Frank Gessler

Challenging the problem of clostridial identification with matrix-assisted laser desorption and ionization–time-of-flight mass spectrometry (MALDI–TOF MS)

Diverse techniques were applied to effect the identification and classification of isolated clostridial strains. Nevertheless, the correct identification of clostridial strains remains a laborious, time-consuming task which entails a not inconsiderable degree of expertise. In addition to this, traditional methods based on the metabolic properties of the bacteria require rigorously standardized media and growth conditions to assure the attainment of reproducible results. Although DNA-based methods, like the PCR of a species specific gene, are known to yield precise and reproducible results, their degree of effectivity is circumscribed by the fact that even the incidence of a toxin encoding gene is not necessarily linked to nor consequently indicative of the presence of an infectious disease. Moreover, most of these methods postulate an initial assumption concerning the expected bacterial species involved before the choice of PCR primer for use can be made. Consequently, the scope of these methods is restricted to that of targeted analyses. The 16S rDNA sequencing which is assumed to be the gold standard for bacterial classification having the unequivocal advantage of being capable of determining even uncultivable bacteria is nonetheless a time-consuming and costly technique. In the present study we describe the utilization of matrix-assisted laser desorption and ionization-time-of-flight mass spectrometry (MALDI-TOF MS) for whole cell fingerprinting in combination with a dedicated bioinformatic software tool to distinguish between various clostridial species. Total 64 clostridial strains of 31 different species each displayed a mass spectrum unique to the strain involved, to the effect that it was also possible not only to differentiate between the strains examined, but also to establish to which species the individual strains belonged to. Starting with a single colony it was possible to correctly identify a Clostridium species within minutes. It was even possible to identify species which are normally difficult to differentiate by traditional methods, such as C. chauvoei and C. septicum. With the results obtained we were able to assemble a dendrogram of the Clostridium species which showed considerable similarities to dendrograms based upon 16S rDNA sequencing data. To conclude, our findings indicate that, inasmuch as the MALDI-TOF MS technology employed is based on a high-quality reference database, it may serve as an effective tool for the swift and reliable identification and classification of Clostridia.

Pentaplexed Quantitative Real-Time PCR Assay for the Simultaneous Detection and Quantification of Botulinum Neurotoxin-Producing Clostridia in Food and Clinical Samples

ABSTRACT Botulinum neurotoxins are produced by the anaerobic bacterium Clostridium botulinum and are divided into seven distinct serotypes (A to G) known to cause botulism in animals and humans. In this study, a multiplexed quantitative real-time PCR assay for the simultaneous detection of the human pathogenic C. botulinum serotypes A, B, E, and F was developed. Based on the TaqMan chemistry, we used five individual primer-probe sets within one PCR, combining both minor groove binder- and locked nucleic acid-containing probes. Each hydrolysis probe was individually labeled with distinguishable fluorochromes, thus enabling discrimination between the serotypes A, B, E, and F. To avoid false-negative results, we designed an internal amplification control, which was simultaneously amplified with the four target genes, thus yielding a pentaplexed PCR approach with 95% detection probabilities between 7 and 287 genome equivalents per PCR. In addition, we developed six individual singleplex real-time PCR assays based on the TaqMan chemistry for the detection of the C. botulinum serotypes A, B, C, D, E, and F. Upon analysis of 42 C. botulinum and 57 non-C. botulinum strains, the singleplex and multiplex PCR assays showed an excellent specificity. Using spiked food samples we were able to detect between 103 and 105 CFU/ml, respectively. Furthermore, we were able to detect C. botulinum in samples from several cases of botulism in Germany. Overall, the pentaplexed assay showed high sensitivity and specificity and allowed for the simultaneous screening and differentiation of specimens for C. botulinum A, B, E, and F.

Sensitive Detection of Botulinum Neurotoxin Types C and D with an Immunoaffinity Chromatographic Column Test

ABSTRACT A sensitive and specific immunoassay for the simultaneous detection of Clostridium botulinum type C (BoNT/C) and type D neurotoxin was developed. Goat anti-mouse immunoglobulin G was bound to polyethylene disks in a small disposable column used for this assay. The sample was preincubated together with monoclonal antibodies specific for the heavy chain of BoNT/C and D and affinity-purified, biotinylated polyclonal antibodies against these neurotoxins. This complex was captured on the assay disk. Streptavidin-poly-horseradish peroxidase was used as a conjugate, and a precipitating substrate allowed the direct semiquantitative readout of the assay, if necessary. For a more accurate quantitative detection, the substrate can be eluted and measured in a photometer. Depending on the preincubation time, a sensitivity of 1 mouse lethal dose ml−1 was achieved in culture supernatants.

