UMLS:C0348321 - FACTA Search

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Query: UMLS:C0348321 (Haemophilus)
15,372 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thirty-seven strains of the genus Haemophilus and five strains of Streptococcus pneumoniae were examined for their ability to produce extracellular enzyme that cleaves immunoglobulin molecules. All strains of H. influenzae, H. aegyptius, and S. pneumoniae elaborated enzyme that selectively cleaved human immunoglobulin A1 (IgA1) myeloma proteins but was inactive against a variety of other proteins including human IgA2, IgG, and IgM, porcine and bovine secretory IgA, human and bovine serum albumins, and ovalbumin. Although susceptible, human secretory IgA remained largely undigested. Two strains of H. pleuropneumoniae isolated from fatally infected pigs cleaved porcine secretory IgA, but had no effect on human IgA proteins. None of 16 strains that belonged to nonpathogenic Haemophilus species produced IgA protease. Analyses of the cleavage products of human IgA1 and secretory IgA proteins by immunochemical methods, sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and analytical ultracentrifugation revealed that Fab and Fc fragments were produced. Since the production of IgA1 protease by Neisseria meningitidis has been reported previously, our finding that H. influenzae and S. pneumoniae produce an IgA1 protease indicates that this is a property of all three major etiological agents of bacterial meningitis. This suggests that IgA1 protease production may be an important factor in the pathogenesis of this disease.
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PMID:Pathogenic species of the genus Haemophilus and Streptococcus pneumoniae produce immunoglobulin A1 protease. 4 Aug 78

Bacterial strains of Haemophilus species and Streptococcus pneumoniae were examined for synthesis of the enzyme immunoglobulin A1 (IgA1) protease. Of 36 H. influenzae strains examined, 35 produced IgA1 protease; strains included all six capsular types, unencapsulated variants of types b and d, and untypable H. influenzae. Eight Haemophilus strains (non-H. influenzae) were studied, and two produced IgA1 protease. All 10 strains of S. pneumoniae produced IgA1 protease; these strains included 9 different capsular polysaccharide types and 1 untypable strain. Both IgA1 proteases cleaved myeloma IgA1 and secretory IgA but not myeloma IgA2, IgM, or IgG as determined by immunoelectrophoresis. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that both enzymes cleaved IgA1 myeloma sera, but not IgA2, into two fragments. The apparent molecular weight of the cleaved fragments was dependent both on the apparent molecular weight of the cleaved fragments was dependent both on the specific IgA1 protease assayed and the specific IgA1 substrate utilized. It is postulated that both carbohydrate variation between the IgA1 substrates studied and the ability of S. pneumoniae glycosidases to cleave carbohydrates from glycoprotein offer an explanation for the different fragment sizes observed.
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PMID:Immunoglobulin A1 protease production by Haemophilus influenzae and Streptococcus pneumoniae. 4 Aug 80

The bacterial immunoglobulin A1 (IgA1) proteases are putative virulence factors secreted by a number of human pathogens capable of penetrating the mucosal barrier. Among Haemophilus influenzae strains, the IgA1 protease is found in several allelic forms with different serological neutralizing properties. A comparison of the primary structures of four serologically distinct H. influenzae IgA1 proteases suggests that this variation is caused by epitopes of the discontinuous conformational type. Analysis of the homologies among the four iga genes indicates that the variation results from transformation and subsequent homologous recombination in the iga gene region among H. influenzae strains. We find evidence for gene rearrangements, including transpositions in the iga gene region encoding the secretory part of the IgA1 preprotease. The amino acid sequence of the C terminus of the preprotease (the beta-core), which is assumed to be involved in secretion of the protease by forming a pore in the outer membrane, is highly conserved. In contrast to conserved areas in the protease domain, the nucleotide sequence encoding the beta-core showed a striking paucity of synonymous site variation.
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PMID:A comparative genetic study of serologically distinct Haemophilus influenzae type 1 immunoglobulin A1 proteases. 137 17

