Non-opsonic attachment of Bordetella bronchiseptica mediated by CD11/CD18 and cell surface carbohydrates

Lectinocytochemical detection of apoptotic murine leukemia L1210 cells

BACKGROUND

Various cytomorphologic and biochemical markers of apoptosis are found in different compartments (plasma membrane, cytoplasm, nucleus, and mitochondria) of target cells. Although the plasma membrane is an easily accessible cellular compartment, relatively little is known about its changes during apoptosis. We investigated whether specific changes in the expression of plasma membrane glycoproteins take place during apoptosis and whether these changes could be used for a quantitative estimation of apoptosis.

METHODS

Lectin cytochemical study of normal and apoptotic murine leukemia cells of the L1210 line was done. Horseradish peroxidase-labeled Laburnum anagyroides bark agglutinin, Phaseolus vulgaris agglutinin, Pisum sativum lectin (PSL), Ricinus communis agglutinin (RCA-120; 120 kDa), Solanum tuberosum agglutinin, Triticum vulgaris lectin (wheat germ agglutinin), Viscum album agglutinin, Canavalia ensiformis lectin (concanavalin A), and Helix pomatia lectin were used to compare specific glycoprotein expressions in normal and apoptotic murine leukemia cells of the L1210 line sensitive (L1210) and resistant (L1210R) to apoptosis induction by cisplatin.

RESULTS

The data demonstrated significantly increased binding of alpha-D-mannose-specific PSL lectin (P<0.01) and beta-D-galactose-specific RCA-120 lectin (P<0.001) by the apoptotic cells of the L1210 and L1210R lines in comparison with the intact cells. That binding was shown to be specific because it was blocked by the corresponding inhibitory sugars.

CONCLUSIONS

Lectins specific to alpha-D-mannose (PSL) and beta-D-galactose (RCA-120) can be used to distinguish between native and apoptotic murine leukemia L1210 cells and to quantitatively estimate apoptosis in a population of these cells.

Role of the lectin domain of Mac-1/CR3 (CD11b/CD18) in regulating intercellular adhesion

Leukocyte diapedesis requires that Mac-1/CR3-dependent adhesion be regulated so that cells can move from one attachment site to another. The high affinity adhesion state of Mac-1/CR3 is generated when it forms a lectin-dependent complex with the receptor for urokinase plasminogen activator (uPAR; CD87). The extensively glycosylated uPAR binds to the same C-terminal lectin domain of CD11b that had previously been shown to prime Mac-1/CR3 for cytotoxic degranulation in response to beta-glucan. uPAR and beta-glucan compete for a lectin site that is near to the CBRM1/23 epitope (residues 943-1047) at the C-terminus of CD11b, and thus the lectin domain is critical to both the adhesion and cytotoxic functions of Mac-1/CR3. Adhesion is reversed when the uPA enzyme is captured by its receptor (uPAR), causing uPAR to bind to CD11b at a second site (residues 424-440) that is in between the N-terminal I-domain and the divalent cation binding region.

