Identification of Haemophilus influenzae type b by a monoclonal antibody coagglutination assay

A coagglutination assay using monoclonal antibody is described for the identification of Haemophilus influenzae type b. An immunoglobulin G2a monoclonal antibody, Hb-2, directed against a serotype-specific outer membrane protein of H. influenzae type b was adsorbed to Staphylococcus aureus Cowan 1 cells. In a dot enzyme immunoassay, Hb-2 reacted with 453 of 455 H. influenzae type b isolates and did not react with H. influenzae of other serotypes, untypeable H. influenzae strains, or other bacterial species. The Hb-2 coagglutination assay was evaluated by testing 136 H. influenzae type b strains selected on the basis of multilocus enzyme genotypes, 5 strains of another serotype, and 94 untypeable H. influenzae strains. The specificity of the coagglutination assay was demonstrated by the inhibition of the reaction by free Hb-2 monoclonal antibodies. The coagglutination assay was as specific as the dot enzyme immunoassay and can be rapidly performed and easily interpreted.

Genetic and phenotypic diversity among ampicillin-resistant, non-beta-lactamase-producing, nontypeable Haemophilus influenzae isolates

Levels of genotypic and phenotypic diversity among 23 ampicillin-resistant, non-beta-lactamase-producing (Ampr NBLP) isolates of serologically nontypeable Haemophilus influenzae recovered from the respiratory tract were determined by multilocus enzyme electrophoresis, auxotroph testing in chemically defined media, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis of penicillin-binding proteins (PBPs). Twenty distinctive multilocus enzyme genotypes were identified, among which the average level of genetic diversity per locus was equivalent to that in the species as a whole. Hence, a single, recent origin for Ampr NBLP strains is excluded. Of the growth factors tested, a requirement for methionine was significantly associated with the Ampr NBLP phenotype. In contrast to the relative homogeneity of the PBP profiles of the ampicillin-susceptible strains tested (8 PBPs detected), the PBP profiles of the Ampr NBLP strains exhibited marked heterogeneity (5 to 10 PBPs detected). Care should be taken in interpreting changes in PBP profiles and in associating these profiles with resistance for species such as H. influenzae that demonstrate variability.

Molecular Epidemiology of multiply resistant Haemophilus influenzae type b in day care centers

We studied the molecular epidemiology of multiply resistant Haemophilus influenzae type b in four day care centers after each had a case of invasive infection due to organisms resistant to four or more antibiotics. Colonization rates among 174 childhood contacts and 27 employees of the four separate day care centers were 28% in children (range, 13.5%-43.7%) and 22% (range, 18.7%-33.0%) in employees. All strains were type b, were biotype I, were type 12 by isoenzyme analysis, and harbored plasmids whose mass was 45 or 52 megadaltons. Restriction endonuclease analysis indicated that the plasmids were closely related to one another but that there were at least three distinct plasmids. The four index strains had two different outer membrane protein profiles and three distinct plasmid restriction patterns; an additional outer membrane protein profile and plasmid restriction pattern were found in carrier strains.

Clonal diversity and host distribution in Bordetella bronchiseptica

A total of 303 isolates of Bordetella bronchiseptica recovered from 11 host species were characterized by the electrophoretic mobilities of 15 metabolic enzymes, and 21 distinctive multilocus genotypes (electrophoretic types) were distinguished on the basis of allele profiles at the enzyme loci. The population structure of B. bronchiseptica is clonal, and its genetic diversity is limited in comparison with most other pathogenic bacteria, perhaps reflecting a relatively recent origin of the species. Electrophoretic types mark clones which are, in many cases, nonrandomly associated with host species. Clones differing only slightly in overall chromosomal genetic character may have pronounced differences in virulence potential. There was considerable variation among individual clones and clone families in degree of host specificity and among various species of hosts in the diversity of clones causing disease. The diversity of clones infecting dogs was an order of magnitude greater than that of clones infecting pigs. Most bordetellosis in pigs in the United States and Japan was found to be caused by strains of a single multilocus genotype.

Clonal diversity in Haemophilus pleuropneumoniae

Genetic diversity among 135 isolates of nine serotypes of Haemophilus pleuropneumoniae recovered from pigs with pleuropneumonia or other invasive diseases in 14 countries was estimated by multilocus enzyme electrophoresis, which detects allelic variation in structural genes. Thirty-two multilocus genotypes (electrophoretic types [ETs]) were distinguished on the basis of allele profiles at 15 enzyme loci, and 36 distinctive combinations of ET and serotype were identified. The recovery of isolates with identical properties in widely separated geographic regions and over a 20-year period indicated that the population structure of H. pleuropneumoniae is clonal. Isolates of the same ET generally shared the same serotype and electrophoretic pattern of the outer membrane proteins, but some ETs were represented by isolates of several different serotypes, outer membrane protein patterns, or both. On average, the genetic diversity among ETs of the same serotype was 56% of the total genetic diversity in the species. Isolates of serotype 1, which are unusually pathogenic, belong to a distinctive group of clones that are closely related to clones marked by serotype 9.

