Synthesis and comparison of antibody recognition of conjugates containing herpes simplex virus type 1 glycoprotein D epitope VII

Synthetic oligopeptides comprising linear or continuous topographic B-cell epitope sequences of proteins might be considered as specific and small size antigens. It has been demonstrated that the strength and specificity of antibody binding could be altered by conjugation to macromolecules or by modification in the flanking regions. However, no systematic studies have been reported to describe the effect of different carrier macromolecules in epitope conjugates. To this end, the influence of carrier structure and topology on antibody recognition of attached epitope has been studied by comparing the antibody binding properties of a new set of conjugates with tetratuftsin analogue (H-[Thr-Lys-Pro-Lys-Gly](4)-NH(2), T20) sequential oligopeptide carrier (SOC(n)), branched chain polypeptide, poly[Lys(Ser(i)-DL-Ala(m))] (SAK), multiple antigenic peptide (MAP), and keyhole limpet hemocyanine (KLH). In these novel constructs, peptide (9)LKNleADPNRFRGKDL(22) ([Nle(11)]-9-22) representing an immunodominant B cell epitope of herpes simplex virus type 1 glycoprotein D (HSV-1 gD) was conjugated to polypeptides through a thioether or amide bond. Here we report on the preparation of sequential and polymeric polypeptides possessing chloroacetyl groups in multiple copies at the alpha- and/or epsilon-amino group of the polypeptides and its use for the conjugation of epitope peptides possessing Cys at C-terminal position. We have performed binding studies (direct and competitive ELISA) with monoclonal antibody (Mab) A16, recognizing the HSV gD-related epitope, [Nle(11)]-9-22, and conjugates containing identical and uniformly oriented epitope peptide in multiple copies attached to five different macromolecules as carrier. Data suggest that the chemical nature of the carrier and the degree of substitution have marked influence on the strength of antibody binding.     

The effect of cyclization on the enzymatic degradation of herpes simplex virus glycoprotein D derived epitope peptide.

One linear and three cyclic peptides corresponding to the 278-287 ((278)LLEDPVGTVA(287)) sequence of glycoprotein D (gD-1) of herpes simplex virus were synthesized for the analysis of the effect of cyclization on protection against enzymatic degradation. In this design, the turn-forming motif ((281)DPVG(284)) was positioned in the central part of the peptide and elongated by three amino acids at both termini. Cyclopeptide formation was achieved by the introduction of a peptide bond, a disulfide bridge or a thioether link. The stability of these peptides was compared in human serum and also in rat lysosomal preparations. The data obtained in 10% and 50% human serum show that all three types of cyclization enhanced the stability, but at different levels. Complete stability was only achieved by the introduction of a thioether link, while the presence of a disulfide or peptide bond resulted in improved, but partial resistance against hydrolytic decomposition. In lysosomal preparations the presence of cyclic primary structure provided full protection against enzymatic hydrolysis. Taken together, these findings indicate that by appropriate structural modification it is feasible to construct a synthetic antigen with high stability against enzymatic degradation in complex biological fluids. Further studies are in progress to identify enzymes responsible for degradation in diluted human sera as well as in the lysosomal preparations and to gain more detailed information on the mechanism of action.     

Synthesis, solution conformation, and antibody recognition of oligotuftsin-based conjugates containing a beta-amyloid(4-10) plaque-specific epitope

One possible therapeutic approach to treat or prevent Alzheimer's disease (AD) is immunotherapy. On the basis of the identification of Abeta(4-10) (FRHDSGY) as the predominant B-cell epitope recognized by therapeutically active antisera from transgenic AD mice, conjugates with defined structures containing the epitope peptide attached to a tetratuftsin derivative as an oligopeptide carrier were synthesized and their structure characterized. To produce immunogenic constructs, the Abeta(4-10) epitope alone or flanked by alpha- or beta-alanine residues was attached through an amide bond to the tetratuftsin derivative (Ac-[TKPKG]4-NH2) or to a carrier peptide elongated by a promiscuous T-helper cell epitope (Ac-FFLLTRILTIPQSLD-[TKPKG]4-NH2). The conformational preferences of the carrier and conjugates were examined by CD spectroscopy in water and in 1:1 and 9:1 TFE:water mixtures (v/v). We found that the presence of flanking dimers in the conjugates had no effects on the generally unordered solution conformation of the conjugates. However, conjugates with an elongated peptide backbone exhibited CD spectra indicative for a partially ordered secondary structure in the presence of TFE. Comparative ELISA binding studies, using monoclonal antibody raised against the beta-amyloid (1-17) peptide, showed that conjugates with T-helper cell epitope in the carrier backbone exhibited decreased monoclonal antibody recognition. However, we found that this effect was compensated in conjugates comprising the Abeta(4-10) B-cell epitope with the beta-alanine dimer flanking regions at both N- and C-termini. Results suggest that modification of the B-cell epitope peptide from Abeta with rational combination of structural elements (e.g. conjugation to carrier, introduction of flanking dimers) can result in synthetic antigen with preserved antibody recognition.     

