Markus Glaffig scite author profile

Self-adjuvanting antitumor vaccines by multifunctional cationic nanohydrogels loaded with CpG. A conjugate consisting of tumor-associated MUC1-glycopeptide B-cell epitope and tetanus toxin T-cell epitope P2 is linked to cationic nanogels. Oligonucleotide CpG complexation enhances toll-like receptor (TLR) stimulated T-cell proliferation and rapid immune activation. This co-delivery promotes induction of specific MUC1-antibodies binding to human breast tumor cells without external adjuvant.

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A Fully Synthetic Four‐Component Antitumor Vaccine Consisting of a Mucin Glycopeptide Antigen Combined with Three Different T‐Helper‐Cell Epitopes

Palitzsch

Hartmann

Stergiou

et al. 2014

Angew Chem Int Ed

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In a new concept of fully synthetic vaccines, the role of T-helper cells is emphasized. Here, a synthetic antitumor vaccine consisting of a diglycosylated tumor-associated MUC1 glycopeptide as the B-cell epitope was covalently cross-linked with three different T-helper-cell epitopes via squaric acid ligation of two linear (glyco)peptides. In mice this four-component vaccine administered without external immune-stimulating promoters elicit titers of MUC1-specific antibodies that were about eight times higher than those induced by a vaccine containing only one T-helper-cell epitope. The promising results indicate that multiple activation of different T-helper cells is useful for applications in which increased immunogenicity is required. In personalized medicine, in particular, this flexible construction of a vaccine can serve as a role model, for example, when T-helper-cell epitopes are needed that match human leukocyte antigens (HLA) in different patients.

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A Synthetic MUC1 Anticancer Vaccine Containing Mannose Ligands for Targeting Macrophages and Dendritic Cells

et al. 2017

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AM UC1 anticancer vaccine equipped with covalently linked divalent mannose ligandsw as found to improvet he antigen uptake and presentation by targeting mannose-receptor-positive macrophages and dendritic cells. It induced much stronger specific IgG immuneresponses in mice than the non-mannosylated reference vaccine.M annosec oupling also led to increasedn umbers of macrophages, dendritic cells, and CD4+ T cells in the local lymph organs.C omparison of di-and tetravalent mannosel igands revealed an increased binding of the tetravalent version, suggesting that higherv alency improves binding to the mannose receptor.T he mannose-coupled vaccine and the non-mannosylated reference vaccine induced IgG antibodies that exhibited similarb inding to human breast tumor cells.

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A Fully Synthetic Glycopeptide Antitumor Vaccine Based on Multiple Antigen Presentation on a Hyperbranched Polymer

Glaffig

Palitzsch

Hartmann

et al. 2014

Chemistry A European J

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For antitumor vaccines both the selected tumor-associated antigen, as well as the mode of its presentation, affect the immune response. According to the principle of multiple antigen presentation, a tumor-associated MUC1 glycopeptide combined with the immunostimulating T-cell epitope P2 from tetanus toxoid was coupled to a multi-functionalized hyperbranched polyglycerol by "click chemistry". This globular polymeric carrier has a flexible dendrimer-like structure, which allows optimal antigen presentation to the immune system. The resulting fully synthetic vaccine induced strong immune responses in mice and IgG antibodies recognizing human breast-cancer cells.

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Immunization with a Synthetic Human MUC1 Glycopeptide Vaccine against Tumor‐Associated MUC1 Breaks Tolerance in Human MUC1 Transgenic Mice

et al. 2017

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Breaking tolerance is crucial for effective tumor immunotherapy. We showed that vaccines containing tumor-associated human MUC1 glycopeptides induce strong humoral antitumor responses in mice. The question remained whether such vaccines work in humans, in systems where huMUC1 is a self-antigen. To clarify the question, mice transgenic in expressing huMUC1, mimicking the self-tolerant environment, and wild-type mice were vaccinated with a synthetic vaccine. This vaccine comprised STn and Tn antigens bound to a MUC1 tandem repeat peptide coupled to tetanus toxoid. The vaccine induced strong immune responses in wild-type and huMUC1-transgenic mice without auto-aggressive side effects. All antisera exhibited almost equivalent binding to human breast tumor cells. Similar increases of activated B-, CD4 T-, and dendritic cells was found in the lymph nodes. The results demonstrate that tumor-associated huMUC1 glycopeptides coupled to tetanus toxoid are promising antitumor vaccines.

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Markus Glaffig

CpG‐Loaded Multifunctional Cationic Nanohydrogel Particles as Self‐Adjuvanting Glycopeptide Antitumor Vaccines

A Fully Synthetic Four‐Component Antitumor Vaccine Consisting of a Mucin Glycopeptide Antigen Combined with Three Different T‐Helper‐Cell Epitopes

A Synthetic MUC1 Anticancer Vaccine Containing Mannose Ligands for Targeting Macrophages and Dendritic Cells

A Fully Synthetic Glycopeptide Antitumor Vaccine Based on Multiple Antigen Presentation on a Hyperbranched Polymer

Immunization with a Synthetic Human MUC1 Glycopeptide Vaccine against Tumor‐Associated MUC1 Breaks Tolerance in Human MUC1 Transgenic Mice

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