Methods of multilocus enzyme electrophoresis for bacterial population genetics and systematics

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Genetic relationships of serologically nontypable and serotype b strains of Haemophilus influenzae

A collection of 242 strains of Haemophilus influenzae, including 65 nontypable (unencapsulated) isolates and 177 encapsulated serotype b isolates recovered largely from children with invasive and noninvasive diseases in the United States, was characterized by the electrophoretic mobilities of 15 metabolic enzymes presumably encoded by chromosomal genes. All enzymes were polymorphic for three to seven electromorphs, and 94 distinctive multilocus genotypes (electrophoretic types [ETs]) were distinguished, among which mean genetic (allelic) diversity was 0.500. Isolates recovered from cases of invasive or noninvasive diseases did not differ significantly in level of genetic variation. The observation that 29 ETs were represented exclusively by serotype b isolates and that each of the 65 nontypable isolates was of a unique ET strongly confirmed the hypothesis that unencapsulated clinical isolates are not merely phenotypic variants of the common serotype b cell lines. Rather, the two types of isolates are distinctive subsets of the multilocus chromosomal genotypes of the species as a whole. Serotype b capsule occurred in three groups of isolates that are distantly related in multilocus enzyme genotype. Isolates of four closely related nontypable biotype IV ETs associated with obstetrical infections or neonatal bacteremia were highly divergent from all others examined and may be specifically distinct. A phylogenetic scenario was proposed in which the ancestor of H. influenzae was encapsulated and the nontypable clones arose by convergent evolutionary loss of the ability to synthesize or extracellularly express a polysaccharide capsule.

Genetic diversity and relationships in populations of Bordetella spp

Genetic diversity in 60 strains of three nominal Bordetella species recovered from humans and other mammalian hosts was assessed by analyzing electrophoretically demonstrable allelic variation at structural genes encoding 15 enzymes. Eleven of the loci were polymorphic, and 14 distinctive electrophoretic types, representing multilocus genotypes, were identified. The population structure of Bordetella spp. is clonal, and genetic diversity is relatively limited compared with most other pathogenic bacteria and is insufficient to justify recognition of three species. All isolates of Bordetella parapertussis were of one electrophoretic type, which was closely similar to 9 of the 10 electrophoretic types represented by isolates of Bordetella bronchiseptica. Bordetella pertussis 18-323, which is used in mouse potency tests of vaccines, is more similar genetically to isolates of B. bronchiseptica and B. parapertussis than to other isolates currently assigned to the species B. pertussis. Apart from strain 18-323, the isolates of B. pertussis represented only two closely related clones, and all isolates of B. pertussis from North America (except strain 18-323) were genotypically identical. Strain Dejong, which has been classified as B. bronchiseptica, was strongly differentiated from all of the other Bordetella isolates examined.

A population genetic framework for the study of invasive diseases caused by serotype b strains of Haemophilus influenzae

One hundred seventy-seven isolates of serotype b Haemophilus influenzae recovered largely from children with invasive disease in the United States were characterized by the electrophoretic mobilities of 16 metabolic enzymes, the NaDodSO4/PAGE pattern of outer-membrane proteins (OMP), and biotype. Thirty-two distinctive multilocus genotypes (electrophoretic types, ETs) were distinguished on the basis of allele profiles at the enzyme loci. Twenty-eight OMP types and five biotypes were identified, but only 55 distinctive combinations of ET, OMP type, and biotype were represented. The strong nonrandom associations of characters and the recovery of isolates with identical properties in widely separated geographic regions and over a 40-year period suggest that the population structure of H. influenzae is basically clonal. Examination of nonserotype b isolates indicated that clones of serotype b are a restricted subset of the genotypes in the species as a whole. Currently, most of the invasive H. influenzae disease in the United States is caused by serotype b strains of two related ETs, and, more specifically, much of it is attributable to two subclones marked by OMP type. There is evidence that the frequency of the ET-1/OMP 1H/biotype I subclone has increased dramatically in the United States since the 1939-1954 period. The hypothesis that populations of H. influenzae are subject to marked temporal variation in clonal composition is supported by evidence of major differences in the genetic structure of populations in the United States and the Netherlands.

Immunoreactivity of the two common allozymes of murine glucosephosphate isomerase

There are two common electrophoretic variants (allozymes) of murine glucosephosphate isomerase (GPI). In order to develop immunocytochemical procedures that are allozyme-specific, the two variants (GPI-1A and GPI-1B) were purified from skeletal muscle of several mouse strains and used as antigens for the elicitation of antibodies. The allozymes were purified to a specific activity of 800 units/mg by substrate elution from cellulose phosphate. When the purified allozymes were presented as antigens to goats, rabbits, and mice (both syngeneically and allogeneically), the goats and rabbits produced high titers of anti-GPI antibody, but no humoral antibody was detected in the mice, as determined by radioimmunoassays. Antisera specific for the GPI-1B variant were enriched by absorbing selected sera with GPI-1A conjugated to Sepharose 4B. No antisera specific for GPI-1A were detected following the immunizations. The specificity of the anti-GPI-1B antisera provides a unique opportunity for the development of immunocytochemical procedures for studying the distribution fo this allozyme in chimeric mouse tissues.