Abstract
Expression of disialoganglioside GD2 in normal tissues is primarily limited to the central nervous system, peripheral sensory nerve fibers, dermal melanocytes, lymphocytes, and mesenchymal stem cells. Its widespread overexpression in various cancer types allows it to be classified as a tumor-associated antigen with potential diagnostic and therapeutic implications. This article reviews the synthesis pathways of GD2 and its role in cancer cell adhesion, proliferation, and metastasis with a focus on breast cancer. GD2 appears to be overexpressed on the outer membrane of most breast cancer cells and breast cancer stem cells (BCSCs) and is closely linked to epithelial-mesenchymal transition (EMT). GD3 synthase (GD3S) is considered to be the rate-determining step in GD2 synthesis. Clinical studies indicate that GD2 expression is increased in 35-70% of breast cancer samples, with higher levels in triple-negative breast cancer (TNBC). This overexpression correlates with more aggressive tumor features and worse prognosis. Therapeutic targeting of GD2 with monoclonal antibodies (moABs) like dinutuximab and naxitamab has demonstrated anti-cancer activity in preclinical cancer models and human clinical trials against high-risk neuroblastoma reducing tumor growth and enhancing survival. GD2-specific chimeric antigen receptor (CAR) T-cell therapy and GD3S inhibition present other promising therapeutic strategies to improve clinical outcomes. Furthermore, GD2-targeted vaccines are currently being investigated in cancer therapy. This narrative review article underscores the critical role of GD2 in breast cancer pathogenesis and highlights the promising therapeutic opportunities it offers. It advocates for the initiation of clinical trials to further explore the potential of GD2-targeted treatment in combination with standard breast cancer therapies.
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