Detection of lipofuscin-like fluorophore in oxidized human low-density lipoprotein. 4-hydroxy-2-nonenal as a potential source of fluorescent chromophore

It has recently been shown that the lipid peroxidation product 4-hydroxy-2-nonenal (HNE) forms a fluorescent hydroxyiminodihydropyrrole derivative with the epsilon-amino group of lysine residue. In this study, we raised a monoclonal antibody (mAb2C12) directed to the fluorophore-protein conjugate and found that the antibody was specific to the chromophore structure of the compound. Immunohistochemical analysis of atherosclerotic lesions from the human aorta showed that the fluorophore was indeed present in the lesions, in which intense positivity was primarily associated with macrophage-derived foam cells and thickening of the neointima of the arterial walls. Antigenic materials were also detected in the oxidatively modified low-density lipoprotein (LDL) with Cu(2+) and in the oxidatively modified bovine serum albumin with an iron/linoleic acid autoxidation system, indicating that the HNE, which originated from the peroxidation of polyunsaturated fatty acids, could be a potential source of the fluorescent chromophore in oxidized LDL.     

Esterified lipid hydroperoxide-derived modification of protein: formation of a carboxyalkylamide-type lysine adduct in human atherosclerotic lesions

We have recently identified Nepsilon-azelayllysine (AZL) as a carboxyalkylamide-type novel lysine adduct in the reaction of linoleic acid hydroperoxides with the lysine derivative. To examine the formation of AZL in vivo, a novel monoclonal antibody (mAb19D5) specific to AZL moiety was prepared. The mAb19D5 scarcely recognized oxidized low-density lipoprotein (oxLDL), whereas the treatment of oxLDL with alkali or phospholipase A2 significantly increased the immunoreactivity. Similarly, the immunopositive materials were detected in alkali- or phospholipase A2-treated sections from human atherosclerotic aorta but not in untreated sections. These results suggest that esterified lipid hydroperoxide-derived modification of protein may serve as one mechanism for the oxidative modification of LDL and subsequent formation of atherosclerotic lesions in vivo.     

Presence of phospholipid-neutral lipid complex structures in atherosclerotic lesions as detected by a novel monoclonal antibody.

A novel monoclonal antibody (ASH1a/256C) that recognizes atherosclerotic lesions in human and Watanabe heritable hyperlipidemic (WHHL) rabbit aortae is described. When (123)I-labeled ASH1a/256C antibody is injected intravenously into WHHL rabbits, it associates specifically with fatty streaks on the aorta. The antigen recognized by the antibody is lipid, based on extraction with chloroform and methanol from WHHL rabbit tissues. The antigen, purified by high performance liquid chromatography, was shown to be phosphatidylcholine (PC), which contains unsaturated fatty acyl groups based on analyses utilizing (1)H and (13)C nuclear magnetic resonance, Fourier transfer-infrared spectrum, and mass spectrometry. The antibody did not react with other classes of phospholipids or neutral lipids when tested using an enzyme-linked immunosorbent assay. When PC was mixed with either cholesterol, cholesteryl ester, or triacylglycerol, however, the reactivity of the antibody to PC increased up to 8-fold. Homogenates of aorta tissue obtained from normal and WHHL rabbits were fractionated using sucrose density gradient ultracentrifugation in which neutral lipid droplets, cellular membranes, and proteins are separated. The phospholipid content in cellular membrane fractions from WHHL rabbits was twice as high as that of normal rabbits, and there was an enormous difference in the antigenic activity in these fractions. The content of cholesterol in the cellular membrane fraction of WHHL rabbits was approximately 50 times higher than that of normal rabbits. Addition of neutral lipids to the cellular membrane fraction of normal rabbit markedly increased the antigenic activity. Atheromatous lesions in thickened WHHL rabbit aortic intima that were rich in lipid droplets were stained positively with ASH1a/256C immunohistochemically. These results strongly suggest that PC-neutral lipid complex domains are formed in atherosclerotic lesions.     

