강세병 교수 연구실 | UNIST 생명과학과

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전체 논문

244

Effective in vivo delivery of diphtheria toxin using protein cage nanoparticles for targeted cancer therapy.

Eom, S., Park, S. G., Jun, H., Kim, Y., Lee, H. B., and Kang, S.,*

Acta Biomater, 2025

CD7-Targeted Cytotoxic Potency of Diphtheria Toxin- and Ricin-based Immunotoxins in Targeted Therapy for T-Cell Acute Lymphoblastic Leukemia.

Lee, H. B., Park, S. G., Kim, H. J., Jeon, J. P., Oh, S., Lee, S., Park, S. H., and Kang, S.,*

Mol. Pharm., 2025

Protein Nanoparticles Simultaneously Displaying TRAIL and EGFR-Binding Ligands Effectively Induce Apoptotic Cancer Cell Death and Overcome EGFR-TKI Resistance in Lung Cancer.

Kim, Y.,*, Kim, J., Eom, S., Jun, H., Lee, H. B., Jeong, D., and Kang, S.,*

ACS Appl. Mater. Interfaces, 2025

Development of plug-and-deliverable intracellular protein delivery platforms based on botulinum neurotoxin.

Park, S. G.,#, Lee, H. B.,#, and Kang, S.*

Int. J. Biol. Macromol., 2024

Protein cage nanoparticle-based NK cell-engaging nanodrones (NKeNDs) effectively recruit NK cells to target tumor sites and suppress tumor growth.

Park, S. G.,#, Kim, H. J.,#, Lee, H. B., Eom, S., Jun, H., Jang, Y., Park, S. H.*, and Kang, S.*

Nano Today, 2024

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.

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., Kang, S.

Nano Today, 2025

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.

Lee, H. B., Park, S. G., Kim, H. J., Jeon, J. P., Oh, S., Lee, S., Park, S. H., Kang, S.

Mol. Pharm., 2025

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.

Jun, H., Yeo, M., Jeon, J. P., Eom, S., Kim, H. J., Kim, Y., Jang, E., Park, S. H., Kim, E., Kang, S.

Nano Today, 2024

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.

Park, S. G., Kim, H. J., Lee, H. B., Eom, S., Jun, H., Jang, Y., Park, S. H., Kang, S.

Nano Today, 2024

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.

Choi, H., Yeo, M., Kang, Y., Kim, H. J., Park, S. G., Jang, E., Park, S. H., Kim, E., Kang, S.

J. Nanobiotechnology, 2023