Detection of low affinity interactions between peptides and heat shock proteins by chemiluminescence of enhanced avidity reactions (CLEAR)

Protein-protein and protein-peptide interactions that are low affinity in nature preclude the straightforward measurement of binding. To overcome this limitation, a novel method has been devised for stabilizing these weak interactions by increasing the binding avidity. These studies have focused on the binding of peptides to heat shock proteins (with a typical KD of approximately 25 to 50 microM). Multivalent ligands have been created by coupling peptides plus biotin to a neutral carrier molecule, dextran. These peptide-dextran conjugates allow for more avid binding to proteins that have been immobilized on a membrane surface. Detection of signals via enhanced chemiluminescence further increases the sensitivity of the method that has been termed Chemiluminescence of Enhanced Avidity Reactions (CLEAR). The assay is simple, reliable and consistently detects specific binding between heat shock proteins and peptide ligands. CLEAR should be generally applicable to other ligand receptor pairs where the detection of binding is limited by the low affinity of the interaction.     

American Heart Association Report on the Public Access Defibrillation Conference, December 8-10, 1994. American Heart Association Taskforce on Automatic External Defibrillation

Experimental conditions (pH 6.5, 24 h reaction, peptide:biotin ratio 1:5) were defined for preferential incorporation of the biotin molecule in the N-terminal alpha-amino group of peptides. This strategy could be helpful in numerous applications when an entire peptide chain must remain accessible for antibody or receptor binding. We illustrate this advantage in a solid-phase enzyme immunoassay designed to detect antibodies specific for bovine beta-lactoglobulin present in rabbit or human sera. This test involves synthetic peptides biotinylated in different positions and immobilized on a solid phase. The use of biotin/streptavidin interactions permitted more efficient detection of specific anti-peptide antibodies than solid phases prepared using conventional passive-adsorption techniques. The highest levels of antibody binding were measured when biotinylation occurred at the N-terminal extremity of immobilized peptides.     

Safety of revaccination with pneumococcal polysaccharide vaccine

Macromolecular conjugates of Gd3+-diethylenetriaminepentaacetic acid with dextran were synthesized from dextran 40 (about 40 kg/mol). Diethylenetriaminepentaacetic acid (DTPA) was coupled to aminated dextran by means of a watersoluble carbodiimide and macromolecular conjugates containing DTPA ratios as high as 1.25 mmol/g of polymer were obtained. First, it was found that the polymer had a favourable influence on relaxivity, as at 20 MHz, the r1 longitudinal relaxivity of the Gd3+-complexed macromolecular conjugates was 2 to 4 times as great as that of free GdDTPA2-, depending on the DTPA content. Second, r1 greatly increased with the increase in the conjugate DTPA content, from 7.4 to 15.9 mM-1s-1 for an increase in the DTPA content from 0.36 to 0.96 mmol/g. Further increase in the ligand content had no more effect on relaxivity.     

Dependence of the murine antibody response to an anti-CDR2 VH peptide on immunogen formulation

A peptide corresponding to the second complementarity determining region of the heavy chain (CDR2 VH) from a murine anti-CD4 monoclonal antibody, designated L202, was synthesized by solid phase methodology in a number of different antigenic forms, for the purpose of comparing the effectiveness of different adjuvant-carrier systems in the induction of a murine antibody response against the immunizing peptide and parent antibody molecule. Two of the synthetic constructs contained the palmitoyl and N-palmitoyl-cysteinyl-S-(2,3-palmitoyloxy)-propanediol (PAM3Cys) moieties, respectively, attached to the peptide amino terminus with the immunogen comprising liposomal formulations of each. A third immunogen consisted of the CDR2 VH peptide admixed with the PAM3Cys non-covalently and incorporated into liposomes (PAM3Cys + CDR2 VH). A fourth composition comprised the CDR2 VH peptide conjugated to KLH via the sulfhydryl of an added N terminal cysteine (KLH-CDR2 VH) and injected with Complete Freund's adjuvant (CFA). A fifth immunogen consisted of the CDR2 VH peptide synthesized on an octameric, branched polylysine core as a multiple antigenic peptide (MAP-CDR2 VH) injected in the presence of Freund's adjuvant. Groups of five mice were injected intramuscularly with each of these immunogens and bled at two week intervals. The highest anti-peptide gamma-immunoglobulin (IgG) responses (against uncoupled peptide by ELISA) after 56 days were obtained with mice receiving the PAM3Cys-CDR2 VH peptide. However, when screened against the CDR2 V(H) peptide present as the MAP derivative by ELISA, IgG raised against the cognate MAP-CDR2 peptide was much more reactive than IgG raised against the liposomal PAM3Cys-CDR2 VH immunogen. In either case, IgG raised against the KLH-CDR2VH conjugate was poorly reactive. These differences in reactivity to the two forms of the CDR2 VH peptide by ELISA did not correspond to major differences in reactivities to the intact L202 Ab by ELISA. Although the IgG against the MAP immunogen was slightly more reactive than the other antisera against the l202 Ab, all titers were less than 1:100. These data illustrate some limitations of using anti-peptide responses as indicators of potential reactivity against the native protein, but suggest that alternate formulations including lipoidal peptides are more effective than corresponding KLH-peptide conjugates in eliciting Ab responses against poorly immunogenic epitopes.     