Reaction of N(alpha)-hippuryllysine with 2-hydroxyheptanal: a model for lysine-directed protein modifications by lipid peroxidation

2-Hydroxyheptanal (2-HH) is one of the major aldehydes derived from peroxidation of polyunsaturated fatty acids. In the present study, to obtain an insight into the contributions of 2-HH to protein modifications during lipid peroxidation, a lysine-containing dipeptide, N(alpha)-hippuryllysine (N-benzoylglycyl-L-lysine, BGL), was reacted with 2-HH at neutral pH. The products were characterized on the basis of LC/MS and NMR spectroscopy. The reaction afforded a 2:1 2-HH-lysine adduct, 1-[5-(N-benzoylglycylamino)-5-carboxypentyl]-4-butyl-5-pentyl-1,2,6-trihydropyridin-3-one (I). In addition, we obtained a 1:1 2-HH-lysine adduct, N-[5-(N-benzoylglycylamino)-5-carboxypentyl]-1-amino-2-heptanone (III). The treatment of the purified III with 2-HH produced I. On the other hand, when the reaction mixture was allowed prolonged standing, I was slowly oxidized to 1-[5-(N-benzoylglycylamino)-5-carboxypentyl]-4-butyl-5-pentyl-3-hydroxypyridinium (V). This conversion was strongly accelerated by the addition of copper(II) ion and 2,2'-bipyridyl. We propose here that the above series of conversions is the main pathway for the modification of lysine residues of proteins by 2-HH.     

Assessment of atherosclerotic plaques in the rabbit abdominal aorta with interleukin-8 monoclonal antibody-targeted ultrasound microbubbles

In this study, we aimed to prepare a neovascularization-relevant inflammatory cytokine-targeted ultrasound contrast agent and apply it in the ultrasound imaging of atherosclerotic plaque. An interleukin-8 (IL-8) monoclonal antibody was conjugated to SonoVue microbubbles using the N-succinimidyl-3-(2-pyridyldithio)propionate cross-linking method. Then, a prepared IL-8-targeted contrast agent was used for contrast-enhanced ultrasound (CEU) to detect rabbit abdominal aorta atherosclerotic plaque and to investigate the imaging characteristics of atherosclerotic plaque with the contrast agent. We found that an IL-8 monoclonal antibody can be successfully coupled to SonoVue microbubbles with stable biological characteristics. CEU with this IL-8-targeted contrast agent can increase the atherosclerotic plaque detection sensitivity, with stronger echo, so that three more plaques were detected compared with using non-targeted SonoVue microbubbles. Thus, an inflammatory cytokine-targeting ultrasound contrast agent carrying IL-8 monoclonal antibody can provide unique advantages for researching the characteristics of atherosclerotic plaque.     

A conserved epitope on several human vitamin K-dependent proteins. Location of the antigenic site and influence of metal ions on antibody binding

A murine monoclonal antibody (designated H-11) produced by injecting mice with purified human protein C was found to bind several human vitamin K-dependent proteins. Using a solid-phase competitive radioimmunoassay with antibody immobilized onto microtiter plates, binding of 125I-labeled protein C to the antibody was inhibited by increasing amounts of protein C, prothrombin, and Factors X and VII over a concentration range of 1 X 10(-8) to 1 X 10(-6) M. Other vitamin K-dependent proteins including Factor IX and protein S did not inhibit or inhibited only at the highest concentration binding of radiolabeled protein C to the immobilized antibody. Chemical treatment of prothrombin with a variety of agents including denaturation by sodium dodecyl sulfate, reduction with mercaptoethanol followed by carboxymethylation with iodoacetic acid, citraconylation of lysine residues, removal of metal ion with EDTA, or heat decarboxylation did not destroy the antigenic site recognized by the antibody as measured by immunoblotting of prothrombin or prothrombin derivative immobilized onto nitrocellulose. Immunoblotting of purified vitamin K-dependent polypeptides with the monoclonal antibody following sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electrophoretic transfer to nitrocellulose indicated that the antigenic site was found on the light chains of protein C and Factor X. Chymotrypsin digestion of prothrombin and isolation on QAE-Sephadex of the peptide representing amino-terminal residues 1-44 of prothrombin further localized the antigenic site recognized by the monoclonal antibody to the highly conserved gamma-carboxyglutamic acid-containing domain. The exact location of the antigenic determinant for antibody H-11 was established using synthetic peptides. Antibody H-11 bound specifically to synthetic peptides corresponding to residues 1-12 of Factor VII and 1-22 of protein C. Comparison of protein sequences of bovine and human vitamin K-dependent proteins suggests that the sequence Phe-Leu-Glu-Glu-Xaa-Arg/Lys is required for antibody binding. The glutamic acid residues in this peptide segment are the first 2 gamma-carboxyglutamic acid residues near the amino-terminal end in the native proteins. Increasing concentrations of Ca2+, Mg2+, or Mn2+ partially inhibited binding of 125I-protein C to the antibody in a solid-phase assay system with half-maximal binding observed at divalent metal ion concentrations of 2, 4, and 0.6 mM, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