Chimpanzee secretory immunoglobulin A (SIgA) was separated into two fractions by chromatography using the terminal galactose-binding lectin Jacalin. The SIgA fraction bound by Jacalin was cleaved by Haemophilus influenzae IgA1 protease, whereas the SIgA nonbinding fraction was not cleaved. It is proposed that these fractions represent IgA1 and IgA2 subclasses because the presence or absence of galactose-terminal oligosaccharides (Jacalin binding) and susceptibility or resistance to IgA1 protease are properties that define human IgA1 and IgA2 subclasses.
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PMID:Identification of two subclasses of IgA in the chimpanzee (Pan troglodytes). 140 36

The nonencapsulated, IgA protease-positive Haemophilus influenzae strain Rd and serogroup b clinical isolates were found to proliferate in human milk. Growth did not require supplemental X and V factors. In milk, strain Rd synthesized IgA protease, but it was completely inhibited by antibody, so secretory IgA in milk cultures remained intact. Inhibition was largely attributable to IgA1 antibodies. Rd cells also aggregated during growth in milk and showed colony size variation, whereas a protease-negative mutant of Rd (Rd225DK) aggregated less and had uniform colony size. Like differences in protease inhibition, these differences in growth pattern were mediated by secretory IgA1. Thus, milk antibody not only inhibited the extracellular protease but also interacted directly with the enzyme precursor or related antigens on growing bacterial cells. This self-protective property of milk secretory IgA may be an important immunologic attribute for the upper respiratory mucosa of the infant.
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PMID:Growth of Haemophilus influenzae in human milk: synthesis, distribution, and activity of IgA protease as determined by study of iga+ and mutant iga- cells. 160 7

Immunoglobulin (Ig)A proteases synthesized by human mucosal pathogens have a unique specificity for human IgA and will not cleave IgA from other species. In contrast, animal pathogens have not reliably been shown to cleave IgA of the animals they infect. This lack of an animal model has prevented an understanding of the importance of IgA1 proteases as virulence factors. One strategy to develop an animal model would be to identify a species capable of infection by a human IgA-producing pathogen whose IgA was susceptible to cleavage by IgA1 protease of that bacterium. The chimpanzee can be infected with Haemophilus influenzae and is closely related immunologically to man. For these reasons it was sought to determine whether chimpanzee secretory IgA (SIgA) is susceptible to cleavage by IgA1 protease of H. influenzae. This report shows that chimpanzee SIgA can indeed be cleaved at the hinge region by H. influenzae IgA1 protease into Fab alpha and (Fc alpha)2.SC fragments. The susceptibility of chimpanzee SIgA to IgA1 protease of a human pathogen could serve as the basis of an animal model to determine the importance of IgA1 protease in pathogenesis.
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PMID:Cleavage of chimpanzee secretory immunoglobulin A by Haemophilus influenzae IgA1 protease. 179 27

The amino acid sequence T-P-P-T-P-S-P-S is tandemly duplicated in the heavy chain of human immunoglobulin A1 (IgA1), the major antibody in secretions. The bacterial pathogen Streptococcus sanguis, a precursor to dental caries and a cause of bacterial endocarditis, yields IgA protease that cleaves only the Pro-Thr peptide bond in the left duplication, while the type 2 IgA proteases of the genital pathogen Neisseria gonorrhoeae and the respiratory pathogen Haemophilus influenzae cleave only the P-T bond in the right half. We have sequenced the entire S. sanguis iga gene cloned into Escherichia coli. A segment consisting of 20 amino acids tandemly repeated 10 times, of unknown function, occurs near the amino-terminal end of the enzyme encoded in E. coli. Identification of a predicted zinc-binding region in the S. sanguis enzyme and the demonstration that mutations in this region result in production of a catalytically inactive protein support the idea that the enzyme is a metalloprotease. The N. gonorrhoeae and H. influenzae enzymes were earlier shown to be serine-type proteases, while the Bacteroides melaninogenicus IgA protease was shown to be a cysteine-type enzyme. The streptococcal IgA protease amino acid sequence has no significant homology with either of the two previously determined IgA protease sequences, that of type 2 N. gonorrhoeae and type 1 H. influenzae. The differences in both structure and mechanism among these functionally analogous enzymes underscore their role in the infectious process and offer some prospect of therapeutic intervention.
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PMID:Analysis of the immunoglobulin A protease gene of Streptococcus sanguis. 198 65

