Serum antibody response to Pseudomonas aeruginosa antigens during corneal infection

Preston, M J; Berk, Jeffrey; Hazlett, Linda D.; Berk, Richard S.

doi:10.1128/iai.59.6.1984-1990.1991

Cited by 15 publications

(7 citation statements)

References 28 publications

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“…Immune response to infection. Previous works have established the pattern of immune responses to P. aeruginosa antigens during corneal infection with strain 19660 (20,22,23). In this study, we sought to determine whether P. aeruginosaspecific serum IgG could be elicited after infection with lowlevel challenge doses.…”

Section: Resultsmentioning

confidence: 99%

“…In this model, scratches are made on the corneas of mice anesthetized with inhalants such as ether, and the challenge strain of P. aeruginosa is applied in a small volume (5 l). However, only a few strains of P. aeruginosa have been reported to be pathogenic under these conditions, and inocula of 10 7 to 10 8 CFU are needed to initiate infection (1,2,11,15,20,22,23). The limited number of virulent strains and the need for high-challenge inocula has restricted the use of this model in the evaluation of microbial and host factors involved in the pathogenesis of P. aeruginosa corneal infections.…”

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Rapid and sensitive method for evaluating Pseudomonas aeruginosa virulence factors during corneal infections in mice

et al. 1995

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A murine corneal scratch model has been used extensively to study various aspects of the pathogenesis of Pseudomonas aeruginosa, a common etiologic agent of corneal infections. This model uses mild inhalation anesthetics which keep the animals immobile for a relatively short time and promote the interaction between the infecting organisms and the corneal wound. Under these circumstances, only a small number of P. aeruginosa isolates delivered at inocula of >10 7 CFU are infectious. We determined that this model is useful for studying other P. aeruginosa strains given at lower doses if injectable anesthetics are administered prior to infection to keep the animals immobile for 15 to 30 min. Under these conditions, eight clinical isolates of P. aeruginosa tested at doses of 10 8 CFU per eye induced corneal perforation and/or phthisis in C3H/HeN mice. The 50% infective doses of several strains were between 3 ؋ 10 2 and 1 ؋ 10 5 CFU per mouse eye. When this modified anesthetic procedure was used to evaluate the roles of different P. aeruginosa virulence factors in eye infections, pathology was not observed when eyes were inoculated with 10 8 CFU of strains deficient in production of a complete lipopolysaccharide or the RpoN sigma factor. A strain with a point mutation in the fur gene, involved in production of iron-regulated factors, showed decreased virulence, while a mutant deficient in both hemolytic and nonhemolytic phospholipase C was fully virulent. By modifying the anesthesia procedure, the corneal scratch model allows rapid evaluations of the roles of P. aeruginosa virulence factors in corneal infections.

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Section: Resultsmentioning

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Rapid and sensitive method for evaluating Pseudomonas aeruginosa virulence factors during corneal infections in mice

et al. 1995

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“…Recent substrate specificity studies that examined the serum antibody response to various * Corresponding author. 885 exoenzymes and surface antigens of P. aenrginosa during corneal infection showed that susceptible C57BL/6 mice not only were capable of responding to flagella and the exoenzymes exotoxin A and phospholipase C during both primary and secondary infection but in some cases exceeded the response mounted by DBA/2 mice (29). Neither mouse strain produced antibody to elastase or alkaline protease after either primary or secondary infection (29).…”

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confidence: 99%

“…885 exoenzymes and surface antigens of P. aenrginosa during corneal infection showed that susceptible C57BL/6 mice not only were capable of responding to flagella and the exoenzymes exotoxin A and phospholipase C during both primary and secondary infection but in some cases exceeded the response mounted by DBA/2 mice (29). Neither mouse strain produced antibody to elastase or alkaline protease after either primary or secondary infection (29). These data suggested that the hyporesponsiveness of C57BL/6 mice is restricted to as-yet-unidentified antigens present on the surfaces of P. aeruginosa cells.…”

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Kinetics of serum, tear, and corneal antibody responses in resistant and susceptible mice intracorneally infected with Pseudomonas aeruginosa

et al. 1992

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The studies described here are aimed at determining the kinetics of antibody responses specific to Pseudomonas aeruginosa ATCC 19660 in sera, tears, and corneas of naturally resistant DBAI2 mice and susceptible C57BL16 mice after intracorneal infection. Immunoglobulin (IgG) and IgM responses in sera were significantly greater in DBA/i2 mice for the first 2 weeks postinfection. Little or no IgA was detected in the sera of mice from either strain. IgG was the predominant immunoglobulin class present in the corneas of the infected eyes from both mouse strains. However, differences in both the magnitude and the kinetics of the corneal IgG responses were noted between mouse strains. The kinetics of the corneal IgG responses were more similar to those of the serum IgG response than to those of the tear IgG response. Tear antibody responses in DBAI2 mice differed from those of C57BL/6 mice in two ways. First, there was a sharp increase in tear IgG levels 2 weeks after infection in DBA/2 mice that was not present in C57BL/6 mice. Second, IgA levels present in tears from the infected eyes of C57BU/6 mice dropped to nearly preinfection levels after the first week, whereas in DBA/2 mice, IgA levels remained elevated in the infected eyes after the first week. Determination of P. aeruginosa-specific antibody responses in the uninfected, contralateral control eyes revealed that IgA was detectable in the tears but not in the corneas of DBA/2 mice. Very little IgA was detected in the tears of the uninfected eyes of C57BU/6 mice. IgG was the only immunoglobulin class present in the uninfected corneas in both mouse strains tested. These results suggest that ocular IgA was made locally, whereas most ocular IgG may have originated from the serum, with some possible local synthesis. These immunological results indicate that DBA/2 and C57BL/6 mice respond differently to corneal challenge with P. aeruginosa.Pseudomonas aeruginosa is an opportunistic pathogen which causes severe corneal infections in humans and experimental animals (3,6,11,32,33). Previous experimental studies from our laboratory have indicated that DBA/2 mice can spontaneously restore corneal clarity within a few weeks after infection; they are therefore classified as naturally resistant (2, 12). Resistance was dependent, in part, on the presence of polymorphonuclear leukocytes, complement component C3, and the virulence of the infecting organism (7,13,16). On the other hand, C57BL/6 mice initially exhibit the same severity of ocular infection at 24 to 72 h postinfection that DBA/2 mice do but are unable to restore corneal clarity within a period of 4 weeks; they are therefore, classified as susceptible (2, 12). Studies of the inflammatory cell response during corneal infection in mice demonstrated that the polymorphonuclear leukocyte response was greater in DBA/2 mice than it was in C57BL/6 mice for the first 24 h of infection but was lower by 3 days postinfection (16a). Corneal infection in C57BL/6 mice usually leads to corneal perforation, phthisis bulbi (shrinkage...