Environmental sensing mechanisms in Bordetella

The success of a bacterial pathogen may depend on its ability to sense and respond to different environments. This is particularly true of those pathogens whose survival depends on adaptation to different niches both within and outside the host. Members of the genus Bordetella cause infections in humans, other animals and birds. Two closely related species, B. pertussis and B. bronchiseptica, cause respiratory disease and express a similar range of virulence factors during infection, but exhibit different host ranges and responses to environmental change. B. pertussis has no known reservoir other than humans and is assumed to be transmitted directly via aerosol droplets between hosts. B. bronchiseptica, on the other hand, has the potential to survive and grow in the natural environment. Comparison of the manner in which these two organisms respond to external signals has provided important insights into the co-ordinate regulation of gene expression as a response to a changing environment. During infection, both species produce a range of virulence factors whose expression is co-ordinated by two members of the two-component family of signal transduction proteins, the bvg (bordetella virulence gene) and ris (regulator of intracellular stress response) loci. When active, the bvg locus directs the activity of a number of virulence determinants in both species whose products, such as adhesins and toxins, establish colonization of the host by the bacteria, although each organism has evolved a slightly different strategy during pathogenesis. B. pertussis, the causative agent of whooping cough, promotes an acute disease and tends to be more virulent than B. bronchiseptica which generally causes chronic and persistent asymptomatic colonization of the respiratory tract. The recently identified ris locus appears to control the expression of factors important for intracellular survival of B. bronchiseptica, but a role for this regulatory locus in B. pertussis infection has not been established. Expression of the virulence determinants controlled by the bvg and ris loci is subject to modulation by different environmental signals, such as low temperature, which act through these two-component systems. Evidence indicates that, for B. bronchiseptica, bvg-controlled determinants expressed under modulating conditions, such as motility, facilitate adaptation and survival in environments outside the host. With B. pertussis, however, there is no apparent requirement for prolonged survival outside the host and this difference is reflected in the expression of different, as yet uncharacterized, determinants as a response to modulating signals. The nature of the gene products involved and their assumed role in the life cycle of B. pertussis remains to be determined. Thus, comparative analysis of these species provides an excellent model for understanding the genetic requirements for pathogenesis of respiratory infection and adaptation to changing environments, both within and outside the host.

Role of alveolar epithelial cell intercellular adhesion molecule-1 in host defense against Klebsiella pneumoniae

Intercellular adhesion molecule-1 (ICAM-1) is expressed at high levels on type I alveolar epithelial cells (AEC) in the normal alveolar space. We postulate that AEC ICAM-1 enhances the antimicrobial activity of macrophages and neutrophils in the alveolar space. Wild-type and mutant mice deficient in ICAM-1 were inoculated intratracheally with Klebsiella pneumoniae. After 10 days, 43% of the ICAM-1 mutant mice had died compared with 14% of the wild-type controls (P = 0.003). Significantly more bacteria were isolated from lungs of ICAM-1 mutant mice than controls 24 h after inoculation (log colony-forming units 5.14 +/- 0.21 vs. 3.46 +/- 0. 16, P = 0.001). However, neutrophil recruitment to the lung was not different. In similar experiments in the rat, inhibition of alveolar ICAM-1 by intratracheal administration of antibody resulted in significantly impaired clearance of K. pneumoniae. The role of phagocyte interactions with AEC ICAM-1 for antimicrobial activity was investigated in vitro using primary cultures of rat AEC that express abundant ICAM-1. Alveolar macrophage phagocytosis and killing of K. pneumoniae were increased significantly in the presence of AEC; these effects were inhibited significantly (47.5 and 52%, respectively) when AEC ICAM-1 was blocked. Similarly, neutrophil phagocytic activity for K. pneumoniae in the presence of AEC in vitro was decreased when ICAM-1 on the AEC surface was blocked. Thus in the absence of ICAM-1, there is impaired ability to clear K. pneumoniae from the lungs, resulting in increased mortality. These studies indicate that AEC ICAM-1 plays an important role in host defense against K. pneumoniae by determining the antimicrobial activity of phagocytes within the lung.

Porphyromonas gingivalis fimbriae use beta2 integrin (CD11/CD18) on mouse peritoneal macrophages as a cellular receptor, and the CD18 beta chain plays a functional role in fimbrial signaling

In this study, we demonstrate that Porphyromonas gingivalis fimbriae use molecules of beta2 integrin (CD11/CD18) on mouse peritoneal macrophages as cellular receptors and also show that the beta chain (CD18) may play a functional role in signalling for the fimbria-induced expression of interleukin-1beta (IL-1beta) and tumor necrosis factor alpha (TNF-alpha) genes in the cells. Using a binding assay with 125I-labeled fimbriae, we observed that fimbrial binding to the macrophages was inhibited by treatment with CD11a, CD11b, CD11c, or CD18 antibody but not by that with CD29 antibody. Western blot assays showed that the fimbriae bound to molecules of beta2 integrin (CD11/CD18) on the macrophages. Furthermore, Northern blot analyses showed that the fimbria-induced expression of IL-1beta and TNF-alpha genes in the cells was inhibited strongly by CD18 antibody treatment and slightly by CD11a, CD11b, or CD11c antibody treatment. Interestingly, intracellular adhesion molecule 1 (ICAM-1), a ligand of CD11/CD18, inhibited fimbrial binding to the cells in a dose-dependent manner. In addition, ICAM-1 clearly inhibited the fimbria-induced expression of IL-1beta and TNF-alpha genes in the cells. However, such inhibitory action was not observed with laminin treatment. These results suggest the importance of beta2 integrin (CD11/CD18) as a cellular receptor of P. gingivalis fimbriae in the initiation stage of the pathogenic mechanism of the organism in periodontal disease.