Mapping of a putative surface-binding site of human coagulation factor XII

We have localized the binding epitope(s) of two murine monoclonal antibodies (B7C9 and P5-2-1) that were shown previously to inhibit the activation of human coagulation factor XII by negatively charged surfaces. A factor XII cDNA expression library in lambda gt11 was screened with antibody B7C9, and 16 immunoreactive bacteriophage were isolated. Fusion proteins from each of the recombinant phage were reactive with both monoclonal antibodies. Two of the phage cDNA inserts were found to code for amino acid residues -6-+31 and +1-+47 of factor XII, respectively, thereby defining the limits of the antigenic peptide to amino acids +1-+31. Each of the remaining 14 recombinant phage contained longer factor XII cDNA inserts that included sequences coding for the amino-terminal 31 amino acid residues. These results were confirmed by direct binding of antibody B7C9 to synthetic peptides containing amino acids 1-14 and 1-28 of factor XII. Further experiments with a set of nested peptides also indicated that amino acid residues 1-4 were essential but not sufficient for binding of B7C9 to the peptides. Hydrophobicity analysis of the amino-terminal region of plasma factor XII revealed a highly hydrophilic region between amino acid residues 5 and 15 that contained positively charged lysine residues at positions 8, 11, and 13. We conclude that a major epitope(s) recognized by monoclonal antibodies B7C9 and P5-2-1 is present in the amino-terminal 28 amino acids of factor XII. It is proposed that binding of these antibodies to factor XII blocks interaction of the positively charged region between residues 5 and 15 with negatively charged surfaces, thereby inhibiting activation.     

Maillard reactions by alpha-oxoaldehydes: detection of glyoxal-modified proteins

Proteins can be chemically modified by sugars by glycation, or the Maillard reaction. The Maillard reaction produces irreversible adducts on proteins that are collectively known as advanced glycation end products, or AGEs. Recent studies indicate that several alpha-dicarbonyl compounds, including glyoxal (GXL), are precursors of AGEs in vivo. We developed antibodies against a GXL-modified protein (GXL-AGE) and purified a mixture of GXL-AGE-specific antibodies by chromatography on GXL-modified bovine serum albumin (BSA-GXL) coupled to EAH-Sepharose. This preparation was then processed on a human serum albumin-carboxymethyllysine (HSA-CML)-NHS-Sepharose to remove CML-specific antibodies. We used the resulting purified antibody in a competitive ELISA to probe GXL-AGEs in vitro and in vivo. We found increasingly greater antibody binding with increasing concentrations of GXL-modified BSA, but the antibody failed to react with either free CML or protein-bound CML. Incubation experiments with BSA revealed that glyceraldehyde, ribose and threose could be precursors of GXL-AGEs as well. Experiments in which GXL was incubated with N-alpha-acetyl amino acids showed that the antibody reacts mostly with lysine modifications. The GXL-derived lysine-lysine crosslinking structure, GOLD was found to be one of the antigenic epitopes for the antibody. Analysis of human plasma proteins revealed significantly higher levels of GXL-AGE antigens in type II diabetic subjects compared with normal controls (P<0.0001). We also found GXL-AGEs in human lens proteins. Bovine aortic endothelial cells cultured for 7 days with 30 mM glucose did not accumulate intracellular GXL-AGEs. These studies underscore the importance of GXL for extracellular AGE formation (except in lens where it is likely to be formed intracellularly) and suggest that changes associated with age and diabetes might be prevented by alteration of GXL-AGE formation.     

Monoclonal antibody to murine embryos defines a stage-specific embryonic antigen expressed on mouse embryos and human teratocarcinoma cells

A murine stage-specific embryonic antigen (SSEA3) is defined by reactivity with a monoclonal antibody prepared by immunization of a rat with 4- to 8-cell-stage mouse embryos. This antigenic determinant, present on oocytes, becomes restricted first to the inner cell mass at the blastocyst stage, and later to the primitive endoderm. Murine teratocarcinoma stem cells do not react with this antibody, whereas human teratocarcinoma stem cells are SSEA3-positive. This antigenic determinant is not expressed on a variety of other human and murine cell lines, but is found on the surface of human erythrocytes. It is a carbohydrate and is present on both cell-surface glycolipids and glycopeptides. These results demonstrate the feasibility of identifying stage-specific antigenic determinants with monoclonal antibody prepared against embryos. The need for thorough screening on a variety of cell types to establish developmentally important cross-reactivities is also emphasized.     

