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Protein scaffolds: antibody alternatives for cancer diagnosis and therapy

Renli Luo, Hongguang Liu, Zhen Cheng

2022RSC Chemical Biology60 citationsDOIOpen Access PDF

Abstract

metabolic retention, potential cytotoxicity, patent limitation, and high production cost. These issues have led scientists to explore and develop novel antibody alternatives. Protein scaffolds are small monomeric proteins with stable tertiary structures and mutable residues, which emerged in the 1990s. By combining robust gene engineering and phage display techniques, libraries with sufficient diversity could be established for target binding scaffold selection. Given the properties of small size, high affinity, and excellent specificity and stability, protein scaffolds have been applied in basic research, and preclinical and clinical fields over the past two decades. To date, more than 20 types of protein scaffolds have been developed, with the most frequently used being affibody, adnectin, ANTICALIN®, DARPins, and knottin. In this review, we focus on the protein scaffold applications in cancer therapy and diagnosis in the last 5 years, and discuss the pros and cons, and strategies of optimization and design.

Topics & Concepts

AntibodyCancer therapyAntibody therapyIn vivoCancerCytotoxicityMedicineCancer researchImmunologyChemistryMonoclonal antibodyBiologyBiotechnologyIn vitroInternal medicineBiochemistryMonoclonal and Polyclonal Antibodies ResearchBacteriophages and microbial interactionsProtein purification and stability