In vitro cytotoxic effect of difluoromethylomithine increased nonspecifically by peptide coupling

Difluoromethylomithine (DFMO)-peptide conjugates were synthesized as prodrugs to improve the cytotoxic efficacy of DFMO. All conjugates inhibited cell growth in different cell lines more effectively than DFMO itself. The best cytotoxic effect was achieved in all cell lines by DFMO-Glu-His-Phe-Arg-Trp-Gly-OMe, where the carrier peptide is a melanotropin hormone fragment. Although this conjugate is capable of displacing labeled melanotropin from its receptor, its cytotoxic effect on the receptor-positive human melanoma cell line has not been proven to be receptor-mediated. The differences in the cytotoxicities of the congeners seem to be influenced, at least in part, by the nature of the carrier molecule.     

Accelerated chemical synthesis of peptides and small proteins

The chemical synthesis of peptides and small proteins is a powerful complementary strategy to recombinant protein overexpression and is widely used in structural biology, immunology, protein engineering, and biomedical research. Despite considerable improvements in the fidelity of peptide chain assembly, side-chain protection, and postsynthesis analysis, a limiting factor in accessing polypeptides containing greater than 50 residues remains the time taken for chain assembly. The ultimate goal of this work is to establish highly efficient chemical procedures that achieve chain-assembly rates of approximately 10-15 residues per hour, thus underpinning the rapid chemical synthesis of long polypeptides and proteins, including cytokines, growth factors, protein domains, and small enzymes. Here we report Boc chemistry that employs O-(7-azabenzotriazol-1-yl)-N,N, N',N'-tetramethyluronium hexafluorophosphate (HATU)/dimethyl sulfoxide in situ neutralization as the coupling agent and incorporates a protected amino acid residue every 5 min to produce peptides of good quality. This rapid coupling chemistry was successfully demonstrated by synthesizing several small to medium peptides, including the "difficult" C-terminal sequence of HIV-1 proteinase (residues 81-99); fragment 65-74 of the acyl carrier protein; conotoxin PnIA(A10L), a potent neuronal nicotinic receptor antagonist; and the pro-inflammatory chemotactic protein CP10, an 88-residue protein, by means of native chemical ligation. The benefits of this approach include enhanced ability to identify and characterize "difficult couplings," rapid access to peptides for biological and structure-activity studies, and accelerated synthesis of tailored large peptide segments (<50 residues) for use in chemoselective ligation methods.     

Synthetic integrin-binding peptides promote adhesion and proliferation of human periodontal ligament cells in vitro