Amino acid sequence of a specific antigenic peptide of protein B23

A specific antigenic peptide was obtained from protein B23 (Mr/pI = 37,000/5.1) after 30 min of digestion with staphylococcal V8 protease (10 micrograms/ml/mg protein B23). The antigenic peptide was purified by DEAE-cellulose chromatography and high pressure liquid chromatography on a reverse-phase C18 column. The antigenic peptide contains 14.7 and 18.7 mol% of glutamic acid and lysine, respectively. Amino acid sequence analysis showed that the peptide has 68 amino acids and is located on the carboxyl-terminal sequence of protein B23. The sequence is Ser-Phe-Lys-Lys-Gln-Glu-Lys-Thr-Pro-Lys-Thr-Pro- Lys-Gly-Pro-Ser-Ser-Val-Glu-Asp-Ile-Lys-Ala-Lys-Met-Gln-Ala-Ser-Ile-Glu- Lys-Gly- Gly-Ser-Leu-Pro-Lys-Val-Glu-Ala-Lys-Phe-Ile-Asn-Tyr-Val-Lys-Asn-Cys-Phe- Arg-Met- Thr-Asp-Gln-Glu-Ala-Ile-Gln-Asp-Leu-Trp-Gln-Trp-Arg-Lys-Ser-Leu-Cooh. Extensive digestion of the antigenic peptide with V8 protease, trypsin, or chymotrypsin results in loss of the antigenic activity. Three cloned cDNAs (hpB1, hpB2, and hpB7) which code for the 82 amino acids at the COOH terminus of protein B23 and the 3' non-translating sequence were identified and characterized. All three clones have identical nucleotide sequences coding for the antigenic portion of the protein (68 amino acids at the COOH terminus), the stop codon, and the 3' non-translated region. However, mutation of 6 nucleotide bases of one clone (hpB2) caused changes in 4 amino acids in the sequence just preceding the immunoreactive region. The result suggests the presence of at least 2 immunologically similar but distinct proteins which are both recognized by the anti-B23 antibody.     

Isolation of a versatile Serratia marcescens mutant as a host and molecular cloning of the aspartase gene.

Hybridomas were constructed with spleen cells from mice immunized against Methanosarcina barkeri 227. The reaction with the resulting monoclonal antibodies identified two antigenic determinants. Determinant 8A is present in M. barkeri 227, where it is accessible to antibody on whole bacterial cells. 8A is undetectable in (or absent from) M. barkeri R1M3, an immunologically closely related strain. Determinant 8C is present in both strains, but with M. barkeri 227 it is found only in extracts and cannot be demonstrated in whole cells. It therefore appears to be hidden. A soluble form of antigen 8A (antigen 227) was obtained treating whole M. barkeri 227 cells with absolute methanol. This antigen was further purified by affinity chromatography with antibody 8A. Chemical and immunochemical analyses of these preparations showed that antigen 227 is a high-molecular-weight (4 X 10(5)) structure composed mainly of one carbohydrate, glucose, and small amounts of amino acids. Its solubility properties suggest that this molecule is associated with a lipid moiety.     

Neutralization escape mutants define a dominant immunogenic neutralization site on hepatitis A virus.

Hepatitis A virus is an hepatotrophic human picornavirus which demonstrates little antigenic variability. To topologically map immunogenic sites on hepatitis A virus which elicit neutralizing antibodies, eight neutralizing monoclonal antibodies were evaluated in competition immunoassays employing radiolabeled monoclonal antibodies and HM-175 virus. Whereas two antibodies (K3-4C8 and K3-2F2) bound to intimately overlapping epitopes, the epitope bound by a third antibody (B5-B3) was distinctly different as evidenced by a lack of competition between antibodies for binding to the virus. The other five antibodies variably blocked the binding of both K3-4C8-K3-2F2 and B5-B3, suggesting that these epitopes are closely spaced and perhaps part of a single neutralization immunogenic site. Several combinations of monoclonal antibodies blocked the binding of polyclonal human convalescent antibody by greater than 96%, indicating that the neutralization epitopes bound by these antibodies are immunodominant in humans. Spontaneously arising HM-175 mutants were selected for resistance to monoclonal antibody-mediated neutralization. Fourteen clonally isolated mutants demonstrated substantial resistance to multiple monoclonal antibodies, including K3-4C8-K3-2F2 and B5-B3. In addition, 13 mutants demonstrated a 10-fold or greater reduction in neutraliztion mediated by polyclonal human antibody. Neutralization resistance was associated with reduced antibody binding. These results suggest that hepatitis A virus may differ from poliovirus in possessing a single, dominant neutralization immunogenic site and therefore may be a better candidate for synthetic peptide or antiidiotype vaccine development.     

