Die Synthese von Glycopeptiden und Glycopeptid-Protein-Konjugaten mit einer Partialstruktur des tumorassoziierten Mucins MUC1 zur Entwicklung von Tumorvakzinen

„Synthese von Glycopeptiden und Glycopeptid-Protein-Konjugaten mit einer Partialstruktur des tumorassoziierten Mucins MUC1 zur Entwicklung von Tumorvakzinen“ Das Glycoprotein MUC1 ist in Tumorepithelzellen sonderlich stark überexprimiert und wegen der vorzeitig einsetzenden Sialylierung sind die Saccharid-Epitope der O-Glycanketten stark verkürzt (sog. tumorassoziierte Antigene). Dadurch werden auch bisher verborgene Peptidepitope des Glycoprotein-Rückgrates auf der Zelloberfläche der Epithelzellen zugänglich, die als fremd von den Zellen des Immunsystems erkannt werden können. Dies macht das MUC1-Zelloberfächenmolekül zu einem Zielmolekül in der Entwicklung von Tumorvakzinen. Diese beiden strukturellen Besonderheiten wurden in der Synthese von Glycohexadecapeptiden verbunden, indem die veränderten tumorassoziierten Saccharidstrukturen TN-, STN- und T-Antigen als Glycosylaminosäure-Festphasenbausteine synthetisiert wurden und in das Peptidepitop der Wiederholungseinheit des MUC1 durch Glycopeptid-Festphasensynthese eingebaut wurden. Wegen der inhärenten schwachen Immunogenität der kurzen Glycopeptide müssen die synthetisierten Glycopeptidstrukturen an ein Trägerprotein, welches das Immunsystem stimuliert, gebunden werden. Zur Anbindung der Glycopeptide ist ein selektives Kupplungsverfahren nötig, um definierte und strukturell einheitliche Glycopeptid-Protein-Konjugate zu erhalten. Es konnte eine neue Methode entwickelt werden, bei der die Konjugation durch eine radikalische Additionsreaktion von als Allylamide funktionalisierten Glycopeptiden an ein Thiol-modifiziertes Trägerprotein erfolgte. Dazu wurde anhand von synthetisierten, als Allylamide modifizierten Modellaminosäuren untersucht, ob diese Reaktion generell für eine Biokonjugation geeignet ist und etwaige Nebenreaktionen auftreten können. Mit dieser Methode konnten verschiedene MUC1-Glycopeptid-Trägerprotein-Konjugate hergestellt werden, deren immunologische Untersuchung noch bevorsteht. Das tumorassoziierte MUC1 nimmt in der immundominanten Region seiner Wiederholungseinheit eine knaufartige Struktur ein. Für die Entwicklung von selektiven Tumorvakzinen ist es von großer Bedeutung möglichst genau die Struktur der veränderten Zelloberflächenmoleküle nachzubilden. Durch die Synthese von cyclischen (Glyco)Peptiden wurde dieses Strukturelement fixiert. Dazu wurden olefinische Aminosäure Festphasenbausteine hergestellt, die zusammen mit den oben genannten Glycosylaminosäuren mittels einer Glycopeptid-Festphasensynthese in acyclische Glycopeptide eingebaut wurden. Diese wurden dann durch Ringschlussmetathese zyklisiert und im Anschluss reduziert und vollständig deblockiert. In einem dritten Projekt wurde der Syntheseweg zur Herstellung einer C-Glycosylaminosäure mit einer N-Acetylgalactosamin-Einheit entwickelt. Wichtige Schritte bei der von Glucosamin ausgehenden Synthese sind die Keck-Allylierung, eine Epimerisierung, die Herstellung eines Brom-Dehydroalanin-Derivates und eine B-Alkyl-Suzuki-Miyaura-Kreuzkupplung sowie Schutzgruppenoperationen. Der racemische Baustein konnte dann in der Peptid-Festphasensynthese eines komplexen MUC1-Tetanustoxin-Konjugates eingesetzt werden.

