Noncorrelation between mouse toxicity and serologically assayed toxin in Clostridium botulinum type A culture fluids.

Toxicity in culture fluids of several Clostridium botulinum type A strains was assayed in mice and converted to weight equivalent. The toxin-related antigen in the samples was quantitated by a radioimmunoassay which used standards of known antigen concentration instead of the usually used toxicity. Freshly prepared samples had reasonably similar titers of toxin and antigen. When the samples were held at room temperature for several weeks, toxicity decreased more than antigenicity, but the relative decreases of the two varied with the samples. The results are discussed as evidence that serological assays of botulinum toxin cannot always be used for accurate determination of toxicity.     

Occurrence of toxigenic Clostridium botulinum type C in the soil of wetlands in Saskatchewan

Mouse-lethal toxin identified as that of Clostridium botulinum type C by antitoxin neutralization was present in cultures of 38.0% of 326 soil samples collected from 28 wetlands in Saskatchewan. There was no difference in prevalence of toxicity between samples collected in spring and summer, and no relationship was evident between the occurrence of toxicity and water salinity, marsh type or water depth. There was a strong association between the prior occurrence of avian botulism in a marsh and the presence of toxin in cultures from soil; 59.2% of soil samples from marshes with a known history of botulism produced toxin, whereas only 6.2% of soil samples from marshes with no history of the disease produced toxin. Eight of the 10 soil samples collected from a marsh that had been dry for several years, and from another marsh that had not had a recognized outbreak of botulism for 11 yr produced toxin, indicating a long residual effect after a botulism outbreak. The results suggest that any wetland with a history of botulism is likely to suffer repeated occurrences because of heavy contamination of the soil with spores, and should be managed to control the disease.     

Isolation of Clostridium botulinum type G from Swiss soil specimens by using sequential steps in an identification scheme

After Clostridium botulinum type G organisms and toxin were identified in necropsy specimens in cases of unexplained death in adults and infants (O. Sonnabend, W. Sonnabend, R. Heinzle, T. Sigrist, R Dirnhofer, and U. Krech, J. Infect. Dis. 143:22-27, 1981), extensive research to detect C. botulinum type G in soil samples from Switzerland was done. A total of 41 specimens from virgin soil and from cultivated land were examined for the presence of C. botulinum type G and other toxin types. Because of the lack of the lipase marker in type G, the detection of C. botulinum type G was based on the demonstration of type G organisms in enrichment cultures by a type G-specific enzyme-linked immunosorbent assay to detect both the type G toxin and antigen; enrichment cultures in which type G toxin or antigen was identified by enzyme-linked immunosorbent assay were then tested by a type G-specific gel immunodiffusion agar procedure. This method not only isolated strains of type G but also strains of Clostridium subterminale, a nontoxigenic variant of C. botulinum type G. As a consequence of the observed cross-reactions caused by strains of C. subterminale within this test system, all isolates of type G had to be definitively confirmed by mouse bioassay. The sequential steps of these methods seem to be very useful for detecting C. botulinum type G organisms. C. botulinum type G strains were isolated in five soil samples from different locations in close association with cultivated land.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation of Clostridium botulinum type G from Swiss soil specimens by using sequential steps in an identification scheme.

After Clostridium botulinum type G organisms and toxin were identified in necropsy specimens in cases of unexplained death in adults and infants (O. Sonnabend, W. Sonnabend, R. Heinzle, T. Sigrist, R Dirnhofer, and U. Krech, J. Infect. Dis. 143:22-27, 1981), extensive research to detect C. botulinum type G in soil samples from Switzerland was done. A total of 41 specimens from virgin soil and from cultivated land were examined for the presence of C. botulinum type G and other toxin types. Because of the lack of the lipase marker in type G, the detection of C. botulinum type G was based on the demonstration of type G organisms in enrichment cultures by a type G-specific enzyme-linked immunosorbent assay to detect both the type G toxin and antigen; enrichment cultures in which type G toxin or antigen was identified by enzyme-linked immunosorbent assay were then tested by a type G-specific gel immunodiffusion agar procedure. This method not only isolated strains of type G but also strains of Clostridium subterminale, a nontoxigenic variant of C. botulinum type G. As a consequence of the observed cross-reactions caused by strains of C. subterminale within this test system, all isolates of type G had to be definitively confirmed by mouse bioassay. The sequential steps of these methods seem to be very useful for detecting C. botulinum type G organisms. C. botulinum type G strains were isolated in five soil samples from different locations in close association with cultivated land.(ABSTRACT TRUNCATED AT 250 WORDS)     