Periodontal ligament (PDL) cells have been shown to express several integrins (alphav, alpha5, beta1, beta3) that use RGD (arginine-glycine-aspartic Acid)-dependent mechanisms for the recognition and binding of their ligands. The objective of this study was to evaluate the effects of certain integrin-binding cyclic and linear synthetic RGD-containing peptides on PDL cells' adhesion, proliferation, and de novo protein synthesis in vitro. Fifth passages of normal human PDL cells established from teeth extracted from patients (ages 12 to 14) for orthodontic reasons were used for all experiments. Synthetic peptides containing the EPRGDNYR sequence in two different spatial conformations (linear and cyclic) were covalently attached to bovine serum albumin (BSA). Type I collagen, EPRGDNYR-BSA conjugates, 1:1 mixtures of type I collagen and conjugates, as well as BSA (a negative control) were coated on bacteriological plastic and evaluated for their attachment-promoting activities. In addition, the effects of these substrates on cell proliferation were evaluated by [3H]thymidine incorporation by the PDL cells. For attachment and spreading, the cyclic forms of EPRGDNYR-BSA conjugate and type I collagen were most potent, followed by linear EPRGDNYR-BSA conjugate. The effects of all collagen/conjugate mixtures were equivalent to that of type I collagen except for the collagen/linear EPRGDNYR-BSA mixture, which was less potent. The cyclic EPRGDNYR-BSA conjugate was the most effective substrate to stimulate cell proliferation, and it was followed in potency by the linear peptide-BSA conjugate. Collagen alone did not stimulate [3H]thymidine incorporation above the control level. Mixtures of collagen with all of the conjugates showed stimulatory effects similar to that of the cyclic peptide-BSA conjugate. No significant differences in de novo protein synthesis were detected. These results suggest that the synthetic RGD-containing peptides attached to a carrier are potent ligands for the human PDL cells, and that they could provide a basis for the development of new strategies aimed at the regeneration of the periodontium.     

Nosocomial pneumonia

The phosphoromonothioate oligonucleotide HPV (human papilloma virus) sequence (monothioate HPV) 5'-TTG,CTT,CCA,TCT,TCC,TCG,TC-3' was photocoupled via three different sites (the 5'-end, the 3'-end and the midpoint) to PPD (purified protein derivative) and OA (ovalbumin), and the three types of conjugates (5'-HPV/carrier, 3'-HPV/carrier and midpoint-HPV/carrier) were used for the immunization of mice. Furthermore, a group of mice were immunized with the HPV sequence alone. No detectable antibody response against the monothioate HPV oligonucleotide was seen in mice receiving only the unconjugated monothioate HPV sequence. The OA-coupled monothioate HPV sequence also failed to elicit a detectable antibody response against the monothioate HPV oligonucleotide. However the PPD-conjugated monothioate HPV sequences induced a significant anti-monothioate HPV antibody response in BCG (bacille Calmette Guérin)-primed mice, a result that must be ascribed to the effect of using PPD as a carrier in BCG-primed mice. The antisera from all groups were tested on plates coated with the corresponding OA conjugates. By far the strongest response was obtained in mice receiving the HPV sequence coupled at the midpoint position. Further, all three groups of antisera obtained by immunizing with the different PPD conjugates were tested on microtiter plates coated with one of the three different OA conjugates. The antisera differed in their response depending on which OA conjugate was used for coating of the plate. Again, the midpoint-HPV/PPD antiserum showed the highest response, and this conjugate apparently represents the most efficient immunogen. Results from inhibition experiments with various relevant analogs of the monothiate HPV sequence showed that the three antiserum pools contained antibodies predominantly directed against the conformation of the monothioate backbone structure, but that at least a subpopulation of the antibodies recognized structures, which depended on the specific HPV base sequence.     

Cross-reactive and group-specific immune responses to a neutralizing epitope of the human respiratory syncytial virus fusion protein

Immune responses to a synthetic peptide corresponding to amino-acids 205-225 of the fusion protein from group B respiratory syncytial (RS) virus, were studied in mice and rabbits, and compared to a similar peptide from group A RS virus. Peptide 205-225 (B) was recognized by monoclonal antibody RS-348, and was immunogenic in both mice and rabbits, as was peptide 205-225 from the fusion protein of a group A strain. Peptide 205-225 (B) induced a proliferative T-cell response, demonstrating the existence of a T-cell epitope in this region of the fusion protein of group B viruses. Both peptides were able to induce a T-cell cross-reactive proliferation when mice were primed with either the homologous or the heterologous peptide. ELISA were performed using synthetic peptides or whole virus (from group A and B) as antigens. Mice anti-peptide sera recognized both homologous and heterologous peptides. A similar pattern was observed with RS virus strains. In indirect immunofluorescence assays, both anti-peptide rabbit sera recognized human nasal epithelial cells infected with A or B strains of RS virus. In contrast, while anti-peptide 205-225 rabbit serum from group A neutralized group A and B strains of RS virus, anti-peptide 205-225 rabbit serum from group B was unable to neutralize a group A virus, although it neutralized a group B strain. These results are similar to the immune response observed in children following primary RS virus infection.     