Foam cell formation containing lipid droplets enriched with free cholesterol by hyperlipidemic serum.

A monoclonal antibody, ASH1a/256C (256C), which binds to atherosclerotic lesions in Watanabe heritable hyperlipidemic rabbit (WHHL) aorta in vivo, recognizes complex structures of phosphatidylcholine mixed with neutral lipids. In the present study, a cell culture system is described in which foam cells express 256C-positive lipid droplets. J774.1 macrophages were incubated in the presence of a small volume of WHHL serum for 24 h to produce foam cells, which were then incubated without the WHHL serum for 3 days. Oil red O-positive lipid droplets appeared on day 1, and were present in the cells during the whole incubation period. The lipid droplets in the cells were positively immunostained with antibody 256C on day 4, although they were negative on day 1. Expression of the antigenic lipid droplets was also induced by the addition of acetylated LDL or sera from patients with hyperlipidemia. When foam cells were induced by the addition of WHHL serum, cellular content of cholesteryl ester was greatly increased but then decreased to near basal levels by day 4. Concomitantly, cellular free cholesterol increased during the culture period, indicating that the cholesteryl ester changes to free cholesterol by day 4. The lipid droplets in the foam cells on day 4 were positively stained with filipin, a fluorescent probe for free cholesterol, as well as with 256C antibody, indicating that free cholesterol is enriched in antigenic lipid droplets. These observations suggest that hydrolysis and rearrangement of cellular cholesterol take place in foam cells to form complex structures of phosphatidylcholine and free cholesterol in lipid droplets.     

Endogenous formation of protein adducts with carcinogenic aldehydes: implications for oxidative stress

In the present study, we characterize the covalent modification of a protein by crotonaldehyde, a representative carcinogenic aldehyde, and describe the endogenous production of this aldehyde in vivo. The crotonaldehyde preferentially reacted with the lysine and histidine residues of bovine serum albumin and generated a protein-linked carbonyl derivative. Upon incubation with the histidine and lysine derivatives, crotonaldehyde predominantly generated beta-substituted butanal adducts of histidine and lysine and N(epsilon)-(2,5-dimethyl-3-formyl-3,4-dehydropiperidino)lysine (dimethyl-FDP-lysine) as the putative carbonyl derivatives generated in the crotonaldehyde-modified protein. To verify the endogenous formation of crotonaldehyde in vivo, we raised the monoclonal antibody (mAb82D3) against the crotonaldehyde-modified protein and found that it cross-reacted with the protein-bound 2-alkenals, such as crotonaldehyde, 2-pentenal, and 2-hexenal. The anti-2-alkenal antibody recognized multiple crotonaldehyde-lysine adducts, including dimethyl-FDP-lysine and an unknown product, which showed the greatest immunoreactivity with the antibody. On the basis of the chemical and spectroscopic evidence, the major antigenic product was determined to be a novel Schiff base-derived crotonaldehyde-lysine adduct, N(epsilon)-(5-ethyl-2-methylpyridinium)lysine (EMP-lysine). It was found that the lysine residues that had disappeared in the protein treated with crotonaldehyde were partially recovered by EMP-lysine. The presence of immunoreactive materials with mAb82D3 in vivo was demonstrated in the kidney of rats exposed to the renal carcinogen, ferric nitrilotriacetate. In addition, the observations that the metal-catalyzed oxidation of polyunsaturated fatty acids in the presence of proteins resulted in an increase in the antigenicity of the protein indicated that lipid peroxidation represents a potential pathway for the formation of crotonaldehyde/2-alkenals in vivo. These data suggest that the formation of carcinogenic aldehydes during lipid peroxidation may be causally involved in the pathophysiological effects associated with oxidative stress.     

Monoclonal antibodies against different epitopes of peptide hormones. Use of photoreactive analogues in studies on vasopressin.

