OligoDOMTM: a T-cell response-enhancing platform applied to cancer immunotherapy
Judith Del Campo, Séverine Valsesia, Elsa Nikly, Roberto Ruiu, Antonella Iacoviello, Elena Quaglino, Federica Cavallo, Dalil Hannani, Emilie Boucher, Florence Nicolas, Alexandre Le Vert, Francesco Doro

TL;DR
A new platform called oligoDOM™ enhances T-cell responses to cancer vaccines, improving their effectiveness in mouse models.
Contribution
The study introduces oligoDOM™ as a novel platform to boost neoepitope immunogenicity in cancer immunotherapy.
Findings
LNP-formulated mRNA constructs with oligoDOM™ induced stronger immune responses than controls in four neoantigens.
Tumor growth was significantly reduced in models treated with oligoDOM™-enhanced mRNA vaccines.
T-cell immune responses correlated with reduced tumor growth rates in murine models.
Abstract
Neoepitopes derived (0) from tumors are attractive cancer immunotherapy targets, especially when combined with immune checkpoint inhibitors (CPIs). Vaccines using lipid nanoparticle (LNP)-encapsulated mRNA to deliver neoepitopes have shown encouraging results in patients and animal models, due to T cell-dependent responses. However, a low mutational burden is often a predictor of poor CPI response: the immune response against the few available mutations can be insufficient. An enhanced response to these few mutations could increase CPI efficacy. Here, we investigate the potential of oligoDOM™, a self-assembling sequence, to improve neoepitope immunogenicity and antitumor efficacy in murine cancer models. LNP-formulated mRNA constructs encoding short epitope strings fused with oligoDOM™ were tested. Immune responses in mice were compared between constructs with oligoDOM™ and their…
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Taxonomy
TopicsCancer Immunotherapy and Biomarkers · Immunotherapy and Immune Responses · CAR-T cell therapy research
