Use of free radical chemistry in an immunometric assay for 17 beta-estradiol.

BACKGROUND: We wished to develop an enzyme immunometric assay for 17 beta-estradiol (E2) in human serum using solid-phase immobilized epitope immunoassay (SPIE-IA) technology and free radical chemistry. METHODS: We used an anti-estradiol monoclonal antibody as capture antibody and Fenton-like reagents to cross-link it to E2. The same antibody, labeled with acetylcholinesterase, was used for detection. Serum was diluted 10-fold before assay. RESULTS: After correction by the dilution factor, the detection limit was 5 ng/L for human serum and intra- and interassay CVs were <7% and 15%, respectively, at concentrations of 169-2845 ng/L. No cross-reactivity was seen with other natural steroids. In comparison with a competitive commercial RIA performed on 88 undiluted human sera, the slope (SD) of the regression line was 1.05 (+/- 0.02) and the intercept was 47 (+/-27) ng/L (S(y/x) = 186 ng/L) at concentrations of 20-5000 ng/L (r(2) = 0.97). CONCLUSIONS: The use of Fenton-like chemistry in SPIE-IA technology allows a sensitive measurement of E2 in human serum and could be a new approach for the development of sensitive immunoassays.

Cross-linking of 17 beta-estradiol to monoclonal antibodies by direct UV irradiation: application to an enzyme immunometric assay.

Ultraviolet irradiation was used to cross-link 17 beta-estradiol directly to monoclonal anti-17 beta-estradiol antibodies coated on 96-well microtiter plates. Cross-linking efficiency was directly correlated with both irradiation energy and wave-length. The best results were obtained at 254 (10 J/cm2, 45-min irradiation) and 312 nm (40 J/cm2, 160-min irradiation). The irradiation fully denatured both individual molecules (i.e., 17 beta-estradiol and monoclonal anti-17 beta-estradiol antibody), but 17 beta-estradiol was at least partly protected when immunologically bound to the paratope of the antibody. Four different monoclonal anti-17 beta-estradiol antibodies yielded positive results, demonstrating that this photo-cross-linking has considerable potential. We used this original approach to develop a new enzyme immunometric assay of 17 beta-estradiol based on our previously described immunometric procedure, solid-phase immobilized epitope immunoassay, which uses chemical agents to cross-link haptens via amino groups to specific antibodies. The assay was specific (no cross-reactivity with other natural steroids), precise, and sensitive (detection limit of 38 pg/mL in human serum). It correlated well with two competitive commercial immunoassays when tested on 40 human sera.