Publication

4D BioManufacturing Lab

Journal

Plant-Derived Anti-Human Epidermal Growth Factor Receptor 2 Antibody Suppresses Trastuzumab-Resistant Breast Cancer with Enhanced Nanoscale Binding
Author
Chanyong Park, Kibum Kim, Yerin Kim, Rong Zhu, Lisa Hain, Hannah Seferovic, Min-Hyeok Kim, Hyun Joo Woo, Hyunju Hwang, Seung Ho Lee, Sangmin Kim, Jeong Eon Lee, Peter Hinterdorfer, Kisung Ko*, Sungsu Park*, and Yoo Jin Oh*
Journal
ACS Nano
Page
(IF=17.1)
Year
2024

Abstract


Traditional monoclonal antibodies such as Trastuzumab encounter limitations when treating Human Epidermal Growth Factor Receptor 2 (HER2)-positive breast cancer, particularly in cases that develop resistance. This study introduces plant-derived anti-HER2 variable fragments of camelid heavy chain domain (VHH) fragment crystallizable region (Fc) KEDL(K) antibody as a potent alternative for overcoming these limitations. A variety of biophysical techniques, in vitro assays, and in vivo experiments uncover the antibody’s nanoscale binding dynamics with transmembrane HER2 on living cells. Single-molecule force spectroscopy reveals the rapid formation of two robust bonds, exhibiting approximately 50 pN force resistance and bond lifetimes in the second range. The antibody demonstrates a specific affinity for HER2-positive breast cancer cells, including those that are Trastuzumab-resistant. Moreover, in immune-deficient mice, the plant-derived anti-HER2 VHH-FcK antibody exhibits superior antitumor activity, especially against tumors that are resistant to Trastuzumab. These findings underscore the plant-derived antibody’s potential as an impactful immunotherapeutic strategy for treating Trastuzumab-resistant HER2-positive breast cancer.



관련기사: https://www.newsis.com/view/NISX20240701_0002793740

3d46be60d3234aac9bd214446b4fa5e8_1716872783_7566.jpg
 

 

24e5aae467aeaf94b1a9e22ae1b644f1_1716253093_6214.jpeg