Comprehensive Profiling of Cell Surface Proteins in Testicular Germ Cell Tumors
Hedyeh Ebrahimi, Ali Moradi, Regina Barragan-Carrillo, Miguel Zugman, Salvador Jaime-Casas, Koral Shah, Daniela Castro, Benjamin Mercier, Xiaochen Li, Joann Hsu, Peter D. Zang, Charles B. Nguyen, Abhishek Tripathi, Ali Zhumkhawala, Sumanta Kumar. Pal, Evita Sadimin, Tanya Dorff, Alex Chehrazi-RaffleAbstract
To characterize clinically actionable cell surface proteins in testicular germ cell tumors (GCTs), we retrospectively analyzed archival formalin-fixed paraffin-embedded orchiectomy specimens from 30 patients, including 11 with pure seminoma and 19 with mixed GCTs. Immunohistochemistry was performed for 21 surface antigens using an automated platform. Staining intensity (0-3+) and percentage of positive tumor cells were used to derive H-scores (0-300). Expression was summarized by patient classification and histologic component; high expression was defined as H-score ≥100. CLDN6 was diffusely and strongly expressed, with H-score ≥100 in 100% of pure seminomas and 89.5% of mixed GCTs. At the component level, 100% of seminoma and 92.9% of embryonal carcinoma samples reached this threshold. EGFR showed high expression in 68.4% of mixed GCTs and 45.5% of pure seminomas, with most enrichment in teratoma components (73.3% ≥100; mean H-score 212.0). TROP2 was markedly upregulated in mixed GCTs (78.9% ≥100; mean 194.7), particularly in teratoma components (86.7% ≥100). Nectin-4 and GPNMB were expressed in smaller but notable subsets, including teratoma and seminoma, whereas most remaining antigens, including CD19, DLL3, FOLR1, and BCMA, showed minimal or no expression. These findings demonstrate a distinct surface antigen landscape in testicular GCTs, with CLDN6, EGFR, and TROP2 emerging as leading candidates for further translational evaluation. Enrichment of these targets highlights antigenic heterogeneity within GCTs and supports further validation in appropriate disease settings including metastatic, post-treatment, and relapsed or refractory disease.