Enhancement of histamine--induced vascular permeability in guinea pigs infected with Bordetella bronchiseptica

In the nasal mucosa, histamine induces vascular permeability, stimulates nociceptive nerves, and recruits parasympathetic reflexes that regulate glandular exocytosis. Unilateral histamine nasal provocations were performed in a group of guinea pigs in the prodromal stage of undiagnosed Bordetella bronchiseptica infection. Vascular permeability in the histamine challenged nostrils was increased approximately 2- to 4-fold compared to healthy animals (p < 0.001). The duration of significant vascular leak was prolonged from 10 to 30 minutes. In the contralateral, nonchallenged nostrils, secretion of total protein and albumin, but not exudation of intravenously infected 125I-bovine serum albumin, was increased, suggesting an augmentation of parasympathetic reflexes without changes in contralateral vascular leak. These observations suggest that Bordetella bronchiseptica infection leads to hyperresponsiveness to histamine in the nasal mucosa with increased vascular permeability and recruitment of nociceptive nerve-parasympathetic reflexes.

Interleukin-10 inhibits neutrophil phagocytic and bactericidal activity

Effective host defense against bacterial invasion is characterized by the vigorous recruitment and activation of inflammatory cells, which is dependent upon the coordinated expression of both pro- and anti-inflammatory cytokines. Interleukin-10 (IL-10) is a recently described cytokine with potent anti-inflammatory properties in vivo and in vitro. In this study we investigated whether IL-10 could directly regulate the ability of neutrophils (PMN) to phagocytose and kill bacteria. Initial studies demonstrated that human recombinant IL-10 (hrIL-10) inhibited the ability of PMN to phagocytose Escherichia coli in vitro. Inhibition of phagocytosis occurred in the absence of changes in CR1 (C3b) or Fc receptor expression, as treatment of PMN with IL-10 failed to induce significant changes in Fc gamma IIR, Fc gamma IIIR or CR1 cell surface expression. However, incubation of PMN with IL-10 resulted in a dose-dependent decrease in CDIIb (Mac-1) expression. In addition to effects on PMN phagocytosis, hrIL-10 significantly attenuated PMN microbicidal activity, as bactericidal assays revealed that co-incubation of PMN with hrIL-10 resulted in a marked decrease in killing of phagocytosed bacteria. Furthermore, IL-10 inhibited the production of superoxide from PMA-stimulated PMN, suggesting that the detrimental effects of IL-10 on PMN microbicidal activity were due, in part, to suppression of respiratory burst. In summary, our studies indicate that IL-10 inhibits PMN-dependent phagocytosis and killing of E. coli in vitro, and suggest that this cytokine may impair effective antibacterial host defense in vivo.

Influence of chondroitinase on indirect hemagglutination titers and phagocytosis of Pasteurella multocida serogroups A, D and F

Capsules of Pasteurella multocida serogroups A, D and F contain mucopolysaccharides which block antigenic determinants and prevent phagocytosis. In this study, capsules of serogroup A, D and F strains of P. multocida were depolymerized by enzyme treatment. Capsule depolymerization of serogroup D and F strains with chondroitinase increased indirect hemagglutination (IHA) test titers and enhanced phagocytosis by swine neutrophils. Capsule depolymerization of serogroup A strains with hyaluronidase increased IHA titers, but depolymerization with chondroitinase did not. When serogroup A strains were treated with a combination of chondroitinase and hyaluronidase, IHA test titers were lower than titers of the same strains treated with hyaluronidase alone. Combined enzyme treatment of serogroup D strains resulted in IHA test titers similar to those of chondroitinase treatment alone.