In order to produce monoclonal antibodies directed against different epitopes of the neurohypophyseal hormone vasopressin, the hormone was coupled to carrier proteins via photoreactive groups at different positions in the vasopressin sequence: [2-(4-azidophenylalanine), 8-arginine]vasopressin (peptide P1, photoreactive group at position 2) and desamino-[8-N6-(4-azidophenylamidino)lysine]vasopressin (peptide P2, photoreactive group at position 8) were conjugated to thyroglobulin by flash photolysis. Monoclonal antibodies against these conjugates bound ([3H]8-arginine]vasopressin with dissociation constants ranging over 40-400 nM. Epitope analysis by means of competitive ELISA showed that the monoclonal antibody obtained with peptide P1 as hapten was directed against the C-terminal acyclic tripeptide when its conformation was stabilized by interaction with the disulphide-linked cyclic hexapeptide. In contrast, the epitope analysis of three monoclonal anti-(peptide P2) antibodies demonstrated that they recognized antigenic determinants in the cyclic hexapeptide ring, mainly the hydrophobic surface formed by Tyr2 and Phe3. Our results suggest that monoclonal antibodies against different epitopes in small peptide hormones can be generated selectively by using photoreactive peptides in such a way that different antigenic sites are exposed in the hapten-carrier conjugate.     

Cross-neutralizing activity against divergent human immunodeficiency virus type 1 isolates induced by the gp41 sequence ELDKWAS.

Previously we identified the highly conserved amino acids Glu-Leu-Asp-Lys-Trp-Ala (ELDKWA) on the ecto-domain of gp41 as the epitope of a neutralizing monoclonal antibody (2F5) directed against human immunodeficiency virus type 1. In the present study, the sequence defining the epitope was introduced into the loop of antigenic site B of the influenza virus hemagglutinin. The resulting chimeric virus was able to elicit ELDKWA-specific immunoglobulins G and A in antisera of mice. Moreover, the distantly related human immunodeficiency virus type 1 isolates MN, RF, and IIIB were neutralized by these antisera. These data suggest that this conserved B-cell epitope is a promising candidate for inclusion in a vaccine against AIDS. The results also show that influenza virus can be used to effectively present the antigenic structure of this B-cell epitope.     

Identification of smooth muscle-derived foam cells in the atherosclerotic plaque of human aorta with monoclonal antibody IIG10

We have developed a monoclonal antibody that specifically interacts with a surface antigen of human fibroblasts and smooth muscle cells. The antibody (antibody IIG10) recognizes a polypeptide of molecular mass 330,000, revealed by immunoblotting in fibroblast and smooth muscle cell extract, but not in vascular endothelial cells, peritoneal macrophages, peripheral blood lymphocytes nor hepatocytes. In tissue sections the antibody stained smooth muscle cells of myometrium, aorta and smaller blood vessels, and fibroblasts of connective tissue. Specificity of the antibody was further confirmed by double staining of aorta sections. Antibody IIG10 was used to identify smooth muscle-derived foam cells in the atherosclerotic plaque of human aorta.     

Covalent binding of oxidized cholesteryl esters to protein: implications for oxidative modification of low density lipoprotein and atherosclerosis

It has been proposed that plasma low density lipoproteins (LDL) undergo oxidative modification before they can produce foam cells in atherosclerosis. The oxidation of LDL generates a variety of reactive aldehydic products, which covalently bind to the LDL apolipoprotein B-100 (apoB). In the present study, to investigate the mechanisms contributing to the modification of LDL, we analyzed oxidized cholesteryl esters generated during the autoxidation of LDL and characterized their covalent binding to the lysine residues of LDL apoB. In addition, we raised a monoclonal antibody specific to a lysine-bound oxidized cholesteryl ester and determined its production in human atherosclerotic lesions. The peroxidation of LDL with Cu2+ produced 9-oxononanoylcholesterol (9-ONC) and 5-oxovaleroylcholesterol as the major oxidized cholesteryl esters. We observed that the levels of 9-ONC and 5-oxovaleroylcholesterol peaked at 12 h and significantly decreased thereafter. The reduction of the core aldehyde levels was accompanied by (i) the formation of free 7-ketocholesterol and 7-ketocholesteryl ester core aldehydes and (ii) an increase in the amounts of apoB-bound cholesterol and 7-ketocholesterol, suggesting that the cholesteryl ester core aldehydes were further converted to their 7-ketocholesterol- and apoB-bound derivatives. To detect the protein-bound 9-ONC, we raised the monoclonal antibody 2A81, directed against 9-ONC-modified protein, and found that it extensively recognized protein-bound cholesteryl ester core aldehydes. Agarose gel electrophoresis followed by immunoblot analysis of the oxidized LDL clearly demonstrated the formation of antigenic structures. Furthermore, immunohistochemical analysis of the atherosclerotic lesions from the human aorta showed that immunoreactive materials with mAb 2A81 were indeed present in the lesions, in which the intense immunoreactivity was mainly located in the macrophage-derived foam cells and the thickening neointima of the arterial walls. The results of this study suggest that the binding of cholesteryl ester core aldehydes to LDL might represent the process common to the oxidative modification of lipoproteins.     