Immunoglobulin A1 (IgA1) proteases are produced by a number of different species of bacteria which cause infection at human mucosal surfaces. The sole substrate of these proteases is human IgA1. Cleavage is within the hinge region of IgA1, although there is variability in the exact peptide bond within the hinge region that is cut by a particular protease. The cleavage site of the Haemophilus influenzae type 1 protease is located four amino acids from the cleavage site of the type 2 enzyme. In this study, the region of the H. influenzae IgA1 protease gene (iga) that determines the cleavage site specificity was localized through the comparison of the type 1 and type 2 genes and the construction and analysis of type 1-type 2 hybrid genes. The hybrid genes were generated by in vivo and in vitro techniques which facilitated the selection and screening of randomly generated hybrids. The cleavage site determinant was found to be within a 370-base-pair region near the amino-terminal coding region, in one of two large areas of nonhomology between the two types of H. influenzae iga genes. DNA sequence analysis of the cleavage site determinant and surrounding regions did not reveal a simple mechanism whereby one enzyme type could be converted to the other type. Comparison of the type 2 gonococcal IgA1 protease gene to the two Haemophilus genes revealed a significant amount of homology around the cleavage site determinant, with the two type 2 genes showing greater homology.
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PMID:Localization of the cleavage site specificity determinant of Haemophilus influenzae immunoglobulin A1 protease genes. 210 70

Haemophilus influenzae type b is a major cause of bacterial meningitis and other invasive diseases in children under four years of age. One surface antigen, the type b capsular polysaccharide, polyribosylribitol phosphate (PRP), is a primary virulence factor of the organism. Antibody directed against PRP is protective; however, the purified polysaccharide is poorly immunogenic in young children. Polysaccharide-protein conjugate vaccines have been prepared which are significantly more immunogenic and efficacious in young children compared to the plain polysaccharide vaccine. Noncapsular surface antigens may also play a role in the virulence of H. influenzae. Some mutants (or phase variants) which differ in lipooligosaccharide (LOS) structure exhibit decreased virulence in the infant rat model of bacteremia. Proteins including the IgA protease, pili, a 98K outer membrane protein (OMP) as well as OMPs P1, P2 and P6 have also been examined in considerable detail, but whether they have a role in the virulence of the organism remains to be determined. However, antibody directed against the 98K OMP as well as P1, P2 and P6 is protective in the infant rat model of bacteremia. The role of antibody directed against LOS epitopes in protection is less clear, due at least in part, to phase variation in LOS antigens. Characterization of one surface antigen of H. influenzae type b, the capsular polysaccharide, already has led to the prevention of many cases of Haemophilus disease. Characterization of the noncapsular antigens together with a more detailed understanding of the mechanisms of virulence, most likely will permit development of even better vaccines, and possibly better treatment modalities, in the future.
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PMID:Haemophilus influenzae: surface antigens and aspects of virulence. 219 7

Secretion of immunoglobulin A1 (IgA1) proteases is a characteristic of Haemophilus influenzae and several other bacterial pathogens causing infectious diseases, including meningitis. Indirect evidence suggests that the proteases are important virulence factors. In this study, we cloned the iga gene encoding immunoglobulin A1 (IgA1) protease from H. influenzae serotype b into Escherichia coli, in which the recombinant H. influenzae iga gene was expressed and the resulting protease was secreted. Sequencing a part of a 7.5-kilobase DNA fragment containing the iga gene revealed a large open reading frame with a strongly biased codon usage and having the potential of encoding a protein of 1,541 amino acids and a molecular mass of 169 kilodaltons. Putative promoter and terminator elements flanking the open reading frame were identified. Comparison of the deduced amino acid sequence of this H. influenzae IgA1 protease with that of a similar protease from Neisseria gonorrhoeae revealed several domains with a high degree of homology. Analogous to mechanisms known from the N. gonorrhoeae IgA protease secretion, we propose a scheme of posttranslational modifications of the H. influenzae IgA1 protease precursor, leading to a secreted protease with a molecular mass of 108 kilodaltons, which is close to the 100 kilodaltons reported for the mature IgA1 protease.
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PMID:Cloning and sequencing of the immunoglobulin A1 protease gene (iga) of Haemophilus influenzae serotype b. 250 30

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