Synthesis and structural characterization of bioactive peptide conjugates using thioether linkage approaches.

Applications of cysteine-insertion and thioether linkage approaches to the preparation of a number of bioactive peptide conjugates are reported. Peptides containing epitopes from (i) herpes simplex virus type 1 glycoprotein D, (ii) a specific N-terminal beta-amyloid epitope recognized by therapeutically active antibodies, and (iii) a GnRH-III peptide from sea lamprey with antitumour activity, were elongated with Cys residues and attached to a chloroacetylated tetratuftsin derivative carrier via a thioether linkage either directly, or by insertion of a spacer. The structures and molecular homogeneity of all the peptide conjugates were ascertained by HPLC, MALDI and electrospray mass spectrometry. The use of a spacer such as an oligoglycine or GFLG-tetrapeptide gave an increased yield in the conjugation reaction and enhanced reaction rates. In the formation of cysteinyl-thioether linkages, it was found that the position of flanking Cys residues markedly influenced the conjugation reaction and the formation of intermolecular epitope disulfide-dimers. C-terminal Cys residues gave thioether conjugates with significantly diminished epitope-dimerization, while Cys at the N-terminal caused rapid disulfide-dimerization, thereby preventing efficient conjugation.     

Conjugation of epitope peptides with SH group to branched chain polymeric polypeptides via Cys(Npys)

Since bioconjugates may play an important role as therapeutics in the future, the development of new and effective conjugation strategies is necessary. For the attachment of peptide-like molecules to carriers, there are two main coupling methods involving amide or disulfide bonds. Conjugation through an amide bond can be achieved in several well-defined ways known from peptide chemistry. However, the formation of disulfide bridges between cysteine-containing peptides and carrier molecules still has some problems. In this paper, we describe a novel approach in which the carrier polypeptide is modified by 3-nitro-2-pyridinesulfenyl (Npys)-protected cysteine and this derivative has been applied for conjugation of Cys-containing epitope peptides with poly(L-lysine)-based branched polypeptides. Considering the stability of Npys group in the presence of pentafluorophenol, Boc-Cys(Npys)-OPfp dervivative was selected for introduction to the N-terminal of branches of polypeptides backbone. The branches of the polymers were built up from oligo(DL-alanine) (poly[Lys(DL-Ala(m))], AK) and elongated by an optically active amino acid [poly[Lys(X(i)-DL-Ala(m))], XAK]. We found that the nature of X (Glu, Ser, Thr) has great influence on the incorporation of the protected cysteine residue. Herpes simplex virus and adenovirus epitope peptides were conjugated to Boc-Cys(Npys)-modified polypeptides. Results indicate that the incorporation of epitope peptides depends on the number of Npys group on the polymers as well as on the presence/absence of Boc-protecting group on the Cys residue. This new class of Cys(Npys)-derivatized branched polypeptides is stable for a couple of months and suitable for effective preparation of epitope peptide conjugates possessing increased water solubility.     

Bridging Small Molecules to Modified Bacterial Microparticles Using a Disulphide Linkage: MIS416 as a Cargo Delivery System