Is there a link between infant botulism and sudden infant death? Bacteriological results obtained in Central Germany

Abstract. Despite the fact that botulism was described in Germany for the first time by Kerner in 1820, the disease is almost forgotten in this country. Only about 10–20 cases of classical botulism (intoxication) are recorded every year, including 1–2 cases of clinical infant botulism. As we assumed a high incidence of botulism to be connected with cases of sudden infant death (SID), we undertook the research work presented here. From every case of unexpected infant death up to 12 months of age, standardised specimens (blood, liver and intestine) were taken at autopsy. They were tested for the presence of botulinum neurotoxin (BoNT) and/or bacterial forms of Clostridium botulinum with subsequent BoNT neutralisation tests by the international standard mouse bioassay. Age, sex, pathological findings and season were recorded. Over a 5-year period, 75 samples including 57 SID cases were tested. Free toxin was found in nine and bacterial forms were detected in six samples. Toxin neutralisation revealed the definite presence of BoNT/BoNT producing bacteria (mainly type E), whereas another 11 toxin tests were inconclusive. According to international literature, these 15 cases are to be interpreted as infant botulism. Conclusion: the results show a remarkable incidence of infant botulism without any known previous medical history, partly hidden as sudden infant death. We propose to systematically search for botulism in connection with sudden infant death

The Case of Botulinum Toxin in Milk: Experimental Data

ABSTRACT Botulinum neurotoxin (BoNT) is the most toxic substance known to man and the causative agent of botulism. Due to its high toxicity and the availability of the producing organism Clostridium botulinum, BoNT is regarded as a potential biological warfare agent. Because of the mild pasteurization process, as well as rapid product distribution and consumption, the milk supply chain has long been considered a potential target of a bioterrorist attack. Since, to our knowledge, no empirical data on the inactivation of BoNT in milk during pasteurization are available at this time, we investigated the activities of BoNT type A (BoNT/A) and BoNT/B, as well as their respective complexes, during a laboratory-scale pasteurization process. When we monitored milk alkaline phosphatase activity, which is an industry-accepted parameter of successfully completed pasteurization, our method proved comparable to the industrial process. After heating raw milk spiked with a set amount of BoNT/A or BoNT/B or one of their respective complexes, the structural integrity of the toxin was determined by enzyme-linked immunosorbent assay (ELISA) and its functional activity by mouse bioassay. We demonstrated that standard pasteurization at 72°C for 15 s inactivates at least 99.99% of BoNT/A and BoNT/B and at least 99.5% of their respective complexes. Our results suggest that if BoNTs or their complexes were deliberately released into the milk supply chain, standard pasteurization conditions would reduce their activity much more dramatically than originally anticipated and thus lower the threat level of the widely discussed “BoNT in milk” scenario.

Determination of free DNA in soils

The concentration of free DNA in soils has to be determined in order to understand the fate and the transport of extracellular DNA. A protocol for the extraction and determination of free DNA was developed. The procedure uses separation steps, i.e. centrifugation and ultra-filtration. The free dsDNA was stained with PicoGreen® and determined fluorimetrically. Samples from different soils, different soil horizons, soil waters and under different land use systems were analyzed. It was found that in nearly all samples free DNA was detectable. Free DNA concentrations of up to 1950 ng (g dried sample)—1 could be detected depending on depth, soil type and system of land use. Bestimmung von freier DNA in Boden Als Grundlage fur das Verstandnis der Wechselwirkungen und des Transports extrazellularer DNA in Boden muss die Konzentration freier DNA bestimmt werden. Aus diesem Grund wurde ein Verfahren entwickelt, mit dem die freie DNA extrahiert und nachgewiesen werden kann.  Uber mechanische Trennschritte wie Zentrifugation und Ultrafiltration wird die Probe aufbereitet. Freie DNA wird mit PicoGreen® nachgewiesen und fluorimetrisch quantifiziert.  Untersucht wurden verschiedene Boden, Bodenhorizonte, Bodenwasser sowie der Einfluss unterschiedlicher Dungung. Dabei wurde in fast allen Proben freie dsDNA (Doppelstrang-DNA) nachgewiesen. Abhangig vom Boden, dem jeweiligen Horizont sowie der Dungung konnten bis zu 1950 ng freie DNA (g getrockneter Bodenprobe)—1 nachgewiesen werden.

