Streptococcus pneumoniae forms biofilms, but little is known about its extracellular polymeric substances (EPS) or the kinetics of biofilm formation. A system was developed to enable the simultaneous measurement of cells and the EPS of biofilm-associated S. pneumoniae in situ over time. A biofilm reactor containing germanium coupons was interfaced to an attenuated total reflectance (ATR) germanium cell of a Fourier transform infrared (FTIR) laser spectrometer. Biofilm-associated cells were recovered from the coupons and quantified by total and viable cell count methods. ATR-FTIR spectroscopy of biofilms formed on the germanium internal reflection element (IRE) of the ATR cell provided a continuous spectrum of biofilm protein and polysaccharide (a measure of the EPS). Staining of the biofilms on the IRE surface with specific fluorescent probes provided confirmatory evidence for the biofilm structure and the presence of biofilm polysaccharides. Biofilm protein and polysaccharides were detected within hours after inoculation and continued to increase for the next 141 h. The polysaccharide band increased at a substantially higher rate than did the protein band, demonstrating increasing coverage of the IRE surface with biofilm polysaccharides. The biofilm total cell counts on germanium coupons stabilized after 21 h, at approximately 10 5 cells per cm 2 , while viable counts decreased as the biofilm aged. This system is unique in its ability to detect and quantify biofilm-associated cells and EPS of S. pneumoniae over time by using multiple, corroborative techniques. This approach could prove useful for the study of biofilm processes of this or other microorganisms of clinical or industrial relevance.Microbial biofilms are comprised of both cells and extracellular polymeric substances (EPS) (7).Though a variety of in vitro model systems have been developed for growing and quantifying biofilms, most rely upon the measurement of cells recovered from the surface, using viable plating or direct microscopic counting methods, to estimate the rate or extent of biofilm formation. Even though the EPS may comprise up to 98% of the volume of the biofilm (10), this material is rarely measured. Sutherland (25) noted that cells in pure culture biofilms may produce multiple polysaccharides, but the minute quantities present preclude accurate measurement by wet chemical methods. Streptococcus pneumoniae is suspected of forming biofilms in individuals who develop otitis media (6). S. pneumoniae produces a copious polysaccharide capsule that is a known virulence factor involved in adhesion (12) and that is antiphagocytic, but there have been few published studies documenting biofilm formation by this organism.Real-time monitoring of the biofilms formed when bacteria are in contact with an internal reflection element (IRE) substrate has been performed by Fourier transform infrared (FTIR) spectroscopy. Since biofilms have a different chemical composition than the same organisms in suspension (11,14,16), FTIR spectra show different bands ...
BackgroundDifferent models for biofilm in Streptococcus pneumoniae have been described in literature. To permit comparison of experimental data, we characterised the impact of the pneumococcal quorum-sensing competence system on biofilm formation in three models. For this scope, we used two microtiter and one continuous culture biofilm system.ResultsIn both microtiter models the competence system influences stability and structure of biofilm in the late attachment phase and synthetic competence stimulating peptide (CSP) restored wild type phenotypes in the comC mutants unable to produce the peptide. Early attachment of single cells to well bottoms was found for both systems to be competence independent, while later phases, including microcolony formation correlated to an intact competence system. The continuous culture biofilm model was not affected by mutations in the competence locus, but deletion of capsule had a significant impact in this model.ConclusionsSince biofilm remains a largely uncharacterised multi-parameter phenotype it appears to be advisable to exploit more than one model in order to draw conclusion of possible relevance of specific genotypes on pneumococcal physiology.
Samples of chili linked to a foodborne illness outbreak of type A botulism were examined for preformed type A botulinal toxin using two enzyme-linked immunosorbent assay (ELISA) procedures and the mouse bioassay. One of the samples was positive for type A botulinal toxin and three of the samples were negative for type A, B, E, and F botulinal toxins using the three methods. The mouse bioassay indicated that type A toxin was present at the 10,000 minimal lethal dose per gram (MLD per g) of product. The ELISA tests indicated a toxicity of 7,650 MLD per g with one method and 8,350 MLD per g with the other method. The sample toxicity determined by the ELISA was estimated by comparing samples to a standard curve generated with standard type A neurotoxin in casein buffer. The ELISA methods are more rapid than the mouse bioassay, since the toxin type can be determined in 1 day. The mouse bioassay is more sensitive than the ELISA but usually requires multiple assays to obtain the toxin type and toxicity. Type A culture isolates from the sample were also verified using one ELISA method.
Catalase-negative or weakly positive (CNW) thermotolerant campylobacteria, first isolated from dogs in 1983, were recently recognized as a new species, "Campylobacter upsaliensis," but their association with human illness has not been established. Twelve human isolates received at the Centers for Disease Control between 1980 and 1986 were identified as CNW campylobacteria by biochemical tests, cellular fatty acid composition, and antimicrobial susceptibility patterns. Eleven CNW Campylobacter strains tested by DNA-DNA hybridization (hydroxyapatite method) were all highly related and were related to two "C. upsaliensis" strains at the species level (86% under optimal conditions and 76% under stringent conditions). Clinical information was obtained for Il human isolates from three stool and eight blood specimens. They were isolated from four female and seven male patients 6.5 months to 83 years of age residing in 10 different states. The patients had a wide spectrum of illnesses. The stool isolates were obtained from two previously healthy persons during episodes of acute gastroenteritis and from one immunocompromised patient with persistent diarrhea and fever. The blood isolates were obtained from two infants with fever and respiratory symptoms; a young woman with a ruptured ectopic pregnancy; three elderly men with underlying chronic diseases; and two immunocompromised adults. In a bactericidal assay to assess sensitivity to serum, seven of eight blood isolates showed some resistance to killing by pooled normal human serum. These observations suggest that "C. upsaliensis" is a potential human pathogen associated with both gastroenteritis and bacteremia in normal hosts and with opportunistic infection in immunocompromised individuals.
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