Identification of functional domains in murine granulocyte-macrophage colony-stimulating factor using monoclonal antibodies to synthetic peptides

Granulocyte-macrophage (GM)-CSF is an important hematopoietic cytokine that regulates proliferation and differentiation of macrophages, neutrophils, and eosinophils. In this study, we generated mAb to five synthetic peptides that correspond to regions along the murine GM-CSF molecule. The ability of anti-peptide mAb to bind to and inhibit biologic activity of murine (m) GM-CSF was determined. mAb with the highest neutralization titers were derived from mice immunized with peptide II, which correspond to amino acids 27 to 38 of mGM-CSF. Immunochemical studies showed that peptide II specifically blocked binding of anti-peptide II mAb to GM-CSF. mAb to two other peptides in the N-terminal half corresponding to residues 7 to 17 and 47 to 58, respectively, of mGM-CSF also inhibited GM-CSF-dependent proliferation and differentiation of murine bone marrow precursors for macrophages and granulocytes. Anti-peptide mAb also inhibited growth of a murine hematopoietic cell line FDCP1 and a murine T cell line HT-2, which was shown to be dependent on GM-CSF for growth in vitro. Biologic activity of both natural and recombinant mGM-CSF was neutralized by anti-peptide mAb. These findings indicate that epitopes in the N-terminal region of mGM-CSF are important for biologic activity, and the epitope defined by peptide II (residues 27 to 38) lies within a particularly important functional domain of the mGM-CSF molecule.     

Photoaffinity labeling of the head-activator receptor from hydra

A photoaffinity ligand for the head-activator (HA) receptor from hydra was synthesized using solid-phase peptide synthesis and coupling of two HA peptides over their epsilon-amino groups of Lys7 with succinimidyl esters. The new ligand, Bpa-HA-HA bipeptide, contains one normal HA peptide and another where p-benzoylphenylalanine (Bpa) was added at the amino terminus to allow ultraviolet activation and Tyr11 instead of Phe11 for radioiodination. The 125I-Bpa-HA-HA bipeptide bound with nanomolar affinity to the HA receptor from the multiheaded mutant of Chlorohydra viridissima as measured in a filter assay. After photoaffinity labeling of the hydra membrane fraction, a 200-kDa band was detected using reducing or non-reducing SDS/PAGE and autoradiography. Unlabeled HA derivatives, but no other neuropeptides, inhibited the labeling. Competition experiments with HA-HA homobipeptide in the nanomolar range indicate that predominantly the low-affinity and not the high-affinity HA receptor was photolabeled. Further evidence that the labeled molecule is the HA receptor comes from specific photoaffinity labeling with a second ultraviolet-activatable ligand containing p-nitrophenylalanine. The HA receptor could be functionally solubilized with Triton X-100 or Chaps. In the solubilizate the 200-kDa HA receptor was photolabeled specifically by both ligands. Liquid-phase isoelectric focussing of the solubilizate indicated a pI of about 5.4 of the photolabeled molecule. After chemical deglycosylation with trifluoromethanesulfonic acid, the apparent molecular mass of the labeled molecule was decreased to 180 kDa, indicating that the receptor is glycosylated.     

Proteolytic excision and in situ cyclization of a bioactive loop from an REI-VL presentation scaffold