Monoclonal antibodies distinguish synthetic peptides that differ in one chemical group

By using human calcitonin (hCT), human calcitonin-gene-related peptide (hCGRP), and a synthetic peptide with a sequence analogous to the 34 C-terminal amino acids of human preprocalcitonin (designated as PQN-34) as haptens in the generation of monoclonal antibodies, we assessed the role of amido and amino groups in paratope-epitope binding. By using peptide inhibition experiments and solid-phase immunoassays, monoclonal anti-hCT antibody CT07 and monoclonal anti-hCGRP antibody CGR01 were found to bind to an antigenic determinant located in the C-terminal segment of the hormones. These epitopes comprise the seven C-terminal amino acids of the hormones, and the presence of the hormone-ending carboxamide group was found to be essential for antibody binding. The corresponding heptapeptides, either bearing a carboxyl group or else linked to a glycine residue at their C-terminal part, failed to react with the antibodies. Moreover, these monoclonal antibodies did not bind to synthetic peptides analogous to the C-terminal region of the hormone precursor molecules that comprised the epitope site flanked by a peptide sequence. In an attempt to assess whether amido groups when present on the side-chain of amino acids may also modulate antibody binding, a monoclonal antibody referred to as QPO1 was produced and was found to recognize an antigenic determinant localized in the N-terminal region of the PQN-34 peptide bearing a glutamine residue as the N-terminal amino acid. The epitope was found to correspond to a topographic assembled site, and binding of QPO1 was found to be substantially dependent on the presence of the free amino and the side-chain amido groups borne by the N-terminal glutamine residue of this peptide PQN-34. In contrast to these findings, an antigenic determinant located in the internal sequence of calcitonin and recognized by monoclonal anti-hCT antibody CT08 was found to be expressed on the mature form of the hormone, as well as on synthetic peptides with sequence mimicking that of preprocalcitonin. These data should guide the choice of synthetic peptide haptens for the production of anti-protein antibodies.     

Human eosinophils express CR1 and CR3 complement receptors for cleavage fragments of C3

The functional and antigenic characteristics of C3 receptors expressed on human eosinophils were investigated using rosette assays with sheep erythrocytes coated with C3 fragments and flow cytometric analysis of cells stained with anti-receptor antibodies. Purified peripheral blood eosinophils from 13 patients with hypereosinophilia expressed CR1 antigens. In 8 patients, a mean of 14 + 9.5% eosinophils formed C3b-dependent rosettes that were inhibited by F(ab')2 anti-CR1 antibodies. This number increased to 33% following stimulation with leukotriene B4 (LTB4) (10(-7) M). Similar numbers of C3b rosettes were formed by hypodense and normodense eosinophils. Eosinophils from 2 patients from this group expressed 20,000 125I-labeled monoclonal anti-CR1 antibody binding sites/cell. In another group of patients, 55 +/- 9% eosinophils spontaneously formed C3b-dependent rosettes that could not be enhanced by LTB4. In all patients, a mean of 16 +/- 9% eosinophils formed cation-dependent rosettes with C3bi-bearing intermediates that were inhibited by anti-CR3 antibody OKM1. All eosinophils stained with monoclonal antibodies against the alpha chain of CR3. There was no C3d-dependent rosette formation with eosinophils and no eosinophils stained with monoclonal anti-CR2 antibody. Thus, human eosinophils express CR1 and CR3. Since CR3 is required for the adhesion of granulocytes to surfaces and antibody-dependent cellular cytotoxicity of neutrophils, the interaction of C3 fragments with CR3 and CR1 on eosinophils may be of importance in eosinophil-mediated damage of opsonized targets.