Details

Autor(en) / Beteiligte

• Cantante, Cátia
• Lourenço, Sara
• Morais, Maurício
• Leandro, João
• Gano, Lurdes
• Silva, Nuno
• Leandro, Paula
• Serrano, Mónica
• Henriques, Adriano O.
• Andre, Ana
• Cunha-Santos, Catarina
• Fontes, Carlos
• Correia, João D.G.
• Aires-da-Silva, Frederico
• Goncalves, Joao

Titel

Albumin-binding domain from Streptococcus zooepidemicus protein Zag as a novel strategy to improve the half-life of therapeutic proteins

Ist Teil von

• Journal of biotechnology, 2017-07, Vol.253, p.23-33

Ort / Verlag

Netherlands: Elsevier B.V

Erscheinungsjahr

2017

Link zum Volltext

Quelle

MEDLINE

Beschreibungen/Notizen

• •Re-engineering antibodies fragments to bind serum albumin can be an effective approach to improve their pharmacokinetic properties.•The albumin-binding domain from Streptococcus zooepidemicus protein ZAG can increase the half-life of a therapeutic antibody fragment 39 folds.•The Zag ABD fusion strategy can be used as a universal half-life extension method to improve the pharmokinetics properties of therapeutic proteins. Recombinant antibody fragments belong to the promising class of biopharmaceuticals with high potential for future therapeutic applications. However, due to their small size they are rapidly cleared from circulation. Binding to serum proteins can be an effective approach to improve pharmacokinetic properties of short half-life molecules. Herein, we have investigated the Zag albumin-binding domain (ABD) derived from Streptococcus zooepidemicus as a novel strategy to improve the pharmacokinetic properties of therapeutic molecules. To validate our approach, the Zag ABD was fused with an anti-TNFα single-domain antibody (sdAb). Our results demonstrated that the sdAb-Zag fusion protein was highly expressed and specifically recognizes human, rat and mouse serum albumins with affinities in the nanomolar range. Moreover, data also demonstrated that the sdAb activity against the therapeutic target (TNFα) was not affected when fused with Zag ABD. Importantly, the Zag ABD increased the sdAb half-life ∼39-fold (47min for sdAb versus 31h for sdAb-Zag). These findings demonstrate that the Zag ABD fusion is a promising approach to increase the half-life of small recombinant antibodies molecules without affecting their therapeutic efficacy. Moreover, the present study strongly suggests that the Zag ABD fusion strategy can be potentially used as a universal method to improve the pharmokinetics properties of many others therapeutics proteins and peptides in order to improve their dosing schedule and clinical effects.