F型肉毒毒素的制备及类毒素免疫原性初探

将F型肉毒梭菌经适宜条件产毒培养后,以硫酸铵盐析和酸沉两种不同工艺制备的F型肉毒毒素,用分段脱毒法脱毒制备类毒素,分别免疫豚鼠、马匹后测定免疫血清抗体效价。结果显示,两种工艺制备的毒素其类毒素都具有较好的免疫原性。     

Storage Stability of Clostridium botulinum Toxin and Spores in Processed Cheese

Growth initiated from detoxified spores of Clostridium botulinum 62A resulted in toxin production of 50 to 10,000 mouse lethal doses (MLD) per gram of processed soft surface-ripened cheese. Regular assays during subsequent storage of toxic samples at 2 to 4 C revealed a characteristic two- to fivefold increase in toxin titer during the initial 1 week to 12 months of storage. Thereafter, the toxin titer remained constant for 2 to 4 years, after which the toxicity declined rapidly. At the end of 6 years of storage at 2 to 4 C, the samples still contained 20 to 5,000 MLD of toxin per gram, with the usual toxin level at 200 to 500 MLD. Toxic culture filtrates of C. botulinum incorporated into cheese and stored at 30 C for 60 days showed no decline in toxin in processed type I cheese, but toxin decreased slightly in processed type II and type III cheese. The surface flora of these cheeses did not attack but, on the contrary, protected C. botulinum toxin during storage at 30 C. Initial difficulties in recovering C. botulinum organisms from type I cheese were traced to growth inhibitory activity which could be removed by washing with distilled water in a centrifuge. Viable spores or vegetative cells could be recovered from all samples after 4 to 5 years of storage at 2 to 4 C. After 6 years, organisms were recovered from all except three samples of type I cheese. Two other samples showed a large decrease in viable organisms. In type III cheese, spores remained remarkably stable for 6 years at the level of the initial inoculum, i.e., approximately 10(5) spores per gram.     

Study of the presence of the spores of Clostridium botulinum in honey in Brazil

The isolation of Clostridium botulinum from honey samples is described. Botulism is characterized as an intoxication provoked by ingestion of contaminated foods with this toxin. Infant botulism happens by the ingestion of spores of C. botulinum together with food that in special conditions of the intestinal tract, such as those present in babies of less than 1 year old, will allow the germination and colonization of the intestine with production and absorption of botulinic toxin. The samples were subjected to dilution and to a thermal shock and cultivated in modified CMM (Difco). Cultures were subjected to Gram smears and toxicity tests in mice. The toxic cultures were purified in RFCA (Oxoid) plates and incubated in anaerobic jars. Positive samples were typed using the mouse assay neutralization test. From the 85 honey samples analyzed, six were positive for C. botulinum (7.06%), and identified as producers of type A, B, and D toxins.     

THE BINDING OF BOTULINUM TOXIN TO MEMBRANE LIPIDS: PHOSPHOLIPIDS AND PROTEOLIPID

A number of phospholipids known to be constituents of nerve endings were tested for their ability to inactivate botulinum toxin. Substances tested included phosphatidylcholine, phosphatidalcholine, phosphatidylethanolamine, phosphatidalethanolamine, β-acyl lysolecithin, sphingomyelin, phosphatidylserine, phosphatidic acid, phosphatidylinositol and cardiolipin. Proteolipid from bovine white matter was also tested. Neutral phospholipids potentiated the toxicity in vivo of botulinum toxin, but they had no effect on the toxicity in vitro. Some, but not all, acidic phospholipids caused loss of toxicity of botulinum toxin in solutions at low pH both in vivo and in vitro. However, none of these substances when incubated with toxin under physiological conditions of temperature, pH and ionic strength, caused loss of toxin potency. The data suggest that none of these phospholipids is likely to be a toxin receptor.     

