Generation of a Recombinant scFv against Deoxycholic Acid and Its Conversion to a Quenchbody for One-Step Immunoassay

Development of a rapid detection method for deoxycholic acid (DCA) is crucial for its diagnosis in the early stages of inflammation and cancer. In this study, we expressed a soluble recombinant anti-DCA single-chain variable fragment (scFv) in Escherichia coli. To convert scFv into a Quenchbody (Q-body), we labeled scFv using commercially available maleimide-linked fluorophores. The TAMRA-C5-maleimide-conjugated Q-body showed the highest response within a few minutes of DCA addition, indicating its applicability as a wash-free immunoassay probe for onsite DCA detection.

Anti-estradiol-17beta single-chain Fv fragments: Generation, characterization, gene randomization, and optimized phage display

A single-chain Fv fragment (scFv) against estradiol-17beta (E(2)) was generated to begin the construction of a library of various mutated anti-steroid antibodies with an improved affinity and/or specificity. A hybridoma clone secreting a specific anti-E(2) antibody (Ab#E4-4) was established by the cell fusion using splenocytes from a mouse immunized with an immunogenic E(2)-carrier conjugate. DNA fragments encoding the variable heavy and light domains (V(H) and V(L)) of the Ab#E4-4 were cloned and combined to give the scFv gene fragment encoding the sequence 5'-V(H)-(GGGGS)(3)-V(L)-3'. Compared to the Ab#E4-4 Fab fragment, soluble scFv (scFv#E4-4) protein showed a similar affinity to E(2) (K(a)=8.6x10(7)M(-1)) and a similar cross-reaction profile. To further study the fundamentals for creating a comprehensive library of mutated scFvs, the scFvV(H) and V(L) genes were amplified using error-prone PCR conditions and the frequency and pattern of incorporated mutations were investigated. For this, regular Taq polymerase was used in the presence of unequal concentrations of dNTPs. At 1.0mM MnCl(2), the error frequency reached to 8.5% and 11% for the V(H) and V(L) respectively, although a significant transition/transversion bias was observed. ScFv#E4-4 and the mutated polyclonal scFvs were then displayed on filamentous phage under various packaging conditions. Cultivation of the transformed bacteria was more suitable at 25 degrees C than at higher temperatures for the packaging of scFv-bearing phagemid particles. Based on these experimental conditions, an scFv-displaying phage library, each scFv member in which has mutated complementarity-determining region (CDR) H2, H3, L1, and L3, was constructed. A soluble scFv clone (scFv#m1-e7) with a mutated amino acid (I-->V) in CDR L1, isolated from this library, showed threefold higher affinity (K(a)=2.6 x 10(8)M(-1)) than that of scFv#4-4.

Production and characterization of a monoclonal antibody to capture proteins tagged with lithocholic acid

Reactive metabolic-modified proteins have been proposed to play an important role in the mechanism(s) of the hepatotoxicity and colon cancer of lithocholic acid (LCA). To identify cellular proteins chemically modified with LCA, we have generated a monoclonal antibody that recognizes the 3alpha-hydroxy-5beta-steroid moiety of LCA. The spleen cells from a BALB/c mouse, which was immunized with an immunogen in which the side chain of LCA was coupled to bovine serum albumin (BSA) via a succinic acid spacer, was fused with SP2/0 myeloma cells to generate antibody-secreting hybridoma clones. The resulting monoclonal antibody (gamma2b, kappa) was specific to LCA-N(alpha)-BOC-lysine as well as the amidated and nonamidated forms of LCA. The immunoblot enabled the detection of LCA residues anchored on BSA and lysozyme. The antibody will be useful for monitoring the generation, localization, and capture of proteins tagged with LCA, which may be the cause of LCA-induced toxicity.

Immunoaffinity extraction of a peptide modified by a small molecule

We investigated the affinity extraction conditions required to isolate peptide fragments modified with small molecules using an antibody that has a high affinity for the target small molecule. Investigation of antibody conformation and the retention behavior of the modified peptides on an immunosorbent matrix demonstrated the importance in efficient extraction of both the dissociation of hydrophobic interactions and the breakdown of the antibody conformation. Hydrophobic interactions, which anchor the small ligand to the paratope, were retained even when the three-dimensional structure of the antibody disintegrated in an acidic solution. For efficient extraction of a target peptide modified by a small molecule, it is therefore important to use an acidic solvent containing an organic modifier such as methanol at a concentration greater than 40% (v/v). We demonstrated the feasibility of this immunoaffinity extraction by application of this procedure to the analysis of modified peptide fragments obtained from a digestion of human serum albumin. The peptide fragments were affinity labeled with chenodeoxycholyl adenylate for analysis of the chenodeoxycholate binding site. This purification method could isolate the low levels of modified peptide contained in the reaction mixture, despite the presence of appreciable quantities of unlabeled peptide fragments.