Covalent cyclization of peptides is an important tool in structure-function analysis of bioactive peptides, because it constrains the molecule to enrich or exclude the receptor-bound conformation. Previously we described a 2-step procedure for cyclizing purified, native peptides in aqueous solution by reacting a Met or Lys side chain with an iodoacetylated N-terminus (Wood SJ, Wetzel R, 1992a, Int J Pept Protein Res 39:533-539). We show here that the cyclization reaction scheme can be extended to peptides excised from proteins by endo-LysC proteolysis, which generates fragments terminating with Lys. To illustrate the method, we used an immunoglobulin VL domain (REI-VL) with an RGD-containing sequence engineered into its CDR3 and flanked by Lys residues. This REI-VL/RGD hybrid displayed an IC50 of 24 nM for ligand competition at the platelet fibrinogen receptor alpha IIb beta 3. The RGD-containing peptide excised by endo-LysC from the REI-VL presentation scaffold exhibited an IC50 of about 50 nM, and the corresponding cyclized peptide, and IC50 of about 10 nM. Significantly, both the N alpha-acylation and the cyclization reactions occur efficiently even in the context of the other endo-LysC fragments of REI-VL, which suggests that the reaction may prove useful in converting mixtures of endo-LysC products of many proteins into the corresponding cyclic peptides in situ.     

All four homochiral enantiomers of a nuclear localization sequence derived from c-Myc serve as functional import signals

The information that targets a protein to the nucleus often consists of a short cluster of basic amino acids called a nuclear localization sequence (NLS). Since a wide range of sequences rich in basic amino acid residues function as NLSs, we postulated that an NLS-like sequence composed exclusively of D-amino acids might have biological activity. We synthesized peptides corresponding to the c-Myc NLS composed of either all L or D-amino acids, both in the forward and reverse order. We tested these peptides for nuclear import activity in a digitonin-permeabilized cell assay. All four peptide-bovine serum albumin conjugates localized to the nucleus with similar efficiency, and each conjugate competed for import with an SV40 large T antigen-derived NLS conjugate. Cross-linking experiments with free NLS peptides in HeLa cytosol indicated that each peptide bound to a protein that migrated at the molecular weight of importin alpha. Recombinant importin alpha, importin beta, Ran, and NTF2 alone were sufficient to support the import of both L-form and D-form conjugates in permeabilized cells. This indicates that both D- and L-form NLS peptides use the same import machinery. Although the free D-forms of the NLS were proteolytically resistant in cytosol, the L-forms were rapidly degraded. To our knowledge, this is the first example of an intracellular pathway in which the receptor is insensitive to the chirality of the ligand.     

Antibody responses in serum and lung to intranasal immunization with Haemophilus influenzae type b polysaccharide conjugated to cholera toxin B subunit and tetanus toxoid

AIM: Cholera toxin B subunit (CTB) has previously been used as a mucosal carrier for various vaccine candidate antigens. The objective of this study was to see if coupling a bacterial polysaccharide, Haemophilus influenzae type b capsular polysaccharide (HibCPS), to CTB, either directly or through prior coupling to tetanus toxoid (TT), would improve the immunogenicity of HibCPS after nasal immunization. METHODS: HibCPS was conjugated to CTB, TT or via TT to CTB, using glutaraldehyde or 1-ethyl-3(3-dimethylaminopropyl)-carbodiimide (EDAC) and N-succinimidyl 3-(2-pyridyldithio) propionate (SPDP). The conjugates were characterized and used for intranasal (IN) and subcutaneous (SC) immunizations of mice. The anti-Hib, -TT and -CTB antibody titers in serum and lungs after the immunizations were measured with ELISA. RESULTS: The HibCTB was poorly immunogenic both given IN and SC compared with HibTT and HibTTCTB, probably because of inefficient coupling. In contrast, the conjugation of CTB to the HibTT conjugate resulted in a preparation which was superior both to the HibTT and the HibCTB conjugates in inducing local IgA and IgG anti-HibCPS antibodies in the lungs. The anti-HibCPS serum IgG titers after IN immunization with the HibTTCTB conjugate were similar to the titers after IN immunization with HibTT, or SC immunization with a commercial HibCRM conjugate vaccine. In contrast to the other conjugates, the HibTTCTB conjugate also gave rise to anti-Hib serum IgA titers. CONCLUSION: We conclude that appropriate conjugation to CTB increases the mucosal immunogenicity of HibCPS, and that intranasal immunization with such a conjugate can give rise to both local and systemic anti-HibCPS antibody responses.     