Identification of preferentially targeted tumor-associated antigens in melanoma patients via mRNA stimulation of CD8+ blood lymphocytes

Until now, therapeutic vaccination of cancer patients has mainly relied on rather few T cell epitopes processed from structurally normal shared tumor antigens and presented by frequent HLA alleles. So far the design of these studies has not addressed the individuality of tumor-host interactions, which are not only determined by the antigenic tumor phenotype or the natural HLA polymorphism, but also by the individual T cell repertoire. The procedure described herein was developed to identify the preferential targets of the individual repertoire from a panel of known shared tumor-associated antigens. Lymphocytes were isolated from the peripheral blood of cancer patients or healthy donors and stimulated twice with autologous mRNA-transfected FastDC (Dauer et al., J Immunol. 170:4069, 2003). FastDC were generated from blood monocytes and separately transfected via lipofection with in vitro transcribed mRNAs encoding the panel antigens. Responder lymphocytes were tested on day 12 in a 20-hour IFN-g ELISPOT assay for recognition of 293T cells co-transfected pairwise with plasmids encoding the stimulation antigens and the respective individual’s HLA class I alleles. In a first step, stimulation parameters were optimized for the detection of anti-HCMV pp65 responses. A maximum amplification of pp65-specific CD8+ T cell responses was obtained at a rather low IL-2 concentration (25 IU/ml) and at a minimum APC-to-effector ratio of 1:10. Addition of IL-4, IL-7 or IL-15 did not substantially improve the stimulatory potential. The test was applied to the human melanoma models D05 and MZ2, in both of which multiple T cell-defined antigens had previously been identified by expression screening. Blood lymphocytes were stimulated in parallel with autologous tumor cells and with mRNA-transfected FastDC. In D05, T cell reactivities against three out of eleven epitopes induced by stimulation with tumor cells were also found after stimulation with mRNA-transfected FastDC. Two further T cell target epitopes were identified with mRNA but not with tumor cell stimulation. In MZ2, T cell responses against five distinct epitopes were detected on day 12 after stimulation with mRNA transfectants. The same responses were detectable after stimulation with tumor cells only on day 32. mRNA stimulations against 21 tumor-associated antigens in addition to HCMV pp65 were performed in four healthy individuals. In all cases, CD8+ T cells against HCMV pp65 could be expanded. Among tumor-associated antigens, only reactivity against Melan-A/MART-1 in association with HLA-A*0201 was detectable in one of the donors. The vaccination of patients with targets a priori known to be recognized by their T cell repertoire may help to improve the outcome of therapeutic vaccination.

Molecular variability of Meningococcal antigens in carriage and disease strains and in other Neisseria species

This PhD thesis is focused on the study of the molecular variability of some specific proteins, part of the outer membrane of the pathogen Neisseria meningitidis, and described as protective antigens and important virulence factors. These antigens have been employed as components of the vaccine developed by Novartis Vaccines against N. meningitidis of serogroup B, and their variability in the meningococcal population is a key aspect when the effect of the vaccine is evaluated. The PhD project has led to complete three major studies described in three different manuscritps, of which two have been published and the third is in preparation. The thesis is structured in three main chapters, each of them dedicated to the three studies. The first, described in Chapter 1, is specifically dedicated to the analysis of the molecular conservation of meningococcal antigens in the genomes of all species classified in the genus Neisseria (Conservation of Meningococcal Antigens in the Genus Neisseria. A. Muzzi et al.. 2013. mBio 4 (3)). The second study, described in Chapter 2, focuses on the analysis of the presence and conservation of the antigens in a panel of bacterial isolates obtained from cases of the disease and from healthy individuals, and collected in the same year and in the same geographical area (Conservation of fHbp, NadA, and NHBA in carrier and pathogenic isolates of Neisseria meningitidis collected in the Czech Republic in 1993. A. Muzzi et al.. Manuscript in preparation). Finally, Chapter 3 describes the molecular features of the antigens in a panel of bacterial isolates collected over a period of 50 years, and representatives of the epidemiological history of meningococcal disease in the Netherlands (An Analysis of the Sequence Variability of Meningococcal fHbp, NadA and NHBA over a 50-Year Period in the Netherlands. S. Bambini et al.. 2013. PloS one e65043).

