Lactobacilli have previously been used to deliver vaccine components for active immunization in vivo. Vectors encoding a single-chain Fv (scFv) antibody fragment, which recognizes the streptococcal antigen I/II (SAI/II) adhesion molecule of Streptococcus mutans, were constructed and expressed in Lactobacillus zeae (American Type Culture Collection (ATCC) 393). The scFv antibody fragments secreted into the supernatant or expressed on the surface of the bacteria showed binding activity against SAI/II in enzyme-linked immunosorbent assay (ELISA), and surface scFv-expressing lactobacilli agglutinated SAI/II-expressing S. mutans in vitro without affecting the corresponding SAI/II knockout strain. Lactobacilli expressing the scFv fragment fused to an E-tag were visualized by scanning electron microscopy (SEM) using beads coated with a monoclonal anti-E-tag antibody, and they bound directly to beads coated with SAI/II. After administration of scFv-expressing bacteria to a rat model of dental caries development, S. mutans bacteria counts and caries scores were markedly reduced. As lactobacilli are generally regarded as safe (GRAS) microorganisms, this approach may be of considerable commercial interest for in vivo immunotherapy.
Mutans streptococci have been correlated with dental caries. The identification of the species within this group is still a problem. The characterization of a monoclonal antibody (Mab) OMVU10 against S. sobrinus as well as the isolation and characterization of Mabs against S. mutans (OMVU30 and OMVU31), S. cricetus (OMVU40) and mutans streptococci (OMVU2) is described. The epitope specificity for OMVU10 and OMVU31 was cell-wall antigen B in both cases although both Mabs recognized different species-specific epitopes. OMVU40 was cross reactive with Streptococcus sanguis taxon 3. All other Mabs were specific for one species. Using these Mabs, a key to the identification of mutans streptococci is developed. This key was tested for 85 wild type isolates of mutans streptococci and proved to be highly reliable and easy to perform.
Peptostreptococcus micros is often isolated from abscesses in several parts of the human body. The oral cavity is considered the natural habitat for the species, which has been implicated as a periodontal pathogen. In plaque samples from periodontitis patients we observed the presence of a rough morphotype of P. micros in addition to the previously recognized smooth morphotype. The rough morphotype has not been described previously. Both morphotypes are frequently isolated simultaneously from the same patient. In this paper strains of both morphotypes are described. The smooth morphotype, represented by the type strain, grew as small, dome-shaped, bright white, nonhemolytic colonies. The rough morphotype grew as equally white dry colonies which were hemolytic and had wrinkled edges. DNA-DNA reassociation studies revealed homology at the species level between the two morphotypes; in addition, no differences in physiological characteristics were observed when the organisms were tested with API-32A and API-ZYM kits. The rough cells had long, thin fibrillar structures outside the cell envelope when they were stained negatively for electron microscopy. In the smooth morphotype these structures were not present. The sodium dodecyl sulfate-polyacrylamide gel electrophoresis profiles of whole-cell extracts were different for the two morphotypes. In xylene-water phase partition studies, the smooth morphotype was found to be hydrophobic, whereas the rough morphotype was found to be relatively hydrophilic. The distinct morphotypes were stable on blood agar; however, the rough morphotype changed to a nonfibrillar type with a smooth colony morphology after repeated subculturing in broth.Gram-positive anaerobic cocci are commonly found on mucous membranes of the oral cavity, the intestines, and the vagina. These bacteria are isolated from a variety of human abscesses as well. Frequently, the strains isolated belong to the genus Peptostreptococcus. The presence of Peptostreptococcus micros is not restricted to a particular part of the human body. Polymicrobial pulmonary and cerebral abscesses (9, 12, 24), as well as female genital tract infections (7), can contain high percentages of P. micros. It is thought that the natural habitat of this species is the oral cavity (14). Plaque of healthy individuals contains low percentages of this bacterium. It is isolated more often and in increased percentages from patients with periodontitis (18). A correlation in patients has been reported between poor response to periodontal therapy and the percentage of P. micros present in the total cultivable anaerobic flora (17). Furthermore, the presence of the microorganism has been related to active sites of periodontitis (4, 30), to endodontic lesions, and to human immunodeficiency virus-related periodontitis (3, 25, 26, 36). For these reasons P. micros has been implicated as a periodontal pathogen (27).P. micros usually forms smooth colonies. In samples obtained from periodontitis patients, we frequently isolated a rough morphotype of P. micr...
Mutans streptococci have been strongly associated with dental caries. Two members of this group of bacteria, Streptococcus mutans and Streptococcus sobrinus, are often found in human dental plaque. Identification of mutans streptococci on the basis of sugar fermentation is troublesome and easily leads to erroneous conclusions. Furthermore, the recovery on selective media differs for different species. This causes incorrect enumeration of S. mutans and S. sobrinus in clinical samples. The aim of this study was to develop a method for simultaneous identification and enumeration of S. mutans and S. sobrinus in dental plaque and saliva samples. With this immunoblot technique (IBT), significantly more plaque samples containing S. sobrinus were detected than on the selective medium Trypticase-yeast-cysteine-sucrose-bacitracin agar (TYCSB) (P < 0.01). The numbers of plaque samples harboring S. mutans were equal on TYCSB and by IBT. However, the numbers of CFU of S. mutans as well as of S. sobrinus detected with the IBT were significantly higher than those obtained on TYCSB (P < 0.001). The recovery of primary isolations of S. sobrinus on TYCSB seems to have been inhibited in 26 of the 45 S. sobrinus-containing plaque samples. False-positive or false-negative reactions with the IBT were not found.
Pathogenicity of Peptostreptococcus micros morphotypes and Prevotella species in pure and mixed culture
Recently, an atypical rough colony morphotype of Peptostreptococcus micros, a species which is found in ulcerating infections, including periodontitis, was isolated. The virulence of morphotypes alone and in combination with Prevotella intermedia and R nigrescens was investigated both in vivo and in vitro. All strains tested induced abscesses containing fluid pus in a mouse skin model, and lesions caused by monocultures of the rough morphotype strains of R micros were statistically significantly larger than those induced by the smooth morphotype strains. Inocula containing both morphotypes produced similar sized abscesses compared to mono-inocula containing the same bacterial load. Both Prevotella species induced small abscesses when inoculated alone, and when Pr. nigrescens was inoculated with one of the other strains, the abscesses were not significantly different from the abscesses induced by the mono-infections of this strain. Synergy, in terms of higher numbers of colony forming units (cfu) in the mixed inocula, was found for all combinations of the rough morphotypes of I? micros and both Prevotella spp. Pus from abscesses caused by combinations of Peptostreptococcus and Prevotella spp. transmitted the infection to other mice, but no abscesses were formed in mice inoculated with pus induced by mono-inocula. These results demonstrated synergic activity between both rough and smooth R micros strains and oral Prevotella strains. The in-vitro co-culture experiments produced no evidence of growth stimulation. The effect of R micros strains on the immune system was investigated by testing their ability to initiate luminol-dependent chemiluminescence of polymorphonuclear leucocytes in the presence and absence of human serum. In the latter, the rough morphotype strains initiated higher counts than the smooth morphotype strains. Further work is needed to elucidate the difference in virulence between the smooth and the rough morphotype cells of I? micros and the nature of the interaction with the Prevotella spp.
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