Photocytotoxic action of EGF-PVA-Sn(IV)chlorin e6 and EGF-dextran-Sn(IV)chlorin e6 internalizable conjugates on A431 cells

Certain tumour cells, such as squamous carcinoma cells, express an increased number of epidermal growth factor (EGF) receptors. The goal of this study was the targeted delivery of Sn(IV)chlorin e6 (SnCe6) to tumours that overexpress the EGF receptor. Therefore EGF was conjugated to the photosensitizer through a carrier, such as dextran (Dex) and polyvinylalcohol (PVA). These conjugates were then compared to a conjugate of the photosensitizer to dextran or PVA alone. The EGF-Dex-SnCe6 conjugates bound specifically to the EGF receptors of the human squamous carcinoma cell line A431 in contrast to EGF-PVA-SnCe6. However, EGF-PVA-SnCe6 exhibited a higher photocytotoxicity (CC50, 2.8 microM) than EGF-Dex-SnCe6 (CC50, >10 microM) and SnCe6 (CC50, >10 microM). PVA-SnCe6 had a similar photocytotoxicity (CC50, 3.5 microM) to EGF-PVA-SnCe6, indicating that PVA, more than EGF, plays a determinant role in the uptake of the conjugates by A431 cells. Together with the improved affinity of EGF-Dex-SnCe6 over EGF-PVA-SnCe6 for the EGF receptor, the former displayed a small increased photocytotoxicity over Dex-SnCe6, reflecting a limited EGF receptor mediated uptake effect. It was concluded that the photodynamic activity of the EGF-conjugate turns out to be strongly dependent on the carrier used.     

Small peptides as potent mimetics of the protein hormone erythropoietin

Random phage display peptide libraries and affinity selective methods were used to isolate small peptides that bind to and activate the receptor for the cytokine erythropoietin (EPO). In a panel of in vitro biological assays, the peptides act as full agonists and they can also stimulate erythropoiesis in mice. These agonists are represented by a 14- amino acid disulfide-bonded, cyclic peptide with the minimum consensus sequence YXCXXGPXTWXCXP, where X represents positions allowing occupation by several amino acids. The amino acid sequences of these peptides are not found in the primary sequence of EPO. The signaling pathways activated by these peptides appear to be identical to those induced by the natural ligand. This discovery may form the basis for the design of small molecule mimetics of EPO.     

Localization of the binding site for transforming growth factor-beta in human alpha2-macroglobulin to a 20-kDa peptide that also contains the bait region

alpha2-Macroglobulin (alpha2M) functions as a major carrier of transforming growth factor-beta (TGF-beta) in vivo. The goal of this investigation was to characterize the TGF-beta-binding site in alpha2M. Human alpha2M, which was reduced and denatured to generate 180-kDa subunits, bound TGF-beta1, TGF-beta2, and NGF-beta in ligand blotting experiments. Cytokine binding was not detected with bovine serum albumin that had been reduced and alkylated, and only minimal binding was detected with purified murinoglobulin. To localize the TGF-beta-binding site in alpha2M, five cDNA fragments, collectively encoding amino acids 122-1302, were expressed as glutathione S-transferase (GST) fusion proteins. In ligand blotting experiments, TGF-beta2 bound only to the fusion protein (FP3) that includes amino acids 614-797. FP3 bound 125I-TGF-beta1 and 125I-TGF-beta2 in solution, preventing the binding of these growth factors to immobilized alpha2M-methylamine (alpha2M-MA). The IC50 values were 33 +/- 5 and 26 +/- 6 nM for TGF-beta1 and TGF-beta2, respectively; these values were comparable with or lower than those determined with native alpha2M or alpha2M-MA. A GST fusion protein that includes amino acids 798-1082 of alpha2M (FP4) and purified GST did not inhibit the binding of TGF-beta to immobilized alpha2M-MA. FP3 (0.2 microM) neutralized the activity of TGF-beta1 and TGF-beta2 in fetal bovine heart endothelial (FBHE) cell proliferation assays; FP4 was inactive in this assay. FP3 also increased NO synthesis by RAW 264.7 cells, mimicking an alpha2M activity that has been attributed to the neutralization of endogenously synthesized TGF-beta. Thus, we have isolated a peptide corresponding to 13% of the alpha2M sequence that binds TGF-beta and neutralizes the activity of TGF-beta in two separate biological assays.     