Synthese und immunologische Evaluierung von Antitumor-Impfstoffen aus dem epithelialen tumorassoziierten Mucin MUC1

Eine Immuntherapie von Tumorerkrankungen, die mit Hilfe von Antitumorimpfstoffen prophylaktisch und therapeutisch erfolgen könnte, wäre eine attraktive Alternative zu den bisher angewendeten Krebsbehandlungen. Aufgrund charakteristisch veränderter Aktivitäten von Glycosyltransferasen in der Glycoprotein-Biosynthese werden auf malignen Zellen stark verkürzte, frühzeitig sialylierte mucinartige Glycoproteine exprimiert. Diese verkürzten Kohlenhydrate repräsentieren tumorassoziierte Antigene. Sie haben zur Folge, dass Peptidepitope der Mucin-Glycoproteine, die auf gesundem Gewebe durch den hohen Glycosylierungsgrad maskiert sind, für das Immunsystem freiliegen. Diese Strukturunterschiede sollten einen selektiven Angriff auf das Tumorgewebe erlauben, ohne dass gesundes Gewebe beeinträchtigt wird, wenn es gelänge, das Immunsystem auf diese veränderten Strukturelemente zu fokussieren. Dabei ist es wichtig, dass die Immunantwort mit synthetisch definierten Glycopeptidepitopen ausgelöst wird, um Autoimmunreaktionen zu vermeiden. Somit ist die Synthese von exakt definierten tumorassoziierten Glycopeptiden von zentraler Bedeutung für die Entwicklung eines Antitumor-Impfstoffes. rnDa die tumorassoziierten Kohlenhydratstrukturen Antigene darstellen, die vom Immunsystem weitgehend toleriert werden, ist es notwendig, ihre Immunogenität mit Hilfe immunstimulierender Epitope so zu erhöhen, dass eine effiziente Immunreaktion erfolgt. Nach diesem Konzept wurden in der vorliegenden Arbeit Methoden und Strategien entwickelt, synthetische Impfstoff-Konjugate zu synthetisieren und immunologisch in Mausexperimenten zu evaluieren. So konnte gezeigt werden, das mit vollsynthetischen Analoga aus tumorassoziierten Glycopeptid-Oberflächenmolekülen in Kombination mit immunstimulierenden Substanzen, wie Trägerproteinen oder Mitogenen, hochselektive humorale Immunantworten ausgelöst werden können.rn

Synthese perfluoralkylierter mucinanaloger Glycolipopeptide zur multivalenten Antigenpräsentation

In dieser Dissertation konnten neuartige perfluoralkylierte Membranankersysteme basierend auf Tris(hydroxymehtyl)aminomethan (TRIS) dargestellt werden. Die perfluoralkylierte Ankersysteme mit C4F9-, C6F13- und C8F17-Ketten konnten in Glycolipopeptide des Mucins MUC1 eingebaut und immunologisch evaluiert werden. In allen untersuchten perfluoralkylierten Glycolipopeptiden konnten spezifische Wechselwirkungen mit Antikörpern nachgewiesen werden. Die Immunisierungen von Mäusen mit diesen nicht-natürlichen Verbindungen führten zur Bildung tumorspezifischer Antikörper. Insgesamt sind die Bindungsaffinitäten der gebildeten Antikörper noch zu gering in Bezug auf die Entwicklung effektiver anti-tumor Vakzine. Diese Bindungsaffinitäten könnte jedoch in künftigen Forschungsarbeiten durch die multivalente Präsentation der perfluoralkylierten Antigene in liposomalen Vakzinen verstärkt werden.rnrn

