Abstract
Antibodies targeting aberrantly glycosylated proteins are ineffective in treating cancer. Antibody‐drug conjugates have emerged as effective alternatives, facilitating tumor‐specific drug delivery. Previous studies have assessed the aberrantly glycosylated tandem repeat region of MUC1 glycoprotein as three site‐specific glycosylated neoantigen peptide motifs (PDTR, GSTA, and GVTS) for binding with a monoclonal antibody. This study aimed to develop an antibody‐drug conjugate for cancer treatment based on monoclonal antibodies against the aforementioned three neoantigen peptide motifs. Internalization of monoclonal antibodies was assessed via immunofluorescence staining and colocalization with lysosomal markers in live cells. Antibody positivity in tumor and peritumoral tissue samples was assessed via immunohistochemistry. The efficacy of anti‐MUC1 ADCs was evaluated using various cancer cell lines and a mouse tumor xenograft model. An anti‐MUC1 ADC was synthesized by conjugating GSTA neoantigen‐specific 16A with monomethyl auristatin E (MMAE), which displayed potent antitumoral efficacy with an IC50 ranging 0.2–49.4 nM toward various cancer cells. In vivo, 16A‐MMAE inhibited tumor growth in a dose‐dependent manner in a mouse xenograft model established using the NCI‐H838 NSCLC cell line, at a minimum effective dose of 1 mg/kg. At 3 mg/kg, 16A‐MMAE did not cause significant toxicity in a transgenic mouse expressing human MUC1. The high antitumoral efficacy of 16A‐MMAE suggests that aberrant glycosylated MUC1 neoantigen is a potential target for the development of ADCs for treating various cancers. Personalized therapy may be achieved through such glycosite‐specific ADCs.
Highlights
Mucin-1 (MUC1), known as EMA, PEM or CA15-3 antigen, is a transmembrane glycoprotein that has been studied as a significant target for tumor immunotherapy.[1, 2] In healthy cells, MUC1 is a heavily O-glycosylated protein
Internalization and delivery of 16A antibody to lysosomes We have screened a panel of mAbs specific to abnormally glycosylated MUC1 peptide motifs (PDTR, GSTA, GVTS) and focused on 16A mAb.[21]
Positivity of 16A antibody epitope in cancer cells and tissues By flow cytometry analysis, we found that 16A antibody which binds to GSTA neoantigen as we previously reported[21] showed high positivity in 11 NSCLC cell lines (Fig. 2A)
Summary
Mucin-1 (MUC1), known as EMA, PEM or CA15-3 antigen, is a transmembrane glycoprotein that has been studied as a significant target for tumor immunotherapy.[1, 2] In healthy cells, MUC1 is a heavily O-glycosylated protein. Monoclonal antibody therapeutics targeting MUC1 has not shown efficacy in clinical trials.[9, 10] It was hypothesized MUC1 subunit containing the tandem repeats circulates at high levels in cancer patients and acts as a “sink” precluding delivery of antibodies to the tumor cell surface. We and others have dissected the abnormally glycosylated tandem repeat region of MUC1 glycoprotein as three site-specific glycosylated neoantigen peptide motifs (PDTR, GSTA, GVTS) for monoclonal antibody binding. The efficacy of anti-MUC1 ADCs were evaluated with various cancer cell lines and mouse tumor xenograft model. Conclusions: The high antitumoral efficacy of 16A-MMAE suggest that aberrant glycosylated MUC1 neoantigen is a target with high positivity in multiple cancer types for ADC development. Personalized therapy may be achieved by development of glycosite-specific antibody-drug conjugates
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