Abstract
Gangliosides, a class of glycosphingolipids located on the plasma membrane of nearly all cells, play a crucial role in cell signaling and lipid raft dynamics. Their expression is notably high during embryonic development, markedly reduced in most adult tissues, but significantly elevated in various tumor tissues. This distinct expression pattern highlights gangliosides as promising therapeutic targets due to their roles in tumor progression, metastasis, and therapeutic resistance. Targeted ganglioside therapies, particularly monoclonal antibodies against GD2, have already demonstrated clinical benefit. Dinutuximab, approved for high-risk neuroblastoma, improved event-free survival when combined with cytokines with standard therapy alone (NCT00026312). Similarly, Naxitamab, in combination with GM-CSF, achieved an overall response rate in relapsed/refractory neuroblastoma (NCT03363373). Beyond antibodies, emerging GD2-targeted cellular immunotherapies, including CAR-T cell approaches, have shown promising early-phase clinical responses in refractory neuroblastoma and sarcomas, underscoring their translational potential. Additionally, Racotumomab (anti-NeuGcGM3) demonstrated a survival benefit in advanced non-small cell lung cancer, extending median overall survival compared to placebo (NCT01240447). Despite these advances, challenges remain in improving patient selection, reducing off-target toxicities such as neuropathic pain, and addressing resistance mechanisms. This review examines the latest developments in ganglioside-mediated cancer therapy, emphasizing current clinical outcomes, highlighting the need for more precise targeting approaches, and exploring rational combination strategies to enhance therapeutic efficacy.