Neurotransmitter Vesicle Release from Human Model Neurons (NT2) is Sensitive to Botulinum Toxin A

Botulinum neurotoxins (BoNTs) internalize into nerve terminals and block the release of neurotransmitters into the synapse. BoNTs are widely used as a therapeutic agent for treatment of movement disorders and recently gained more attention as a biological weapon. Consequently, there is strong interest to develop a cell-based assay platform to screen the toxicity and bioactivity of the BoNTs. In this study, we present an in vitro screening assay for BoNT/A based on differentiated human embryonal carcinoma stem (NT2) cells. The human NT2 cells fully differentiated into mature neurons that display immunoreactivity to cytoskeletal markers (βIII-tubulin and MAP2) and presynaptic proteins (synapsin and synaptotagmin I). We showed that the human NT2 cells undergo a process of exo-endocytotic synaptic vesicle recycling upon depolarization with high K+ buffer. By employing an antibody directed against light chain of BoNT/A, we detected internalized toxin as a punctate staining along the neurites of the NT2 neurons. Using well-established methods of synaptic vesicle exocytosis assay (luminal synaptotagmin I and FM1-43 imaging) we show that pre-incubation with BoNT/A resulted in a blockade of vesicle release from human NT2 neurons in a dose-dependent manner. Moreover, this blocking effect of BoNT/A was abolished by pre-adsorbing the toxin with neutralizing antibody. In a proof of principle, we demonstrate that our cell culture assay for vesicle release is sensitive to BoNT/A and the activity of BoNT/A can be blocked by specific neutralizing antibodies. Overall our data suggest that human NT2 neurons are suitable for large scale screening of botulinum bioactivity.

An enzyme-linked immunosorbent assay for detection of botulinum toxin-antibodies

Antibodies against botulinum neurotoxin (BNT‐AB) can be detected by the mouse protection assay (MPA), the hemidiaphragm assay (HDA), and by enzyme‐linked immunosorbent assays (ELISA). Both MPA and HDA require sacrifice of experimental animals, and they are technically delicate and labor intensive. We introduce a specially developed ELISA for detection of BNT‐A‐AB and evaluate it against the HDA.

Systemic colonization of clover (Trifolium repens) by Clostridium botulinum strain 2301

In recent years, cases of botulism in cattle and other farm animals and also in farmers increased dramatically. It was proposed, that these cases could be affiliated with the spreading of compost or other organic manures contaminated with Clostridium botulinum spores on farm land. Thus, soils and fodder plants and finally farm animals could be contaminated. Therefore, the colonization behavior and interaction of the botulinum neurotoxin (BoNT D) producing C. botulinum strain 2301 and the non-toxin producing Clostridium sporogenes strain 1739 were investigated on clover (Trifolium repens) in a field experiment as well as in phytochamber experiments applying axenic and additionally soil based systems under controlled conditions. Plants were harvested and divided into root and shoot parts for further DNA isolation and polymerase chain reaction (PCR) assays; subsamples were fixed for fluorescence in situ hybridization analysis in combination with confocal laser scanning microscopy. In addition, we observed significant differences in the growth behavior of clover plants when inoculated with clostridial spores, indicating a plant growth promoting effect. Inoculated plants showed an increased growth index (shoot size, wet and dry weight) and an enlarged root system induced by the systemic colonization of clover by C. botulinum strain 2301. To target C. botulinum and C. sporogenes, 16S rDNA directed primers were used and to specifically detect C. botulinum, BoNT D toxin genes targeted primers, using a multiplex PCR approach, were applied. Our results demonstrate an effective colonization of roots and shoots of clover by C. botulinum strain 2301 and C. sporogenes strain 1739. Detailed analysis of colonization behavior showed that C. botulinum can occur as individual cells, in cell clusters and in microcolonies within the rhizosphere, lateral roots and within the roots tissue of clover.

Presumptive Diagnostic of an Intrauterine Transmission of Clostridium Botulinum in a Bovine Fetus

A dairy herd was affected by a disease of unknown origin. Over 12 months standard samples (feces, and blood serum) were taken and tested for Clostridium botulinum , botulinum neurotoxin and partly for botulinum toxin antibodies according to standard international procedures. Finally it was shown that the dramatic clinical situation was caused by botulism in its chronic toxico-infectious form (“visceral botulism”). The main symptoms were reduced milk yield, lameness, an increased mortality in adults and calves, and a general impairment of health of the herd. One special case is reported here. A paralyzed cow aborted after 7 months of pregnancy. The fetus was delivered dead. Diagnostic samples were taken immediately for microbiological investigations. Specimens of the intestinal tract of the cow contained the C. botulinum neurotoxin and vegetative states (combined toxin group ABE). C. botulinum was isolated from specimen of the fetus and toxin group ABE was found in the liver, suggesting an intrauterine infection.