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“…Antigenic properties of exoproducts P. aeruginosa produces a number of secreted virulence factors including exotoxin A, exoenzyme S, proteases I (neutral protease) and III (alkaline phosphatase), elastase, hemolysins (thermolabile phosphatase C and thermostable acid glycolipid), enter- Table 1 Probable role of extracellular products of P. aeruginosa in virulence and immunogenicity Extracellular antigen Role in virulence Antibody or protective response Reference Proteases : (i) Elastase Induces hemorrhagic lesions and necrosis, Abs in patients with chronic and/or active [18^20] tissue invasion, destruction of host defenses, P. aeruginosa infections; provide protections against e.g. complements and opsonins severe lung lesions in animal models (ii) Alkaline protease Destruction of non-speci¢c host defenses, Abs detected in burn wound patients [21] tissue invasion Phospholipase C Destruction of pulmonary surfactant Rise in Ab titer in CF patients colonized with [22,23] Generation of in£ammatory mediators P. aeruginosa, and in animal model infections Rhamnolipids…”

Section: Introductionmentioning

confidence: 99%

Pseudomonas aeruginosa antigens as potential vaccines

Stanislavsky

1997

FEMS Microbiology Reviews

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Pseudomonas aeruginosa is one of the most important opportunistic bacterial pathogens in humans and animals. This organism is ubiquitous and has high intrinsic resistance to antibiotics due to the low permeability of the outer membrane and the presence of numerous multiple drug efflux pumps. Various cell-associated and secreted antigens of P. aeruginosa have been the subject of vaccine development. Among pseudomonas antigens, the mucoid substance, which is an extracellular slime consisting predominantly of alginate, was found to be heterogeneous in terms of size and immunogenicity. High molecular mass alginate components (30^300 kDa) appear to contain conserved epitopes while lower molecular mass alginate components (10^30 kDa) possess conserved epitopes in addition to unique epitopes. Surface-exposed antigens including Oantigens (O-specific polysaccharide of LPS) or H-antigens (flagellar antigens) have been used for serotyping due to their highly immunogenic nature. Chemical structures of repeating units of O-specific polysaccharides have been elucidated and these data allowed the identification of 31 chemotypes of P. aeruginosa. Conserved epitopes among all serotypes of P. aeruginosa are located in the core oligosaccharide and the lipid A region of LPS and immunogens containing these epitopes induce crossprotective immunity in mice against different P. aeruginosa immunotypes. To examine the protective properties of OM proteins, a vaccine containing P. aeruginosa OM proteins of molecular masses ranging from 20 to 100 kDa has been used in pre-clinical and clinical trials. This vaccine was efficacious in animal models against P. aeruginosa challenge and induced high levels of specific antibodies in human volunteers. Plasma from human volunteers containing anti-P. aeruginosa antibodies provided passive protection and helped the recovery of 87% of patients with severe forms of P. aeruginosa infection. Vaccines prepared from P. aeruginosa ribosomes induced protective immunity in mice, but the efficacy of ribosomal vaccines in humans is not yet known. A number of recent studies indicated the potential of some P. aeruginosa antigens that deserve attention as new vaccine candidates. The outer core of LPS was implicated to be a ligand for binding of P. aeruginosa to airway and ocular epithelial cells of animals. However, heterogeneity exists in this outer core region among different serotypes. Epitopes in the inner core are highly conserved and it has been demonstrated to be surface-accessible, and not masked by O-specific polysaccharide. The use of an in vivo selection/expression technology (IVET) by a group of researchers identified a number of P. aeruginosa proteins that are expressed in vivo and essential for virulence. Two of these in vivo-expressed proteins are FptA (ferripyochelin receptor protein) and a homologue of an LPS biosynthetic enzyme. Our laboratory has identified a highly conserved protein, WbpM, and P. aeruginosa with a deficiency in this protein produces only rough LPS and became serum sensit...

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Serum antibody response to Pseudomonas aeruginosa antigens during corneal infection

Cited by 15 publications

References 28 publications

Rapid and sensitive method for evaluating Pseudomonas aeruginosa virulence factors during corneal infections in mice

Rapid and sensitive method for evaluating Pseudomonas aeruginosa virulence factors during corneal infections in mice

Kinetics of serum, tear, and corneal antibody responses in resistant and susceptible mice intracorneally infected with Pseudomonas aeruginosa

Pseudomonas aeruginosa antigens as potential vaccines

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