Shiga-like toxins (verotoxins) are a class of AB5 holotoxins that are primarily responsible for the virulence associated with Shiga-like toxin producing Escherichia coli (STEC) infections. The holotoxins are composed of a pentamer of identical subunits (B subunit) responsible for delivering the catalytic subunit (A subunit) to a host cell and facilitating endocytosis of the toxin into the cell. The B subunits are not associated with toxicity. We developed a multiple reaction monitoring method based on analyzing conserved peptides, derived from the tryptic digestion of the B subunits. Stable-isotope-labeled analogues were prepared and used as internal standards to identify and quantify these characteristic peptides. We were able to detect and quantify Shiga toxins (Stx), Shiga-like toxin type 1 (Stx1) and type 2 (Stx2) subtypes, and to distinguish among most of the known subtypes. The limit of detection for digested pure standards was in the low attomole range/injection (~10 attomoles), which corresponded to a concentration of 1.7 femtomol/mL. A matrix effect was observed when dilute samples were digested in the buffer, Luria broth, or mouse plasma (LOD ~ 30 attomol/injection = 5 femtomol/mL). In addition, we determined that the procedures necessary to perform our mass spectrometry-based analysis completely inactivate the toxins present in the sample. This is a safe and effective method of detecting and quantitating Stx, Stx1, and Stx2, since it does not require the use of intact toxins.
BackgroundShiga toxin 2 (Stx2) is a major virulence factor in gastrointestinal diseases caused by Escherichia coli. Although Stx2a (prototypical Stx2) is well-studied, all seven subtypes of Stx2 have been associated with disease in mammals. Several subtypes of Stx2, including Stx2f, are difficult to detect immunologically.Methods And FindingsFour novel monoclonal antibodies (mAbs) against the Stx2f subtype were produced and characterized. These mAbs react exclusively to the Stx2f A subunit, and do not cross-react with other subtypes of Stx2. A Stx2f-specific sandwich ELISA was established and a limit of detection of 0.123 ng/mL was obtained using one pair of the mAbs. The receptor preference of Stx2f was confirmed using this sandwich ELISA. Three out of four mAbs can partially neutralize the toxicity of Stx2f in a cell-based assay. These mAbs were also demonstrated to be highly specific and reactive when applied to colony immunoblot assays.ConclusionsNovel mAbs specific to Stx2f were developed for the first time, providing new assets for the STEC community. Immunoassays with improved sensitivity and specificity will be useful for the detection of Stx2f present in food, environmental, and clinical samples.
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