Detection of chemicals by a reporter immunoassay: application to fluoride.

This report describes a concept in which an immunoassay is used indirectly to quantify a nonantigenic very low molecular weight compound participating in a chemical reaction with a haptenic reporter. The detection limit of each reagent is, therefore, governed only by the affinity of the antibodies toward the reporter. Fluoride was used as a model, and silylated estradiol was used as a reporter. Upon silylation with N-O-bis(trimethylsilyl)trifluoroacetamide (BSTFA) or N-O-bis(dimethylterbutylsilyl) trifluoroacetamide (MTBSTFA), estradiol is no longer recognized by antibodies specific to estradiol. After reaction with hydrofluoric acid (HF) or fluoride salts (KF, CsF, NaF), its immunoreactivity is restored, and native estradiol is formed and is detected by immunoassay. The level of synthesized estradiol is dependent on the concentration of fluoride. A fluoride detection limit of 0.3 microg/L (15 nM) is obtained. Potential interference with other acids has been eliminated by choosing the silyl group (trimethylsilyl vs tert-butyldimethylsilyl) and by selecting optimal reaction conditions for the desilylation. The method has been applied to the detection of fluoride salts in natural waters (range 0.28-9.0 mg/L) and in an atmosphere artificially contaminated with HF between 8 and 160 microg/m(3) in the parts-per-billion range. This indirect immunoassay combines simplicity and high sensitivity and, therefore, can be used in field monitoring. Finally, the extension of the concept to other chemicals is discussed.

Recent developments for SPIE-IA, a new sandwich immunoassay format for very small molecules.

Recent publications describing new elegant approaches to assay small analytes using noncompetitive format were briefly reviewed. Among these methods, we have developed a new protocol, named SPIE-IA, which involves a cross-linking step achieved using chemical hombifunctional reagents, UV irradiation or free radicals. This new method proved to be useful to detect naturally occurring analyte/antibody complexes or to protect the analytes against degradation by peptidases. On the other hand, SPIE-IA could allow to study the adverse biological effects of UV and some aspects of free radical chemistry or to evaluate the antioxidant activity of molecules.

The use of enzyme immunoassays for the detection of abzymatic activities. Application to an enantioselective thioacetal hydrolysis activity.

Relying on the particularly high specificity displayed by antibodies, enzyme immunoassays have proved to be one of the most efficient tools for early detection of the catalytic activities displayed by antibodies. We took advantage of such an assay, namely the Cat-enzyme-linked immunoassay (EIA) approach developed in our laboratories, both to exhibit and characterise an antibody-catalysed thioacetal hydrolysis. Monoclonal antibody (mAb) H3-32 was thus identified to accelerate the hydrolysis reaction of thioacetal substrate (NC9) to vanillylmandelic acid (VMA), with a k(cat) of 0.148 h(-1) (k(uncat) = 6.85 x 10(-5) h(-1)), and a K(M) of 720 microM. Taking advantage of the enantiomeric discrimination between (R)- and (S)-VMA displayed by some of the anti-H3 monoclonal antibodies, we were also able to determine that (S)-VMA was preferentially formed during this abzymatic hydrolysis with a 47% enantiomeric excess. All these EIA measurements were confirmed through HPLC analyses.