Litcius/Paper detail

NANOBODY® Molecule, a Giga Medical Tool in Nanodimensions

Sarah Kunz, Manon Durandy, Laetitia Seguin, Chloé C. Féral

2023International Journal of Molecular Sciences33 citationsDOIOpen Access PDF

Abstract

Although antibodies remain the most widely used tool for biomedical research, antibody technology is not flawless. Innovative alternatives, such as Nanobody® molecules, were developed to address the shortcomings of conventional antibodies. Nanobody® molecules are antigen-binding variable-domain fragments derived from the heavy-chain-only antibodies of camelids (VHH) and combine the advantageous properties of small molecules and monoclonal antibodies. Nanobody® molecules present a small size (~15 kDa, 4 nm long and 2.5 nm wide), high solubility, stability, specificity, and affinity, ease of cloning, and thermal and chemical resistance. Recombinant production in microorganisms is cost-effective, and VHH are also building blocks for multidomain constructs. These unique features led to numerous applications in fundamental research, diagnostics, and therapy. Nanobody® molecules are employed as biomarker probes and, when fused to radioisotopes or fluorophores, represent ideal non-invasive in vivo imaging agents. They can be used as neutralizing agents, receptor-ligand antagonists, or in targeted vehicle-based drug therapy. As early as 2018, the first Nanobody®, Cablivi (caplacizumab), a single-domain antibody (sdAb) drug developed by French pharmaceutical giant Sanofi for the treatment of adult patients with acquired thrombocytopenic purpura (aTTP), was launched. Nanobody® compounds are ideal tools for further development in clinics for diagnostic and therapeutic purposes.

Topics & Concepts

Single-domain antibodyMonoclonal antibodyAntibodyRecombinant DNAChemistryComputational biologyMolecular biologyBiologyBiochemistryImmunologyGeneMonoclonal and Polyclonal Antibodies ResearchGlycosylation and Glycoproteins ResearchProtein purification and stability