incarbohydrate interaction several thousand-fold resulting in nanoand picomolar Kd values. This is exemplified by the asialoglycoprotein receptor, which recognizes serum glycoproteins with increasing affinity as the number of exposed terminal galactoses increases with age. In addition to multivalency, the molecular fit 16291771 between the carbohydrate and its receptor can add to the affinity. In this respect the fact that both the inner core saccharide chain as well as the protein backbone may influence the presentation of the carbohydrate determinant is of particular importance. P-selectin glycoprotein ligand-1/mouse IgG2b is a mucin-like immunoglobulin fusion glycoprotein with 106 potential sites for O-linked glycosylation and six potential sites for N-linked glycosylation in its dimeric form. With the aim of interfering with or promoting protein-carbohydrate interactions of biomedical importance, we have used this fusion protein as a scaffold for multivalent presentation of various tailored carbohydrate determinants of diagnostic or therapeutic significance. By displaying multiple oligomannose chains in various combinations for MR, DC-SIGN and mannan binding lectin, we have shown that recombinant PSGL-1/mIgG2b produced in the yeast Pichia pastoris can target these receptors with high affinity by engaging multiple carbohydrate recognition domains of MR and MBL or multiple/oligomerized DC-SIGN receptors. We hypothesize that a mucin-type fusion protein carrying multiple O-linked oligomannose structures has the potential of working as a universal antigen presenting cell -targeting molecule for a broad repertoire of protein antigens in different vaccine compositions. As such, it may amplify both humoral and cellular immune responses and may be used together with different antigens for which already established manufacturing bioprocesses can be maintained. Here, we present data on the OVA-specific immune responses in mice immunized with OVA, OVAmannosylated PSGL-1/mIgG2b conjugates or mixtures, with or without an additional adjuvant in the form of ImjectHAlum or AbISCOH-100. Ethics Statement All mice were bred and maintained according to the regulations of the Ethical Committee for Animal Research at Karolinska Institutet. All animal experiments were approved by the regional committee on animal ethics, S-184-06 and S-132-09. Proteins, peptides and adjuvants For ELISpot and proliferation assays different proteins and peptides at varying concentrations were used: the OVA-SIINFEKL CTL peptide was used at a concentration of 1 mg/ mL 0.0001 mg/mL, the FILKSINE control CTL peptide at 1 mg/mL, the Fenoterol (hydrobromide) biological activity Th-OVA Th peptide at 10 mg/mL 0.01 mg/mL, the OVA protein grade VII was used at a concentration of 625 mg/mL 5 mg/mL, BSA at 25 mg/ mL and Concanavalin A at 5 and 1 mg/ mL. The LC-SPDP linker and Imject Alum were from Thermo Fischer Scientific and AbISCOH100 was from Isconova AB. Production of PSGL-1/mIgG2b Mannosylated PSGL-1/mIgG2b was produced in P. pastoris, purified, quantified and characterized by Western blotting and mass spectrometry as described. PSGL-1/mIgG2b with mono and disialylated core 1 structure 18347139 was produced in a stable CHO cell line given the name, C-P55.2. The cells were cultured in serumfree ProCHO4 medium in repeated batch mode in a 20 L Wave bioreactor. The bioreactor was inoculated at 0.86106 viable cells/mL in a volume of 5.2 L. At regular intervals, fresh cultivation medium with 2 mM glutamine was added as a bolus until the final volume