Literature DB >> 30840433

Biomimetic Glyconanoparticle Vaccine for Cancer Immunotherapy.

Eliran Moshe Reuven1, Shani Leviatan Ben-Arye1, Hai Yu2, Roberto Duchi3, Andrea Perota3, Sophie Conchon4, Shirley Bachar Abramovitch1, Jean-Paul Soulillou4, Cesare Galli3,5, Xi Chen2, Vered Padler-Karavani1.   

Abstract

Cancer immunotherapy aims to harness the immune system to combat malignant processes. Transformed cells harbor diverse modifications that lead to formation of neoantigens, including aberrantly expressed cell surface carbohydrates. Targeting tumor-associated carbohydrate antigens (TACA) hold great potential for cancer immunotherapy. N-glycolylneuraminic acid (Neu5Gc) is a dietary non-human immunogenic carbohydrate that accumulates on human cancer cells, thereby generating neoantigens. In mice, passive immunotherapy with anti-Neu5Gc antibodies inhibits growth of Neu5Gc-positive tumors. Here, we designed an active cancer vaccine immunotherapy strategy to target Neu5Gc-positive tumors. We generated biomimetic glyconanoparticles using engineered αGal knockout porcine red blood cells to form nanoghosts (NGs) that either express (NGpos) or lack expression (NGneg) of Neu5Gc-glycoconjugates in their natural context. We demonstrated that optimized immunization of "human-like" Neu5Gc-deficient Cmah-/- mice with NGpos glyconanoparticles induce a strong, diverse and persistent anti-Neu5Gc IgG immune response. The resulting anti-Neu5Gc IgG antibodies were also detected within Neu5Gc-positive tumors and inhibited tumor growth in vivo. Using detailed glycan microarray analysis, we further demonstrate that the kinetics and quality of the immune responses influence the efficacy of the vaccine. These findings reinforce the potential of TACA neoantigens and the dietary non-human sialic acid Neu5Gc, in particular, as immunotherapy targets.

Entities:  

Keywords:  N-glycolylneuraminic acid; biomimetic; cancer immunotherapy; glycan microarray; glyconanoparticle; neoantigen; sialic acid

Mesh:

Substances:

Year:  2019        PMID: 30840433      PMCID: PMC6756924          DOI: 10.1021/acsnano.8b07241

Source DB:  PubMed          Journal:  ACS Nano        ISSN: 1936-0851            Impact factor:   15.881


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