One-Step (18)F-Labeling of Carbohydrate-Conjugated Octreotate-Derivatives Containing a Silicon-Fluoride-Acceptor (SiFA): In Vitro and in Vivo Evaluation as Tumor Imaging Agents for Positron Emission Tomography (PET)

The synthesis, radiolabeling, and initial evaluation of new silicon-fluoride acceptor (SiFA) derivatized octreotate derivatives is reported. So far, the main drawback of the SiFA technology for the synthesis of PET-radiotracers is the high lipophilicity of the resulting radiopharmaceutical. Consequently, we synthesized new SiFA-octreotate analogues derivatized with Fmoc-NH-PEG-COOH, Fmoc-Asn(Ac?AcNH-?-Glc)-OH, and SiFA-aldehyde (SIFA-A). The substances could be labeled in high yields (38 ± 4%) and specific activities between 29 and 56 GBq/?mol in short synthesis times of less than 30 min (e.o.b.). The in vitro evaluation of the synthesized conjugates displayed a sst2 receptor affinity (IC?? = 3.3 ± 0.3 nM) comparable to that of somatostatin-28. As a measure of lipophilicity of the conjugates, the log P(ow) was determined and found to be 0.96 for SiFA-Asn(AcNH-?-Glc)-PEG-Tyr³-octreotate and 1.23 for SiFA-Asn(AcNH-?-Glc)-Tyr³-octreotate, which is considerably lower than for SiFA-Tyr³-octreotate (log P(ow) = 1.59). The initial in vivo evaluation of [¹?F]SiFA-Asn(AcNH-?-Glc)-PEG-Tyr³-octreotate revealed a significant uptake of radiotracer in the tumor tissue of AR42J tumor-bearing nude mice of 7.7% ID/g tissue weight. These results show that the high lipophilicity of the SiFA moiety can be compensated by applying hydrophilic moieties. Using this approach, a tumor-affine SiFA-containing peptide could successfully be used for receptor imaging for the first time in this proof of concept study.

Carbohydrate counting of food

Carbohydrate counting is a principal strategy in nutritional management of type 1 diabetes. The Nutri-Learn buffet (NLB) is a new computer-based tool for patient instruction in carbohydrate counting. It is based on food dummies made of plastic equipped with a microchip containing relevant food content data. The tool enables the dietician to assess the patient's food counting abilities and the patient to learn in a hands-on interactive manner to estimate food contents such as carbohydrate content.

Molecular analysis of carbohydrate N-acetylgalactosamine 4-O sulfotransferase 8 (CHST8) as a candidate gene for bovine spongiform encephalopathy susceptibility

Endogenous prion proteins (PrP) play the central role in the pathogenesis of transmissible spongiform encephalopathies. The carbohydrate N-acetylgalactosamine 4-O sulfotransferase 8 (CHST8) promotes the conversion of the cellular PrP(C) into the pathogenic PrP(d). Six sequence variants within the CHST8 gene were identified by comparative sequencing and genotyped for a sample of 623 animals comprising bovine spongiform encephalopathy (BSE)-affected and healthy control cows representing German Fleckvieh (German Simmental), German Holstein (Holstein-Friesian) and Brown Swiss. Significant differences in the allele, genotype and haplotype frequencies between BSE-affected and healthy cows indicate an association of sequence variant g.37254017G>T with the development of the disease in Brown Swiss cattle.

