Enhancing Oral Delivery of Biologics: A Non-Competitive and Cross-Reactive Anti-Leptin Receptor Nanofitin Demonstrates a Gut-Crossing Capacity in an Ex Vivo Porcine Intestinal Model
Solene Masloh,
Anne Chevrel,
Maxime Culot,
Anaëlle Perrocheau,
Yogeshvar N. Kalia,
Samuel Frehel,
Rémi Gaussin,
Fabien Gosselet,
Simon Huet,
Magali Zeisser Labouebe,
Leonardo Scapozza
Affiliations
Solene Masloh
Blood Brain Barrier Laboratory, Faculty of Science Jean Perrin, Artois University, UR 2465, Rue Jean Souvraz, 62300 Lens, France
Anne Chevrel
Affilogic, 24 Rue de la Rainière, 44300 Nantes, France
Maxime Culot
Blood Brain Barrier Laboratory, Faculty of Science Jean Perrin, Artois University, UR 2465, Rue Jean Souvraz, 62300 Lens, France
Anaëlle Perrocheau
Affilogic, 24 Rue de la Rainière, 44300 Nantes, France
Yogeshvar N. Kalia
School of Pharmaceutical Sciences, University of Geneva, 1 Rue Michel Servet, 1201 Geneva, Switzerland
Samuel Frehel
Affilogic, 24 Rue de la Rainière, 44300 Nantes, France
Rémi Gaussin
Affilogic, 24 Rue de la Rainière, 44300 Nantes, France
Fabien Gosselet
Blood Brain Barrier Laboratory, Faculty of Science Jean Perrin, Artois University, UR 2465, Rue Jean Souvraz, 62300 Lens, France
Simon Huet
Affilogic, 24 Rue de la Rainière, 44300 Nantes, France
Magali Zeisser Labouebe
School of Pharmaceutical Sciences, University of Geneva, 1 Rue Michel Servet, 1201 Geneva, Switzerland
Leonardo Scapozza
School of Pharmaceutical Sciences, University of Geneva, 1 Rue Michel Servet, 1201 Geneva, Switzerland
Biotherapeutics exhibit high efficacy in targeted therapy, but their oral delivery is impeded by the harsh conditions of the gastrointestinal (GI) tract and limited intestinal absorption. This article presents a strategy to overcome the challenges of poor intestinal permeability by using a protein shuttle that specifically binds to an intestinal target, the leptin receptor (LepR), and exploiting its capacity to perform a receptor-mediated transport. Our proof-of-concept study focuses on the characterization and transport of robust affinity proteins, known as Nanofitins, across an ex vivo porcine intestinal model. We describe the potential to deliver biologically active molecules across the mucosa by fusing them with the Nanofitin 1-F08 targeting the LepR. This particular Nanofitin was selected for its absence of competition with leptin, its cross-reactivity with LepR from human, mouse, and pig hosts, and its shuttle capability associated with its ability to induce a receptor-mediated transport. This study paves the way for future in vivo demonstration of a safe and efficient oral-to-systemic delivery of targeted therapies.
