Camelid-Derived Nanobodies Targeting Human Epidermal Growth Factor Receptor: Screening, Expression, and Functional Validation
Yunfeng Liu, Qiting Huang, Dongna Zhang, Yingjun Wang, Shuaiying Zhao, Jianchuan Wen, Yingying Kong, Jianfeng Xu

TL;DR
This study develops and validates nanobodies targeting the EGFR receptor, a key player in cancer, showing their potential for research and therapeutic applications.
Contribution
The study introduces two novel EGFR-specific nanobodies with distinct epitopes and functional activity in suppressing cell proliferation.
Findings
Two EGFR-specific nanobodies, Nb2H4 and Nb2B6, were successfully isolated and shown to bind distinct epitopes.
Nb2H4 significantly suppressed EGF-induced proliferation in an EGFR-overexpressing cell model.
The nanobodies exhibited favorable binding affinities and recognized EGFR in its native cellular context.
Abstract
Objectives: The epidermal growth factor receptor (EGFR) is a clinically relevant membrane receptor that is frequently overexpressed or dysregulated in multiple types of cancer, making it an important target for antibody-based strategies. Nanobodies, derived from camelid heavy-chain antibodies, possess favorable properties such as small size, high stability, and strong antigen-binding capacity. This study aimed to generate EGFR-specific nanobodies and to systematically characterize their binding properties and initial functional activity. Methodology: Bactrian camels were immunized with a whole-cell antigen prepared from 293F cells transiently transfected to express full-length human EGFR. A high-diversity phage display nanobody library was constructed from peripheral blood lymphocytes. After two rounds of biopanning against EGFR, positive clones were screened and selected. The…
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Taxonomy
TopicsMonoclonal and Polyclonal Antibodies Research · HER2/EGFR in Cancer Research · Biochemical and Structural Characterization