MIS416 is an intact minimal cell wall skeleton derived from Proprionibacterium acnes that is phagocytosed by antigen presenting cells, including dendritic cells (DCs). This property allows MIS416 to be exploited as a vehicle for the delivery of peptide antigens or other molecules (for example, nucleic acids) to DCs. We previously showed that covalent (non-cleavable) conjugation of OVA, a model antigen derived from ovalbumin, to MIS416 enhanced immune responses in DCs in vivo, compared to unconjugated MIS416 and OVA. Intracellular trafficking promotes the lysosomal degradation of MIS416, leading to the destruction of MIS416 plus the associated cargos conjugated to MIS416. However, lysosomal degradation of cargo may not be desired for some MIS416 conjugates. Here we have investigated whether a cleavable linkage could facilitate release of the cargo in the cytoplasm of DCs to avoid lysosomal degradation. DCs were treated in vitro with disulfide-containing conjugates, and as hypothesised faster release of SIINFEKL peptide in the cytoplasm of DCs was observed with the inclusion of a disulfide bond between MIS416 and cargo. The inclusion of a cleavable disulfide bond in the conjugates did not significantly alter the amount of SIINFEKL antigens presented on MHC I molecules on DCs as compared with conjugates without a disulfide bond. However, the conjugates containing disulfide-linkages performed either slightly better (p<0.05) than, or the same as conjugates without a disulfide bond with respect to in vitro OT-1 T-cell proliferation induced by the presentation of SIINFEKL antigens on DCs, or DC activation studies, respectively. However, disulfide-containing conjugates were less effective than conjugates without a disulfide bond in in vivo cytotoxicity assays. In conclusion, inclusion of a disulfide bond in MIS416-peptide conjugates was associated with efficient release of peptides in the cytoplasm of DCs, an important consideration for MIS416-mediated delivery of degradation-sensitive cargoes. However, treatment of DCs with disulfide-containing conjugates did not significantly alter the presentation of peptide antigens on MHC class I molecules to T-cells, or greatly enhance antigen-associated T-cell proliferation in vitro.     

Synthesis and biological in vitro evaluation of novel PEG-psoralen conjugates

Psoralens are well-known photosensitizers, and 8-methoxypsoralen and 4,5',8-trimethylpsoralen are widely used in photomedicine as "psoralens plus UVA therapy" (PUVA), in photopheresis, and in sterilization of blood preparations. In an attempt to improve the therapeutic efficiency of PUVA therapy and photopheresis, four poly(ethylene glycol) (PEG)-psoralen conjugates were synthesized to promote tumor targeting by the enhanced permeability and retention (EPR) effect. Peptide linkers were used to exploit specific enzymatic cleavage by lysosomal proteases. A new psoralen, 4-hydroxymethyl-4',8-dimethylpsoralen (6), suitable for polymer conjugation was synthesized. The hydroxy group allowed exploring different strategies for PEG conjugation, and linkages with different stability such ester or urethanes were obtained. PEG (5 kDa) was covalently conjugated to the new psoralen derivative using four different linkages, namely, (i) direct ester bond (7), (ii) ester linkage with a peptide spacer (8), (iii) a carbamic linker (9), and (iv) a carbamic linker with a peptide spacer (12). The stability of these new conjugates was assessed at different pHs, in plasma and following incubation with cathepsin B. Conjugates 7 and 8 were rapidly hydrolyzed in plasma, while 9 was stable in buffer and in the presence of cathepsin B. As expected, only the conjugates containing the peptide linker released the drug in presence of cathepsin B. In vitro evaluation of the cytotoxic activity in the presence and absence of light was carried out in two cell lines (MCF-7 and A375 cells). Conjugates 7 and 8 displayed a similar activity to the free drug (probably due to the low stability of the ester linkage). Interestingly, the conjugates containing the carbamate linkage (9 and 12) were completely inactive in the dark (IC50 > 100 microM in both cell lines). However, antiproliferative activity become apparent after UV irradiation. Conjugate 12 appears to be the most promising for future in vivo evaluation, since it was relatively stable in plasma, which should allow tumor targeting and drug release to occur by cathepsin B-mediated hydrolysis.     

Design, structural, and immuno-analytical properties of antigenic bioconjugates comprising a beta-amyloid-plaque specific epitope