Intraperitoneal and intra-nasal vaccination of mice with three distinct recombinant Neospora caninum antigens results in differential effects with regard to protection against experimental challenge with Neospora caninum tachyzoites

Recombinant NcPDI(recNcPDI), NcROP2(recNcROP2), and NcMAG1(recNcMAG1) were expressed in Escherichia coli and purified, and evaluated as potential vaccine candidates by employing the C57Bl/6 mouse cerebral infection model. Intraperitoneal application of these proteins suspended in saponin adjuvants lead to protection against disease in 50% and 70% of mice vaccinated with recNcMAG1 and recNcROP2, respectively, while only 20% of mice vaccinated with recNcPDI remained without clinical signs. In contrast, a 90% protection rate was achieved following intra-nasal vaccination with recNcPDI emulsified in cholera toxin. Only 1 mouse vaccinated intra-nasally with recNcMAG1 survived the challenge infection, and protection achieved with intra-nasally applied recNcROP2 was at 60%. Determination of cerebral parasite burdens by real-time PCR showed that these were significantly reduced only in recNcROP2-vaccinated animals (following intraperitoneal and intra-nasal application) and in recNcPDI-vaccinated mice (intra-nasal application only). Quantification of viable tachyzoites in brain tissue of intra-nasally vaccinated mice showed that immunization with recNcPDI resulted in significantly decreased numbers of live parasites. These data show that, besides the nature of the antigen, the protective effect of vaccination also depends largely on the route of antigen delivery. In the case of recNcPDI, the intra-nasal route provides a platform to generate a highly protective immune response.

Serodiagnosis of Echinococcus spp. infection: explorative selection of diagnostic antigens by peptide microarray

BACKGROUND: Production of native antigens for serodiagnosis of helminthic infections is laborious and hampered by batch-to-batch variation. For serodiagnosis of echinococcosis, especially cystic disease, most screening tests rely on crude or purified Echinococcus granulosus hydatid cyst fluid. To resolve limitations associated with native antigens in serological tests, the use of standardized and highly pure antigens produced by chemical synthesis offers considerable advantages, provided appropriate diagnostic sensitivity and specificity is achieved. METHODOLOGY/PRINCIPAL FINDINGS: Making use of the growing collection of genomic and proteomic data, we applied a set of bioinformatic selection criteria to a collection of protein sequences including conceptually translated nucleotide sequence data of two related tapeworms, Echinococcus multilocularis and Echinococcus granulosus. Our approach targeted alpha-helical coiled-coils and intrinsically unstructured regions of parasite proteins potentially exposed to the host immune system. From 6 proteins of E. multilocularis and 5 proteins of E. granulosus, 45 peptides between 24 and 30 amino acids in length were designed. These peptides were chemically synthesized, spotted on microarrays and screened for reactivity with sera from infected humans. Peptides reacting above the cut-off were validated in enzyme-linked immunosorbent assays (ELISA). Peptides identified failed to differentiate between E. multilocularis and E. granulosus infection. The peptide performing best reached 57% sensitivity and 94% specificity. This candidate derived from Echinococcus multilocularis antigen B8/1 and showed strong reactivity to sera from patients infected either with E. multilocularis or E. granulosus. CONCLUSIONS/SIGNIFICANCE: This study provides proof of principle for the discovery of diagnostically relevant peptides by bioinformatic selection complemented with screening on a high-throughput microarray platform. Our data showed that a single peptide cannot provide sufficient diagnostic sensitivity whereas pooling several peptide antigens improved sensitivity; thus combinations of several peptides may lead the way to new diagnostic tests that replace, or at least complement conventional immunodiagnosis of echinococcosis. Our strategy could prove useful for diagnostic developments in other pathogens.

Echinococcus multilocularis and its intermediate host: a model of parasite-host interplay

Host-parasite interactions in the E. multilocularis-intermediate host model depend on a subtle balance between cellular immunity, which is responsible for host's resistance towards the metacestode, the larval stage of the parasite, and tolerance induction and maintenance. The pathological features of alveolar echinococcosis. the disease caused by E. multilocularis, are related both to parasitic growth and to host's immune response, leading to fibrosis and necrosis, The disease spectrum is clearly dependent on the genetic background of the host as well as on acquired disturbances of Th1-related immunity. The laminated layer of the metacestode, and especially its carbohydrate components, plays a major role in tolerance induction. Th2-type and anti-inflammatory cytokines, IL-10 and TGF-beta, as well as nitric oxide, are involved in the maintenance of tolerance and partial inhibition of cytotoxic mechanisms. Results of studies in the experimental mouse model and in patients suggest that immune modulation with cytokines, such as interferon-alpha, or with specific antigens could be used in the future to treat patients with alveolar echinococcosis and/or to prevent this very severe parasitic disease.

