Attomolar Detection of Botulinum Toxin Type A in Complex Biological Matrices

BACKGROUND: A highly sensitive, rapid and cost efficient method that can detect active botulinum neurotoxin (BoNT) in complex biological samples such as foods or serum is desired in order to 1) counter the potential bioterrorist threat 2) enhance food safety 3) enable future pharmacokinetic studies in medical applications that utilize BoNTs. METHODOLOGY/PRINCIPAL FINDINGS: Here we describe a botulinum neurotoxin serotype A assay with a large immuno-sorbent surface area (BoNT/A ALISSA) that captures a low number of toxin molecules and measures their intrinsic metalloprotease activity with a fluorogenic substrate. In direct comparison with the "gold standard" mouse bioassay, the ALISSA is four to five orders of magnitudes more sensitive and considerably faster. Our method reaches attomolar sensitivities in serum, milk, carrot juice, and in the diluent fluid used in the mouse assay. ALISSA has high specificity for the targeted type A toxin when tested against alternative proteases including other BoNT serotypes and trypsin, and it detects the holotoxin as well as the multi-protein complex form of BoNT/A. The assay was optimized for temperature, substrate concentration, size and volume proportions of the immuno-sorbent matrix, enrichment and reaction times. Finally, a kinetic model is presented that is consistent with the observed improvement in sensitivity. CONCLUSIONS/SIGNIFICANCE: The sensitivity, specificity, speed and simplicity of the BoNT ALISSA should make this method attractive for diagnostic, biodefense and pharmacological applications

Low affinity antibodies against collagen type II are associated with pathology in collagen-induced arthritis in mice.

The relationship between the functional affinity of antibodies against type II collagen (CII) and the development of arthritis was studied in mice with collagen-induced arthritis. The responses of DBA/1 strain mice were compared with those of mice selectively bred to produce antibodies of high functional affinity (HA mice) and low functional affinity (LA mice). HA and LA mice did not develop arthritis in response to immunization with CII whereas 86% of DBA/1 mice did, with 33% showing severe and 53% mild disease. Anti-CII antibodies of the highest titre, the lowest functional affinity, and the greatest affinity heterogeneity were associated with the development of the severest arthritis in DBA/1 mice: even in DBA/1 mice with moderate or no disease the amount of antibody and heterogeneity were higher and functional affinity lower than in either HA or LA mice. Antibodies of the G1, 2a, 2b and 3 subclasses were produced in all mice, and none of these alone accounted for the overall difference in IgG antibody titres or affinity in the groups of mice. Antibodies of the IgG2a subclass showed the closest association with the development of arthritis in the different groups. It is concluded that anti-CII antibodies of low functional affinity, and presumably also of the IgG2a subclass, influence the disease process in collagen arthritis

Methods and difficulties in detection of Clostridium botulinum and its toxins

The aim of this work was to present selected data regarding traditional and modern methods for C. botulinum and its toxins detection. In this article, methods based on culturing techniques, mouse bioassay, immunological techniques, chromatography and PCR, PFGE, RFLP, AFLP are described. The mentioned techniques were evaluated considering their usefulness in the samples examination, genotyping of strains and the diagnostics of botulism