Bispecific Nanobody‐Aptamer Conjugates for Enhanced Cancer Therapy in Solid Tumors

Author:

Wang Ya12,Chen Jie1,Zhang Sen12,Jiang Hang2,Zhu Jianqing2,Jiang Guangyi2,Liu Yichang3,Zhu Yingdi2,Li Juan12ORCID

Affiliation:

1. School of Chemistry and Materials University of Science and Technology of China Hefei 230026 China

2. Zhejiang Cancer Hospital The Key Laboratory of Zhejiang Province for Aptamers and Theranostics Hangzhou Institute of Medicine (HIM) Chinese Academy of Sciences Hangzhou 310022 China

3. School of Pharmacy Nantong University Nantong 226019 China

Abstract

AbstractBispecific antibodies possess exceptional potential as therapeutic agents due to their capacity to bind to two different antigens simultaneously. However, challenges pertain to unsatisfactory stability, manufacturing complexity, and limited tumor penetration hinder their broad applicability. In this study, a versatile technology is presented for the rapid generation of bispecific nanobody‐aptamer conjugates with efficient tumor penetration. The approach utilizes microbial transglutaminase (MTGase) and click chemistry to achieve site‐specific conjugation of nanobodies and aptamers, which are termed nanotamers. The nanotamers recognize and bind to two types of molecular targets expressed on cancer cells. As a prototype, a bispecific nanotamer is developed that binds both clusters of differentiation 47 (CD47) and mesenchymal epithelial transition receptor (Met) expressed on the tumor cell membrane. This CD47‐Met nanotamer demonstrates high affinity and specificity toward tumor cells expressing both targets, exhibits improved receptor functional inhibition through a strong steric hindrance effect. Moreover, its capacity for deep tumor penetration greatly enhances the impact of conventional chemotherapy on antitumor efficacy. The as‐developed nanotamer synthesis approach shows promise to customize bispecific molecular probes targeting different cancer types and different therapeutic goals.

Funder

National Natural Science Foundation of China

National Key Research and Development Program of China

Publisher

Wiley

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