Litcius/Paper detail

The Development of Vaccines from Synthetic Tumor‐Associated Mucin Glycopeptides and their Glycosylation‐Dependent Immune Response

Natascha Stergiou, Moritz Urschbach, Adele Gabba, Edgar Schmitt, Horst Kunz, Pol Besenius

2021The Chemical Record35 citationsDOIOpen Access PDF

Abstract

Tumor-associated carbohydrate antigens are overexpressed as altered-self in most common epithelial cancers. Their glycosylation patterns differ from those of healthy cells, functioning as an ID for cancer cells. Scientists have been developing anti-cancer vaccines based on mucin glycopeptides, yet the interplay of delivery system, adjuvant and tumor associated MUC epitopes in the induced immune response is not well understood. The current state of the art suggests that the identity, abundancy and location of the glycans on the MUC backbone are all key parameters in the cellular and humoral response. This review shares lessons learned by us in over two decades of research in glycopeptide vaccines. By bridging synthetic chemistry and immunology, we discuss efforts in designing synthetic MUC1/4/16 vaccines and focus on the role of glycosylation patterns. We provide a brief introduction into the mechanisms of the immune system and aim to promote the development of cancer subunit vaccines.

Topics & Concepts

GlycopeptideImmune systemGlycosylationMUC1AdjuvantEpitopeMucinGlycanBiologyAntigenImmunologyCancerCancer vaccineGlycoproteinComputational biologyImmunotherapyBiochemistryGeneticsAntibioticsGlycosylation and Glycoproteins ResearchCarbohydrate Chemistry and SynthesisImmunotherapy and Immune Responses