Immunotherapeutic approaches are investigated for treatment of neurodegenerative diseases of the Alzheimer's dementia (AD) type. The identification of a beta-amyloid-plaque specific epitope, Abeta(4-10) (4FRHDSGY10), recognized by therapeutically active antibodies from transgenic AD mice could provide the basis for the development of AD vaccines. Here we report on the synthesis, structural and immuno-analytical characterization of bioconjugates comprising the beta-amyloid(4-10) epitope as new vaccine lead structures against Alzheimer's disease. To produce antigenic bioconjugates, potential immunogens, the epitope peptide elongated by a cysteine residue or a cysteinyl-pentaglycine hexapeptide unit either at the N- or C-terminus was attached via a thioether bond to synthetic oligopeptide carriers, such as oligotuftsin derivatives, sequential oligopeptide carrier, or lysine dendrimer. The antigenic properties of these constructs were determined by enzyme-linked immunosorbent assay (ELISA) using an anti-Abeta(1-17) monoclonal antibody. Our results indicate that the major factors which influence the antibody binding of the Abeta(4-10) epitope are (i) the epitope topology and (ii) the presence of a spacer moiety between the carrier and the epitope peptide. Interestingly, the carrier type had no marked effect on the binding of the antibody to the epitope-conjugates. The conformational preferences of the conjugates were examined by circular dichroism spectroscopy in water and in trifluoroethanol. In water, the conjugates adopt random coil conformation independently on their primary structure. However, differences related to the attachment site of the epitope to the carriers were determined in TFE, conjugates in which the epitope was attached to the carrier through the N-terminus exhibiting more ordered secondary structure.     

A sulfanyl-PEG derivative of relaxin-like peptide utilizable for the conjugation with KLH and the antibody production

A small peptide–keyhole limpet hemocyanin (KLH) conjugate is generally used as an antigen for producing specific antibodies. However, preparation of a disulfide-rich heterodimeric peptide–KLH conjugates is difficult. In this study, we developed a novel method for preparation of the conjugate, and applied it to the production of specific antibodies against the relaxin-like gonad-stimulating peptide (RGP) from the starfish. In this method, a sulfanyl group necessary for the conjugation with KLH was site-specifically introduced to the peptide after regioselective disulfide bond formation reactions. Using the conjugate, we could obtain specific antibodies with a high antibody titer. This method might also be useful for the production of antibodies against other heterodimeric peptides with disulfide cross-linkages, such as vertebrate relaxins.     

Oral absorption enhancement of dipeptide L-Glu-L-Trp-OH by lipid and glycosyl conjugation

In recent years, the conjugation of sugar moieties and lipoamino acids has been extensively investigated as a mean to enhance the stability towards enzymatic degradation and the permeability across biological membranes of poorly orally available drugs, including peptides. In this prospect, a library of novel derivatives of the dipeptide L-Glu-L-Trp, a naturally occurring thymic immunomodulator with high hydrophilic character and low membrane permeability, was designed and synthesised by conjugating 2-amino-dodecanoic acid (C(12)) and/or 1-amino-beta-D-glucuronic acid (GlcAN), beta-D-glucuronic acid (GlcA) and N-beta-D-glucopyranosylamine succinamic acid (GlsNS) residues to the Glu-Trp scaffold, using an Fmoc solid-phase peptide synthesis strategy on trichlorotrityl resin. A cellobiose derivative was also prepared in solution. The synthesized peptides showed no sign of toxicity to red blood cells at 200 microM (haemolysis assay) and their resistance against enzymatic hydrolysis, assessed in Caco-2 homogenates, was usually significantly increased, particularly for the C-terminal conjugates. Several derivatives also saw their apparent permeability values greatly enhanced and one of the conjugates tested proved to be able to release the initial dipeptide after penetrating Caco-2 monolayers. An initial in vivo experiment was then carried out in male Wistar rats to examine the effect of conjugation on the absorption rate and bioavailability.     

Artificial peptide and carbohydrate antigens. Immobilization of haptens and adjuvant (MDP) on polyacrylamide

To study the influence of the polyacrylamide carrier on immunogenic properties of the peptide and oligosaccharide haptens, we have prepared artificial antigens by conjugation of a synthetic hexapeptide (homologous to the fragment 95-100 of the murine H-2Db antigen heavy chain) or of an oligosaccharide (antigenic determinant of human blood groops, Lea) with polyacrylamide. In some cases the conjugates containing also a synthetic glycopeptide adjuvant, N-acetylmuramoyl-L-alanyl-D-isoglutamine (MDP), were used. Antisera against haptens were obtained by immunization of BALB/c mice with corresponding conjugates. By the enzyme-linked immunosorbent assay it was shown that these antisera had a high binding titer (up to 10 000) to corresponding hapten, and MDP immobilized on the same carrier as hapten possessed a considerable immunostimulating activity. Thus, usefulness of polyacrylamide for preparation of immunogenic artificial molecules carrying peptide and oligosaccharide haptens was demonstrated.     

