is not clear whether a vaccine made entirely of the P1 protein would be effective in protection against M. pneumoniae disease.…”

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confidence: 99%

Relationship between an 85 kDa Protein and the Protective Effects of Mycoplasma pneumoniae

Yayoshi

Sasaki

Yoshioka³

1992

Microbiology and Immunology

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In the immunoblot analysis, sera from patients infected with Mycoplasma pneumoniae reacted with the 168 kDa (P1) and the 85 kDa proteins of virulent strain FH-P24 and P24-S1 mutant strain but not with the 85 kDa protein of P24-S11. Sera of hamsters and BALB/c mice, which had been immunized with live vaccines, were tested. In FH-P24 immunized animals, 100% or 80%, and in P24-S1, 40% of hamsters and 60% of BALB/c mice, developed antibodies against the 85 kDa protein, but antibodies were not detected in sera of P24-S11 immunized animals. The correlation between the development of antibodies to 85 kDa protein in the sera of vaccinated animals and the effects of protection by living vaccines were suggested.Mycoplasma pneumoniae is a major cause of epidemic nonviral pneumonia in children and young adults. An effective vaccine against M. pneumoniae disease would therefore be desirable.There have been three basic approaches to vaccine development, a whole-cell formalin-inactivated vaccine (22,23,25), a live attenuated vaccine (4, 11, 12) and a purified component vaccine (3,5,6). A single dose of inactivated vaccine has only a minimal protective effect. Multiple doses of vaccine containing adjuvant protect hamsters. The protective effect of inactivated vaccine was dose-dependent (1). Live vaccines composed of M. pneumoniae strains attenuated by continuous passages in vitro or temperature-sensitive mutants protected hamsters, but are unsuitable for human use because they retained partial virulence or decreased immunogenicity (4, 12). A current approach to vaccine development is based on producing cell extract vaccines made of defined cell components of the pathogen (5-7), especially the disease-related and virulence-related antigenic components, such as the attachment protein P1 (17, 18). It is not clear whether a vaccine made entirely of the P1 protein would be effective in protection against M. pneumoniae disease.We previously isolated nonhemolysis mutants of M. pneumoniae FH-P24 by the nitrosoguanidine (NTG) method (31, 32). Two of those mutants, P24-S1 and P24-S11, lost the virulence to golden hamsters. Only P24-S1 live vaccine showed protectivity in hamsters and BALB/c mice (33, 34) . The antibody, especially of 455

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Immunological Reaction of Guinea-pigs Following Intranasal Mycoplasma pneumoniae Infection and Immunization with the 168 kDa Adherence Protein

Cited by 17 publications

References 12 publications

Mycoplasma pneumoniaeand Its Role as a Human Pathogen

Mycoplasma pneumoniaeand Its Role as a Human Pathogen

Definition and Application of a Histopathological Scoring Scheme for an Animal Model of Acute Mycoplasma pneumoniae Pulmonary Infection

Relationship between an 85 kDa Protein and the Protective Effects of Mycoplasma pneumoniae

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