Human leukocyte antigens (HLA) associated drug hypersensitivity: consequences of drug binding to HLA

Recent publications have shown that certain human leukocyte antigen (HLA) alleles are strongly associated with hypersensitivity to particular drugs. As HLA molecules are a critical element in T-cell stimulation, it is no surprise that particular HLA alleles have a direct functional role in the pathogenesis of drug hypersensitivity. In this context, a direct interaction of the relevant drug with HLA molecules as described by the p-i concept appears to be more relevant than presentation of hapten-modified peptides. In some HLA-associated drug hypersensitivity reactions, the presence of a risk allele is a necessary but incomplete factor for disease development. In carbamazepine and HLA-B*15:02, certain T-cell receptor (TCR) repertoires are required for immune activation. This additional requirement may be one of the 'missing links' in explaining why most individuals carrying this allele can tolerate the drug. In contrast, abacavir generates polyclonal T-cell response by interacting specifically with HLA-B*57:01 molecules. T cell stimulation may be due to presentation of abacavir or of altered peptides. While the presence of HLA-B*58:01 allele substantially increases the risk of allopurinol hypersensitivity, it is not an absolute requirement, suggesting that other factors also play an important role. In summary, drug hypersensitivity is the end result of a drug interaction with certain HLA molecules and TCRs, the sum of which determines whether the ensuing immune response is going to be harmful or not.

Novel mutations in the human sucrase-isomaltase gene (SI) that cause congenital carbohydrate malabsorption

Disaccharide intolerance I or congenital sucrase-isomaltase deficiency (CSID) is a disorder leading to maldigestion of disaccharides, which is autosomal recessively inherited. Here we analyzed the sucrase-isomaltase (SI) gene from 11 patients of Hungarian origin with congenital sucrase-isomaltase deficiency. Variants in the SI gene had previously been described in CSID patients, which cause amino acid exchanges that affect the transport, the processing, or the function of the SI protein. None of our patients had known mutations for CSID. Our analyses revealed 43 SI variants in total, 15 within exons and one at a splice site. Eight of the exonic mutations lead to amino acid exchanges, causing hypomorph or null alleles. One new variation affects a splice site, which is also predicted to result in a null allele. All potential pathological alterations were present on one allele only. In six out of the 11 patients the phenotype of CSID could be explained by compound heterozygosity.

Capillary zone electrophoresis determination of carbohydrate-deficient transferrin using the new CEofix reagents under high-resolution conditions

Capillary zone electrophoresis (CZE) with a dynamic double coating based on the new CEofix reagents is shown to provide high-resolution separations of serum transferrin (Tf) isoforms, a prerequisite for the monitoring of unusual and complex Tf patterns, including those seen with genetic variants and disorders of glycosylation. A 50 microm I.D. fused-silica capillary of 60 cm total length, an applied voltage of 20 kV and a capillary temperature of 30 degrees C results in 15 min CZE runs of high assay precision and thus provides a robust approach for the determination of carbohydrate-deficient transferrin (CDT, sum of asialo-Tf and disialo-Tf in relation to total Tf) in human serum. Except for selected samples of patients with severe liver diseases and sera with high levels of paraproteins, interference-free Tf patterns are detected. Compared with the use of the previous CEofix reagents for CDT under the same instrumental conditions, the resolution between disialo-Tf and trisialo-Tf is significantly higher (1.7 versus 1.4). The CDT levels of reference and patient sera are comparable, suggesting that the new assay can be applied for screening and confirmation analyses. The high-resolution CZE assay represents an attractive alternative to HPLC and can be regarded as a candidate of a reference method for CDT.