Peptide based vaccine design: synthesis and immunological characterization of branched polypeptide conjugates comprising the 276-284 immunodominant epitope of HSV-1 glycoprotein D.

The importance of the length and conjugation site of a protective epitope peptide (276SALLEDPVG284) from glycoprotein D of herpes simplex virus in branched polypeptide conjugates has been investigated. A new set of peptides, with a single attachment site and truncated sequences, was prepared. The immunogenicity of conjugates and the specificity of antibody responses elicited were investigated in BALB/c, C57/B1/6 and CBA mice. It was found that the covalent coupling of the peptide comprising the 276-284 sequence of gD through its Asp residue at position 281 did not influence the immunogenic properties of the epitope, while involvement of the side chain of Glu at position 280 almost completely abolished immunogenicity. These results clearly indicated that the conjugation site of the epitope peptide influenced the intensity and specificity of antibody responses. Comparison of the immunological properties of conjugates containing truncated gD peptides revealed the presence of two epitopes within the 276-284 region. One of the proposed epitopes is situated at the N-terminal (276-281) region, while the other is located at the C-terminal end of the sequence (279-284). Binding data demonstrated that some of the peptides comprising these epitopes induced gD-specific responses in their conjugated form and also elicited an immune response that conferred protection against lethal HSV-1 infection. The correlation of peptide- and gD-specific antibody responses with the protective effect of the immune response is discussed.     

聚苹果酸- 羟喜树碱前药的合成和性质初探

目的:化学全合成聚苹果酸(poly(β-malic acid),PMLA),将其作为高分子药物载体,制备聚苹果酸-羟喜树碱前药(PMLA-HCPT)。研究其体外释药特点和体外细胞毒性。方法:以L-天冬氨酸为原料,通过化学方法全合成PMLA,通过酰胺键键合羟基喜树碱(HCPT)。通过红外光谱、核磁共振光谱表征该前药的结构,利用体外动态透析的方法模拟体外释药特点,用高效液相色谱法测定不同pH值聚合物药物中前喜树碱的释药特性。采用人卵巢癌HO-8910细胞系研究该前药的体外毒性。结果:①经核磁共振表征PMLA-HCPT前药合成完成。②在pH 5.6、pH 6.8及pH 7.4的PBS缓冲体系16 h中,羟喜树碱药物累积释放率分别为76.8%,47.2%和18.1%,证实PMLA-HCPT中羟喜树碱的释放具有pH依赖性。③细胞实验证实PMLA-HCPT的细胞毒性和游离的HCPT相比没有降低。结论:PMLA是一种良好的药物载体材料,PMLA-HCPT有望成为具有pH敏感性的聚合物前药。     

叶酸介导的普鲁兰多糖-阿霉素聚合物前药的制备及生物学性能初探

目的：制备叶酸介导的普兰多糖-阿霉素聚合物前药（FA-MP-DOX）,实现阿霉素药物的靶向控制释放。方法：将普鲁兰多糖用马来酸酐进行修饰后,通过酰胺键键合阿霉素制备得到普鲁兰多糖-阿霉素（MP-DOX）,继而酯键键合叶酸制备得到叶酸介导的普鲁兰多糖-阿霉素聚合物前药（FA-MP-DOX）。红外光谱、核磁共振光谱表征聚合物药物的结构,动态透析法模拟体外释药特性,监测不同pH值聚合物药物中阿霉素的释药特性,同时采用人口腔表皮样癌细胞（KB细胞）测定聚合物药物体系的细胞毒性。结果：①经核磁共振表征FA-MP-DOX聚合物合成完成。②在pH2.5、pH5.0及pH7.4的PBS缓冲体系16h中,阿霉素药物累积释放率分别为49.1%,30.3%和15.3%,证实FA-MP-DOX中阿霉素的释放具有pH依赖性。③细胞实验证实FA-MP-DOX的细胞毒性高于阿霉素和MP-DOX。结论：FA-MP-DOX聚合物药物有望成为阿霉素智能型控释和靶向性药物载体。     

Polypeptide conjugates comprising a beta-amyloid plaque-specific epitope as new vaccine structures against Alzheimer's disease