C型肉毒毒素的制备及类毒素保护力初探

将C型肉毒梭菌经适宜条件的产毒培养后纯化,并进行相关鉴定。制备的C型肉毒毒素用分段脱毒法脱毒,并进行类毒素保护力的初步研究。以不同蛋白含量C型肉毒类毒素免疫小鼠后攻毒,结果显示,蛋白含量为0.625μg的类毒素免疫2针或蛋白含量为1.25μg的类毒素免疫1针均可保护50LD50的C型肉毒毒素攻击。蛋白含量为5μg的C型肉毒类毒素与福氏不完全佐剂配制的抗原免疫小鼠3次所得抗血清的保护力(Anti LD50/ml)为4.3×104。说明用该纯化工艺制备的C型肉毒类毒素具有很好的免疫原性,作为抗原成分用于C型肉毒疫苗和C型肉毒抗毒素的研究和生产具有较好的应用潜力。     

Response of type B and E Botulinum toxins to purified sulfhydryl-dependent protease produced by Clostridium botulinum type F.

A sulfhydryl-dependent protease (SHP) was purified from a culture of Clostridium botulinum type F. The enzyme can activate type E progenitor toxin completely but type B progenitor toxin only partially. This may suggest that SHP by itself could completely activate the toxin of proteolytic C. botulinum types A and F in culture. The toxicity of type E progenitor toxin potentiated by the treatment with SHP persisted, whereas that of derivative toxin decreased rapidly by further incubation with SHP. This may indicate that only the progenitor toxin, the complex of the toxic and nontoxic components, activated by SHP withstands the subsequent exposure to the enzyme in cultures of proteolytic C. botulinum.     

Biodiversity of Clostridium botulinum type E associated with a large outbreak of botulism in wildlife from Lake Erie and Lake Ontario

The genetic relatedness of Clostridium botulinum type E isolates associated with an outbreak of wildlife botulism was studied using random amplification of polymorphic DNA (RAPD). Specimens were collected from November 2000 to December 2008 during a large outbreak of botulism affecting birds and fish living in and around Lake Erie and Lake Ontario. In our present study, a total of 355 wildlife samples were tested for the presence of botulinum toxin and/or organisms. Type E botulinum toxin was detected in 110 samples from birds, 12 samples from fish, and 2 samples from mammals. Sediment samples from Lake Erie were also examined for the presence of C. botulinum. Fifteen of 17 sediment samples were positive for the presence of C. botulinum type E. Eighty-one C. botulinum isolates were obtained from plants, animals, and sediments; of these isolates, 44 C. botulinum isolates produced type E toxin, as determined by mouse bioassay, while the remaining 37 isolates were not toxic for mice. All toxin-producing isolates were typed by RAPD; that analysis showed 12 different RAPD types and multiple subtypes. Our study thus demonstrates that multiple genetically distinct strains of C. botulinum were involved in the present outbreak of wildlife botulism. We found that C. botulinum type E is present in the sediments of Lake Erie and that a large range of bird and fish species is affected.     

Evaluation of a monoclonal antibody-based immunoassay for detecting type A Clostridium botulinum toxin produced in pure culture and an inoculated model cured meat system

A monoclonal antibody-based amplified enzyme-linked immunosorbent assay (ELISA) method for detecting Clostridium botulinum type A toxin was evaluated for its ability to detect the toxin in the supernatant fluid of pure cultures and after growth from Cl. botulinum spores inoculated into pork slurries. Slurries containing NaCl (1.5-4.5% w/v) and polyphosphate (0.3% w/v) were either unheated or heated, 80 degrees C/5 min + 70 degrees C/2 h, before storage at 15 degrees, 20 degrees or 27 degrees C. The presence of specific toxin was confirmed by mouse bioassay and results compared with those of the amplified ELISA method. A total of 49 strains, 39 Cl. botulinum and 10 Cl. sporogenes (putrefactive anaerobes), and 95 slurry samples were tested. Fourteen of 15 strains of type A Cl. botulinum and 34 of 36 slurry samples containing type A toxin were positive by ELISA. No false positive reactions occurred with Cl. botulinum types B, C, D, E and F, or with the 10 strains of Cl. sporogenes. However, toxin produced by one strain of Cl. botulinum type A (NCTC 2012) was not detected by the amplified ELISA.     

Enzyme linked immunosorbent assay (ELISA) for detection of Clostridium botulinum type B toxin.

The enzyme-linked immunosorbent assay using different techniques has been applied to determine botulinum type B toxin. With the so-called "sandwich" technique, about 5,000 mouse ip LD50 of type B toxin can be detected. With the "double-sandwich" technique, about 400 mouse ip LD50 of toxin is detected and different commerical antisera are useful. For accurate quantification of botulinum toxins in culture filtrates, addition of EDTA to samples seems to be necessary. Cross-reactivity of the assay depends on the specificity of the antisera against botulinum type B toxin used and is almost eliminated with antiserum prepared against the toxic component of type B toxin.     