Generation of a single-chain Fv fragment for the monitoring of deoxycholic acid residues anchored on endogenous proteins

A subset of lipophillic bile acids, including deoxycholic acid (DCA) and lithocholic acid (LCA), are thought to be biologically transformed into reactive intermediates forming covalently modified, "tissue-bound" bile acids that can exert several toxic effects. We have generated a single-chain Fv fragment (scFv) as a probe to monitor DCA residues anchored on proteins. DNA fragments encoding the variable heavy (V(H)) and light (V(L)) domains of a mouse antibody raised against a DCA hapten (Ab #88) were cloned by rapid amplification of cDNA 5'-ends. These sequences were combined via a common linker sequence coding (Gly(4)Ser)(3) to construct a single scFv gene with the gene segments in the following order: 5'-V(H)-linker-V(L)-3'. This construct was subcloned into an antibody-expression vector, pEXmide 5; soluble scFv protein was then expressed in the bacterial periplasm of the XLOLR Escherichia coli strain. In a competitive enzyme-linked immunosorbent assay using DCA-coated microtiter plates, the scFv provided a dose-response curve for free DCA ranging between 2 and 5000 pg/assay. The scFv reacts similarly with the l-lysine adduct of DCA (cross-reactivity, 72%), while bile acids having a modified DCA steroid skeleton were well-discriminated (cross-reactivity, <1%). This scFv could also monitor trace amounts of DCA residues anchored on a protein through DCA acyl adenylate reactions, the likely reactive intermediate. The present scFv may be a useful tool for trace characterization of tissue-bound bile acids; this usefulness may be significantly enhanced by fusion with signal-generating proteins, such as alkaline phosphatase or green fluorescent protein.

A Nonenzymatic Modification of the Amino-terminal Domain of Histone H3 by Bile Acid Acyl Adenylate

Although it has been proposed that the secondary bile acids, deoxycholic acid and lithocholic acid, increase the number of aberrant crypt foci in the colon and may act as colon tumor promoters, there is little evidence detailing their mechanism of action. Histones play an important role in controlling gene expression, and the posttranslational modification of histones plays a role in regulation of intracellular signal transduction. In particular, the amino-terminal tail domain of histone H3 is sensitive to several posttranslational modifications, and acetylation of this domain changes its electrostatic environment and results in the loss of native folding. Therefore, we studied the modification of epsilon-amino groups on human histone H3 by deoxycholyl adenylate, which is an active intermediate in deoxycholyl thioester biosynthesis. After incubation of recombinant human histone H3 with a smaller amount of acyl adenylate, followed by enzymatic digestion, the peptide fragment mixtures were analyzed by matrix-assisted laser desorption ionization mass spectrometry. These data showed the formation of only one adduct fragment, which corresponded to amino acids 3-8 with a deoxycholate adduct, suggesting that the epsilon-amino group of Lys(4) had the highest reactivity. This novel modification, formation of a bile acid adduct on the histone H3 amino-terminal tail domain through an active acyl adenylate, may relate to the carcinogenesis-promoting effects of secondary bile acids.

Presence of protein-bound unconjugated bile acids in the cytoplasmic fraction of rat brain

Using liquid chromatography/electrospray ionization mass spectrometry, we have found three unconjugated bile acids [cholic acid (CA), chenodeoxycholic acid (CDCA), and deoxycholic acid (DCA)] in the rat brain cytoplasmic fraction. CDCA was detected only upon extraction with high concentrations of guanidine, indicating that it is bound noncovalently to protein in the brain. The most abundant of the three, it was present at a concentration of 1.6 nmol/g wet weight (approximately 15 mg of protein) of brain, corresponding to almost 30 times its serum concentration. CA and DCA were present at 1/30th the concentration of CDCA. Bile acids conjugated with amino acids, sulfuric acid, and glucuronic acid were not detected. These data clearly demonstrate that unconjugated CDCA and, to a lesser extent, CA and DCA, exists in the rat brain.

The enantioselective immunoaffinity extraction of an optically active ibuprofen-modified peptide fragment

Acyl glucuronides are known to produce the covalently bound protein adducts which may be the cause of hypersensitivity and toxic responses to acidic drugs. The structural analysis of the drug-protein adducts is therefore needed. From this point of view, we developed an enantioselective immunoaffinity extraction method, which employs an immobilized antibody to specifically isolate peptide fragments that have been modified with optically active ibuprofen. Rabbits were immunized with (S)-ibuprofen coupled to bovine serum albumin through a beta-alanine group. The elicited antibody strongly recognizes the asymmetric center and the isobutylphenyl moiety of (S)-ibuprofen and its conjugates but has a low affinity for their anti podes. A 0.5-mL aliquot of the immunosorbent (11.5 mg of IgG/mL gel) prepared by immobilization of the antibody was capable of retaining up to 1 microg of (S)-ibuprofen. When a mixture of substance P with (R)- and (S)-ibuprofen-modified substance P was loaded on the immunosorbent, the (S)-ibuprofen-modified substance P was selectively retained. The modified peptide was quantitatively recovered by elution with 10 mM ammonium acetate buffer (pH 5.0)/methanol (5:95, v/v). The proposed method would be useful for the structural characterization of optically active ibuprofen-modified human serum albumin.