Immunotherapeutic approaches designed to induce a humoral immune response have recently been developed for possible vaccination to the treatment of Alzheimer's disease (AD). Based on the identification of Abeta(4-10) (FRHDSGY) as the predominant B-cell epitope recognized by therapeutically active antisera from transgenic AD mice, branched polypeptide conjugates with this epitope peptide were synthesized and characterized. In order to produce immunogenic constructs, the Abeta(4-10) epitope alone or together with a promiscuous T-helper cell epitope peptide (FFLLTRILTIPQSLD) were attached via thioether linkage to different branched chain polymeric polypeptides with Ser or Glu in the side chains. A single peptide containing both an Abeta(4-10) and T-helper cell epitope, joined by a dipeptide Cys-Acp spacer, was also attached through the thiol function to chloroacetylated poly[Lys(Seri-DL-Alax)] (SAK). Comparative binding studies of the conjugates with a monoclonal antibody against the beta-amyloid(1-17) peptide in mice were performed by direct ELISA. The conformational preferences of carriers and conjugates in water and in a 9:1 trifluoroethanol:water mixture (v/v) was analyzed by CD spectroscopy. Experimental data showed that the chemical nature of the carrier macromolecule, and the attachment site of the epitope to the carrier, have significant effects on antibody recognition, but have no marked influence on the solution conformation of the conjugates.     

Peptide conjugates of therapeutically used antitubercular isoniazid—design,synthesis and antimycobacterial effect

Tuberculosis (TB) is a bacterial infectious disease caused by Mycobacterium tuberculosis, a slow‐growing, powerful human pathogen which can survive in the host macrophages. In the chemotherapy of such intracellular pathogens it is necessary to achieve relatively high level of the drug in blood to attain therapeutically effective concentration in infected cells, which presumably has several serious side effects on healthy tissues. The elimination of M. tuberculosis from infected phagocytes could be more efficient with target cell‐directed delivery of antituberculars. A particularly promising approach is to conjugate a drug moiety to a peptide based carrier. The conjugates are chemically constructed to target release by hydrolysis (enzymatic and/or chemical) to liberate the active compound. Here we report the synthesis, characterisation and antimycobacterial evaluation of isoniazid (INH) peptide conjugates. As carrier moiety T‐cell epitope of immundominant 16‐kDa protein of M. tuberculosis and tuftsin‐derived peptides were used. To conjugate INH two synthetic methods were developed, where INH was coupled directly to the peptides or through a heterobifunctional reagent. We found that all of the INH conjugates were effective against M. tuberculosis and the minimal inhibitory concentration (MIC) values were comparable to the free INH moiety. Copyright © 2009 European Peptide Society and John Wiley & Sons, Ltd.     

Synthetic peptides simulating the protective epitopes of VP1 protein of foot-and-mouth disease virus type O and A

In a search of novel approaches to cattle protection from foot-and-mouth disease we have prepared a series of peptides from the major antigenic region 130-160 of the VP1 protein. The 144-159 peptide as well as 141-152, 141-148, 148-159 segments (strain O1K) were inactive in all in vitro and in vivo experiments on virus inhibiting. On the other band, synthetic 136-152, 136-148 O1K sequences as well as 131-149, 140-149 A22 sequences afforded 50 to 100% protection, both in the free state and conjugated with keyhole limpet hemocyanin. Therefore the 136-145 region should be considered as an essential part of the major sequential epitope, necessary for full-scale antiviral immune response. We also believe that the 136-152 segment is so far the smallest peptide capable of eliciting virus neutralizing antibodies and antiviral protection without conjugation with a high-molecular carrier.     

Effect of conjugation methodology on the immunogenicity and protective efficacy of meningococcal group C polysaccharide-P64k protein conjugates

Neisseria meningitidis serogroup C polysaccharide (CCPS) was conjugated to the carrier protein P64k using two different conjugation procedures, condensation mediated by carbodiimide with adipic acid dihydrazide as spacer and the reductive amination method. BALB/c mice were immunized with the resultant polysaccharide-protein conjugates and the immune response was evaluated. All conjugates assayed generated at least 10-fold higher antibody titers than the free polysaccharide. The reductive amination method rendered the best conjugate (CCPS-P64kR) that was able to elicit antibody titers statistically higher than the titer elicited by the plain CCPS (P<0.001). The sera of the group immunized with CCPS-P64kR showed a three-fold higher bactericidal response than the sera of the group immunized with the plain CCPS and they were able to protect against challenge with meningococci in the infant rat protection model. In addition, three different conjugates were obtained from polysaccharides with molecular relative sizes of 2000-4000 Da, 4000-10,000 Da or 10,000-50,000 Da, but no differences were detected in the immune response obtained against the three conjugates. Our experiments demonstrate that it is possible to generate a protective, T-cell-dependent response against CCPS using the P64k protein as carrier.     

