Research Assistant Professor (2023. 10 ~ present)
5. Kim, Y.,* Mun, J., Kim, E., Roh, H., Eom, S., Jun, H., Kim, H. J., Kim, M., Jeon, J. P., Park, S. H., Min, D.,* and Kang, S.,* Compact clustering of highly oligomerized anti-DR5 nanobodies effectively drives apoptotic cancer cell death, significantly suppressing tumor growth . Nano Today, 2025, 65, 102834.
4. Lee, H. B., Park, S. G., Kim, H. J., Jeon, J. P., Oh, S., Lee, S., Park, S. H., and Kang, S.,* CD7-Targeted Cytotoxic Potency of Diphtheria Toxin- and Ricin-based Immunotoxins in Targeted Therapy for T-Cell Acute Lymphoblastic Leukemia. Mol. Pharm., 2025, 22, 3255-3267.
3. Jun, H., Yeo, M., Jeon, J. P., Eom, S., Kim, H. J., Kim, Y., Jang, E., Park, S. H., Kim, E., and Kang, S.* CD13-targeting and TRAIL-displaying Protein Nanoparticles Effectively Induce Apoptotic Cell Death of Acute Myeloid Leukemia, Prolonging Survival in Mouse Models. Nano Today, 2024, 59, 102474.
2. Park, S. G.,# Kim, H. J.,# Lee, H. B., Eom, S., Jun, H., Jang, Y., Park, S. H.* and Kang, S.* Protein cage nanoparticle-based NK cell-engaging nanodrones (NKeNDs) effectively recruit NK cells to target tumor sites and suppress tumor growth. Nano Today, 2024, 54, 102075.
# Equal contribution.
1. Choi, H., Yeo, M., Kang, Y., Kim, H. J., Park, S. G., Jang, E., Park, S. H.,* Kim, E.,* and Kang, S.* Lactate Oxidase/Catalase-displaying Nanoparticles Efficiently Consume Lactate in the Tumor Microenvironment to Effectively Suppress Tumor Growth. J. Nanobiotechnology, 2023, 21, 5.Â