A型肉毒毒素轻链胞内持留模型的建立

[目的] 建立A型肉毒毒素轻链胞内持留模型来模拟A型肉毒毒素引起的长期中毒。[方法] 设计构建pcDNA3.1-ALC-GFP重组质粒,提取质粒进行PCR验证,并将其转染进Nureo-2a细胞中表达,利用Western Blot与细胞免疫荧光分析验证ALC-GFP的表达情况及其在细胞内的长时间持留,建立A型肉毒毒素轻链的胞内持留模型,并将该模型用于抗肉毒药物的筛选。[结果] 成功构建pcDNA3.1-ALC-GFP重组质粒并将其转染进Nureo-2a细胞中,验证了ALC-GFP在细胞内具有长时间持留性,成功建立了A型肉毒毒素轻链胞内持留模型,并利用该模型筛选出潜在抗肉毒药物CB3。[结论] 成功建立了A型肉毒毒素轻链胞内持留模型,并初步应用于CS1,CE2和CB3药物筛选,为A型肉毒毒素长期中毒的解毒研究奠定了基础。     

Evaluation of a monoclonal antibody-based immunoassay for detecting type A Clostridium botulinum toxin produced in pure culture and an inoculated model cured meat system

A monoclonal antibody-based amplified enzyme-linked immunosorbent assay (ELISA) method for detecting Clostridium botulinum type A toxin was evaluated for its ability to detect the toxin in the supernatant fluid of pure cultures and after growth from Cl. botulinum spores inoculated into pork slurries. Slurries containing NaCl (1.5–4.5% w/v) and polyphosphate (0.3% w/v) were either unheated or heated, 80°C/5 min + 70°C/2 h, before storage at 15°, 20° or 27°C. The presence of specific toxin was confirmed by mouse bioassay and results compared with those of the amplified ELISA method. A total of 49 strains, 39 Cl. botulinum and 10 Cl. sporogenes (putrefactive anaerobes), aiid 95 slurry samples were tested. Fourteen of 15 strains of type A Cl. botulinum and 34 of 36 slurry samples containing type A toxin were positive by ELISA. No false positive reactions occurred with Cl. botulinum types B, C, D, E and F, or with the 10 strains of Cl. sporogenes. However, toxin produced by one strain of Cl. botulinum type A (NCTC 2012) was not detected by the amplified ELISA.     

Examination of Prepared Foods in Plastic Packages for Clostridium botulinum

The incidence of Clostridium botulinum organisms was determined in a variety of plastic-packaged "vulnerable" foods (food requiring little or no heating prior to consumption). A total of 113 foods were examined by use of an enrichment recovery procedure followed by toxin testing in animals. Results of the survey indicate that the incidence of C. botulinum organisms in these vulnerable foods is extremely low. The ability of inoculated food products to support growth and toxigenesis of C. botulinum type E was then tested. The 64 packaged foods were inoculated with type E spores and incubated anaerobically at 30 C for 11 days. A slurry of each food was prepared, smears for fluorescent-antibody testing were made, and animal tests were performed for toxin. If the animal tests were negative, enrichment cultures were prepared from the slurry and incubated at 30 C. On direct examination of the slurries for toxin, only samples of turkey roll and soybean cake supported growth and toxigenesis by C. botulinum type E. However, the enrichment culture method was able to induce growth and toxin production in 60 of the remaining 62 samples.     

Evaluation of a monoclonal antibody-based immunoassay for detecting type B Clostridium botulinum toxin produced in pure culture and an inoculated model cured meat system