New pemetrexed‐peptide conjugates: synthesis,characterization and in vitro cytostatic effect on non‐small cell lung carcinoma (NCI‐H358) and human leukemia (HL‐60) cells

Pemetrexed (Pem) is a novel antimetabolite type of anticancer drug that demonstrated promising clinical activity in a wide variety of solid tumors, including non‐small cell lung carcinoma and malignant pleural mesothelioma. It inhibits enzymes involved in the folate pathway, for which the presence of its free carboxylic groups is necessary. The heteroaromatic ring system of Pem has a modifiable amino group, which opens a possibility to apply a new strategy to conjugate Pem to carrier molecules. Considering this as well as the necessity of untouched carboxylic groups of Pem in the new conjugates, we developed a new synthesis strategy. Here, we describe the synthesis and the characterization of new Pem‐peptide conjugates in which cell‐penetrating octaarginine or/and lung‐targeting H‐Ile‐Glu‐Leu‐Leu‐Gln‐Ala‐Arg‐NH₂ peptide is attached to the drug by thioether bond. The conjugates characterized by RP‐HPLC and MS exhibited cytostatic effect in vitro on non‐small cell lung carcinoma as well as on human leukemia cell lines. The IC₅₀ values of the conjugates were similar, but the conjugates with H‐Ile‐Glu‐Leu‐Leu‐Gln‐Ala‐Arg‐NH₂ sequence were slightly more effective. Our data show that the in vitro cytostatic effect of the free Pem was essentially maintained after conjugation with cell‐penetrating or cell‐targeting peptides. Thus, the conjugation strategy reported could lead to the development of a new generation of active Pem conjugates. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.     

Fasciola gigantica cathepsin L proteinase-based synthetic peptide for immunodiagnosis and prevention of sheep fasciolosis

Sheep fasciolosis is a devastating burden for the livestock industry. We herein report on immunodiagnosis of fasciolosis, and significant protection of sheep against challenge infection with Fasciola gigantica following immunization with a peptide based on the H-Asp(110)-Lys-Ile-Asp-Trp-Arg-Glu-Ser-Gly-Tyr-Val-Thr-Glu-Val(123)-OH (Fas14p) sequence of F. gigantica cathepsin L-cysteine proteinase. This sequence was synthesized in three different forms: as N(alpha) acetylated (Ac-Asp(110)-Lys-Ile-Asp-Trp-Arg-Glu-Ser-Gly-Tyr-Val-Thr-Glu-Val(123)-OH, FasAc14p), bearing at the amino-terminus an N(alpha) acetylated cystein (Ac-Cys-Asp(110)-Lys-Ile-Asp-Trp-Arg-Glu-Ser-Gly-Tyr-Val-Thr-Glu-Val(123)-OH, FasAcCys14p), and conjugated to sequential oligopeptide carrier Ac-[Lys-Aib-Gly](4)-OH (Ac-SOC(4)) through an amide bond formed between Val(123) carboxylic group of the epitope and the lysine N(epsilon) groups of the carrier (Ac-[Lys(Fas14p)-Aib-Gly](4)-OH). Ac-[Lys(Fas14p)-Aib-Gly](4)-OH failed to readily discriminate between na?ve and infected sheep. In contrast, the free peptides reproducibly differentiated between parasite-free sheep, sheep infected with parasites other than Fasciola, and experimentally Fasciola-infected sheep. The data together indicated that the peptides might be of considerable use for discriminating between early and late, and low and high burden, sheep infection with F. gigantica. FasAc14p was chosen to determine whether a peptide based on a critical enzymatic site of cathepsin L proteinase may induce protection against challenge infection. Sheep immunization with FasAc14p peptide induced significant expression of interleukin-4 mRNA, and humoral antibodies that bound to molecule(s) on the intact surface membrane of newly excysted juvenile worms, and mediated their attrition. The immune responses were associated with significant (P < 0.02) decrease of 23.1% in worm recovery, but with no decrease in the size or maturation of worms recovered.