A general method for noncompetitive immunoassay of small analytes using affinity probe capillary electrophoresis (APCE) is demonstrated using digoxin as a model analyte. A uniform immunoreagent was prepared from a single-chain antibody (scFv) gene specific for digoxin. Site-directed mutagenesis introduced a unique cysteine residue for uniform labeling with a thiol-reactive fluorochrome. After expression in E. coli, the scFv was purified by immobilized metal affinity chromatography (IMAC) using an added C-terminal 6-histidine sequence. The protein was renatured and labeled while immobilized on the IMAC resin. After 0.02-microm filtration to remove microaggregates, the resulting reagent was highly uniform and stable at -12 degrees C for at least 1 year. Three formats of APCE using the scFv reagent were explored. A "mix-and-inject" assay optimized for low detection limits demonstrated analysis of 10 pM digoxin in aqueous standard solutions in 10 min. A rapid mix-and-inject format in a short capillary allowed detection of 1 nM digoxin in 1 min. Digoxin samples in serum and urine were injected directly after 10-fold dilution. In combination with solid-phase extraction, 400 fM digoxin was detected in 1 mL of serum. Including solid-phase extraction, reproducibility was within 2.5%, and the linear range was 3 orders of magnitude. The strategy adopted in this paper should be of general use in the low-level analysis of small analytes.
This work demonstrates the use of affinity probe capillary electrophoresis (APCE) in the quantitative analysis of drugs in biological fluids at the low pM level. The interaction of human carbonic anhydrase II (HCAII) with the glaucoma drug dorzolamide (Dz) was chosen as a model system. HCAII was labeled at its single cysteine residue using a thiol‐specific fluorescein reagent. The peak area of HCAII complexed with the tight‐binding drug Dz provided a direct assay of the drug concentration in solution. A charged competitive ligand added to the running buffer was employed in APCE to distinguish Dz‐bound from free forms of the HCAII. Using laser‐induced fluorescence (LIF), the Dz detection limit was 16.5 pM in aqueous solution and 62.5 pM in both urine and plasma. Normalized peak area reproducibility of the drug was within 3.4% RSD. Each analysis was completed within 10 min, including incubation, and consumed only 0.3 pmol of labeled protein. The APCE approach provides an effective method for trace level detection of drugs in biological matrices.
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