A monoclonal antibody-based amplified ELISA method for detecting Clostridium botulinum type B toxin was evaluated for its ability to detect the toxin in the supernatant fluid of pure cultures and after growth from Cl. botulinum spores inoculated into pork slurries. Slurries containing NaCl (1.5–4.5%w/v) and polyphosphate (0.3%w/v) were either unheated or heated 80°C/5 min followed by 70°C/2 h before incubation at 15°, 20° or 27°C. Presence of specific toxin was confirmed by mouse bioassay and results were compared with those of the amplified ELISA method. A total of 48 strains, consisting of 38 Cl. botulinum and 10 Cl. sporogenes (putrefactive anaerobes), and 140 slurry samples were tested. Cultures of eight out of nine strains of type B Cl. botulinum and 73 of 101 slurry samples containing type B toxin were positive by ELISA; the remaining 28 slurry samples contained type B toxin at levels below or close to the detection limit (20 LD₅₀/ml) of the type B ELISA. No falsepositive reactions occurred with Cl. botulinum types A, C, D, E or F, or with the 10 strains of Cl. sporogenes. Toxin produced by one strain of Cl. botulinum type B (NCTC 3807) was not detected by this single monoclonal antibody-based amplified ELISA. With a mixture of two monoclonal antibodies, however, the toxin from NCTC 3807 could be detected without reducing the sensitivity of the ELISA.     

Evaluation of a monoclonal antibody-based immunoassay for detecting type B Clostridium botulinum toxin produced in pure culture and an inoculated model cured meat system

A monoclonal antibody-based amplified ELISA method for detecting Clostridium botulinum type B toxin was evaluated for its ability to detect the toxin in the supernatant fluid of pure cultures and after growth from Cl. botulinum spores inoculated into pork slurries. Slurries containing NaCl (1.5-4.5% w/v) and polyphosphate (0.3% w/v) were either unheated or heated 80 degrees C/5 min followed by 70 degrees C/2 h before incubation at 15 degrees, 20 degrees or 27 degrees C. Presence of specific toxin was confirmed by mouse bioassay and results were compared with those of the amplified ELISA method. A total of 48 strains, consisting of 38 Cl. botulinum and 10 Cl. sporogenes (putrefactive anaerobes), and 140 slurry samples were tested. Cultures of eight out of nine strains of type B Cl botulinum and 73 of 101 slurry samples containing type B toxin were positive by ELISA; the remaining 28 slurry samples contained type B toxin at levels below or close to the detection limit (20 LD50/ml) of the type B ELISA. No false-positive reactions occurred with Cl. botulinum types A, C, D, E or F, or with the 10 strains of Cl. sporogenes. Toxin produced by one strain of Cl. botulinum type B (NCTC 3807) was not detected by this single monoclonal antibody-based amplified ELISA. With a mixture of two monoclonal antibodies, however, the toxin from NCTC 3807 could be detected without reducing the sensitivity of the ELISA.     

Detection by PCR-enzyme-linked immunosorbent assay of Clostridium botulinum in fish and environmental samples from a coastal area in northern France

The prevalence of Clostridium botulinum types A, B, E, and F was determined in 214 fresh fish and environmental samples collected in Northern France. A newly developed PCR-enzyme-linked immunosorbent assay (ELISA) used in this survey detected more than 80% of samples inoculated with fewer than 10 C. botulinum spores per 25 g and 100% of samples inoculated with more than 30 C. botulinum spores per 25 g. The percent agreement between PCR-ELISA and mouse bioassay was 88.9%, and PCR-ELISA detected more positive samples than the mouse bioassay did. The prevalence of C. botulinum in seawater fish and sediment was 16.6 and 4%, respectively, corresponding to 3.5 to 7 and 1 to 2 C. botulinum most-probable-number counts, respectively, and is in the low range of C. botulinum contamination reported elsewhere. The toxin type identification of the 31 naturally contaminated samples was 71% type B, 22.5% type A, and 9.6% type E. Type F was not detected. The high prevalence of C. botulinum type B in fish samples is relatively unusual compared with the high prevalence of C. botulinum type E reported in many worldwide and northern European surveys. However, fish processing and fish preparation in France have not been identified as a significant hazard for human type B botulism.     

Isolation and molecular size of Clostridium botulinum type C toxin.

A procedure is described for the purification of hemagglutinin-free Clostridium botulinum type C toxin. The toxin was purified approximately 1,000-fold from the original culture supernatant in an overall yield of 60% to a final specific toxicity of 4.4 x 10(7) minimal lethal doses/mg of protein. The toxin had a molecular weight of 141,000 and consisted of a heavy and a light chain. The molecular weights of the subunits were approximately 98,000 and 53,000. When comparing the molecular size and composition of type C toxin to that of botulinum toxins of different types, some common features may be suggested; i.e., the toxin has a molecular weight between 141,000 to 160,000 and is comprised of a heavy and a light chain linked by disulfide bonds (or bond).