Induction of an epitope-specific humoral immune response by lipopeptide-hapten conjugates: enhancement of the anti-melittin response by a synthetic T helper (Th)-cell epitope

Lipopeptides of bacterial origin constitute potent immunoadjuvants when combined with antigens. After the immunization with lipopeptides covalently coupled to non-immunogenic low-molecular-mass antigens or haptens, a hapten-specific humoral immune response can often be obtained. The response against synthetically prepared melittin fragments was further enhanced by the additional introduction of a T helper (Th)-cell epitope into the lipopeptide-hapten conjugate. The Th-cell epitope applied, which is presented by the MHC class II molecule of the BALB/c (H-2d) haplotype, consisted of a synthetic 16-amino-acid oligopeptide derived from sperm whale myoglobin. The immune-enhancing effect was most pronounced for the melittin-derived peptide fragments [Mel(1-16)] and [Mel(17-26)-CONH2]. Antibodies obtained after 3 immunizations with the conjugates recognized the synthetic as well as the native melittin molecule. Our results show that it is possible to markedly enhance a weak hapten-specific immune response by coupling the haptens to a lipopeptide conjugated to a haplotype-specific T helper-cell epitope. The novel conjugates are well suited for the optimization of immunization procedures, and for the development of novel synthetic vaccines.     

Modern restorative management of advanced tooth-surface loss

A new method has been developed to raise antibodies against synthetic peptides. A multiple antigenic peptide system (MAP) containing a branched oligolysine was synthesized on a beaded polystyrene polyoxyethylene graft copolymer resin, which acts as a synthetic hapten carrier for use in immunization. The peptides, already attached to the carrier, can be used directly after final deprotection without any further purification steps. The utility of this peptide-carrier conjugate is highlighted by its additional application for affinity purification of antibodies generated.     

Intestinal absorption of peptides by coupling to bile acids

Poor intestinal absorption of peptides greatly limits their use as drugs for the treatment of chronic diseases. Since bile acids are efficiently absorbed by an active, Na(+)-dependent transport system in the ileum of mammals, model peptides of different chain length were attached to the 3-position of modified 3 beta-(omega-amino-alkoxy)-7 alpha, 12 alpha-dihydroxy-5 beta-cholan-24-oic acid. These peptide-bile acid conjugates inhibited Na(+)-dependent [3H]taurocholate uptake into brush-border membrane vesicles isolated from rabbit ileum in a concentration-dependent manner. Furthermore, photoaffinity labeling of the bile acid-binding proteins of M(r) 93,000 and 14,000, identified as the protein components of the ileal Na(+)-dependent bile acid transport system in rabbit ileum (Kramer, W., Girbig, F., Gutjahr, U., Kowalewski, S., Jouvenal, K., Müller, G., Tripier, D., and Wess, G. (1993) J. Biol. Chem. 268, 18035-18046) by the photoreactive taurocholate analogue, (3,3-azo-7 alpha, 12 alpha-dihydroxy-5 beta [7 beta, -12 beta-3H]cholan-24-oyl)-2-aminoethanesulfonic acid, was inhibited by the peptide-bile acid conjugates. In contrast, the parent peptides and amino acids neither had a significant effect on [3H]taurocholate uptake by ileal brush-border membrane vesicles nor on photoaffinity labeling of the ileal bile acid-binding membrane proteins. The inhibitory effect of peptide-bile acid conjugates on [3H]taurocholate transport and photoaffinity labeling of the bile acid-binding proteins in rabbit ileal vesicles decreased with increasing chain length of the attached peptide radical. By in vivo ileum perfusion in anesthetized rats an intestinal absorption of the bile acid conjugate S3744 of the fluorescent oxaprolylpeptide 4-nitrobenzo-2-oxa-1,3-diazol-beta-Ala-Phe-5-Opr-Gly (S1037) and secretion of the intact compound into bile could be demonstrated, whereas the parent peptide S1037 or its t-butylester S4404 were not absorbed. The intestinal absorption of S3744 showed a similar temperature dependence as [3H]taurocholate absorption and was inhibited by the presence of taurocholate indicating a carrier-mediated uptake of S3744 via the ileal bile acid transporter. In conclusion, these results indicate that oligopeptides can be made enterally absorable by coupling to modified bile acid molecules making use of the specific intestinal absorption pathway for bile acids. This finding may be of great importance for the design and development of orally active peptide drugs.