- VernacularTitle:靶向受体酪氨酸激酶RON的抗体药物偶联物及其抗癌作用
- Author:
Ting SUN
1
;
Hang-Ping YAO
1
Author Information
- Publication Type:Journal Article
- Keywords: RON; receptor tyrosine kinases (RTKs); antibody-drug conjugates (ADCs)
- From: Progress in Biochemistry and Biophysics 2026;53(6):1638-1655
- CountryChina
- Language:Chinese
- Abstract: Receptor tyrosine kinases (RTKs) are a class of transmembrane cell surface enzyme-linked receptors that play essential roles in various cellular life processes under normal physiological conditions. Dysregulation of RTKs and their signaling pathways is closely associated with multiple human diseases, including cancer. RON is a member of the RTK family. When RON is abnormally expressed, it can actively drive the proliferation, metastasis, and epithelial-mesenchymal transition of cancer cells through complex downstream signal transduction pathways, thereby contributing to the occurrence and subsequent development process of various types of cancers. Consequently, RON is regarded as a potent target for cancer targeted therapy. In recent years, as RTKs have gradually become popular candidate targets for antibody-drug conjugates (ADCs), a variety of ADCs targeting RON have been successfully developed and studied. To highlight the therapeutic potential of anti-RON ADCs in cancer treatment and to provide a foundation for further development and clinical research of them, this article summarized the selected components and construction strategies of existing anti-RON ADCs, and systematically reviewed their in vitro and in vivo anticancer efficacy, as well as their pharmacological and toxicological characteristics. Anti-RON ADCs demonstrated favorable stability both in vitro and in vivo. In cellular models, anti-RON ADCs carrying different payloads all exhibited potent cytotoxic effects. In animal models, anti-RON ADCs have convincingly demonstrated significant anti-cancer activity, with stable pharmacological properties and manageable toxicity at therapeutic doses. Anti-RON ADCs have a number of distinct therapeutic advantages. Compared with ADCs targeting other RTKs, anti-RON ADCs have unique effects in regulating the immune microenvironment and can potentially provide additional therapeutic options for overcoming drug resistance. Compared with RON antibodies and small molecule inhibitors, anti-RON ADCs do not rely on the RON signaling pathways, thereby significantly enhancing therapeutic efficacy. Moreover, anti-RON ADCs show therapeutic potential for targeting RON variants. In summary, the results of basic researches indicated that anti-RON ADCs have favorable anti-cancer effects and show promising clinical translation prospects. In addition, this article analyzed the current limitations of anti-RON ADCs and emphatically discussed their future development directions. The payloads of the existing anti-RON ADCs are relatively limited, and the drug-to-antibody ratio (DAR) of each ADC is not uniform. There also remains considerable room for improvement in terms of endocytosis efficiency and drug combination strategies. Therefore, the development of the next-generation anti-RON ADCs should focus on the diversification of the payloads, and explore new types of ADCs, dual-load ADCs, etc. Additionally, the structure of antibodies or ADCs could be optimized to enhance the endocytosis efficiency and progressively overcome current limitations. At present, anti-RON ADCs are limited to basic research, and the current research outcomes and observations indicated their potential for clinical application. Therefore, the clinical translation of anti-RON ADCs will be an important objective for future development. To this end, it is necessary to carefully devise a rational clinical translation pathway for anti-RON ADCs, and comprehensively evaluate the potential challenges that may arise during the implementation, so as to accelerate the initiation of clinical trials. Ultimately, clinical application of anti-RON ADCs will be realized, providing more treatment options for cancer patients.

