Transcellular stomach absorption of a derivatized glucagon-like peptide-1 receptor agonist

Stephen T. Buckley; Tine A. Bækdal; Andreas Vegge; Stine Maarbjerg; Charles Pyke; Jonas Ahnfelt‐Rønne; K. Madsen; Susanne G. Schéele; Tomas Alanentalo; Rikke Kaae Kirk; Betty Lomstein Pedersen; Rikke Bjerring Skyggebjerg; Andrew J. Benie; Holger M. Strauss; Per‐Olof Wahlund; Simon Bjerregaard; Erzsébet Farkas; Csaba Fekete; Flemming L. Søndergaard; Jeanett Borregaard; Marie‐Louise Hartoft‐Nielsen; Lotte Bjerre Knudsen

doi:10.1126/scitranslmed.aar7047

Transcellular stomach absorption of a derivatized glucagon-like peptide-1 receptor agonist

Stephen T. Buckley(Novo Nordisk (Denmark)), Tine A. Bækdal(Novo Nordisk (Denmark)), Andreas Vegge(Novo Nordisk (Denmark)), Stine Maarbjerg(Novo Nordisk (Denmark)), Charles Pyke(Novo Nordisk (Denmark)), Jonas Ahnfelt‐Rønne(Novo Nordisk (Denmark)), K. Madsen(Novo Nordisk (Denmark)), Susanne G. Schéele(Novo Nordisk (Denmark)), Tomas Alanentalo(Novo Nordisk (Denmark)), Rikke Kaae Kirk(Novo Nordisk (Denmark)), Betty Lomstein Pedersen(Novo Nordisk (Denmark)), Rikke Bjerring Skyggebjerg(Novo Nordisk (Denmark)), Andrew J. Benie(Novo Nordisk (Denmark)), Holger M. Strauss(Novo Nordisk (Denmark)), Per‐Olof Wahlund(Novo Nordisk (Denmark)), Simon Bjerregaard(Novo Nordisk (Denmark)), Erzsébet Farkas(HUN-REN Institute of Experimental Medicine), Csaba Fekete(Tufts Medical Center), Flemming L. Søndergaard(Novo Nordisk (Denmark)), Jeanett Borregaard(Novo Nordisk (Denmark)), Marie‐Louise Hartoft‐Nielsen(Novo Nordisk (Denmark)), Lotte Bjerre Knudsen(Novo Nordisk (Denmark))

Science Translational Medicine

November 14, 2018

10.1126/scitranslmed.aar7047

Cited by 505

Abstract

-[8-(2-hydroxybenzoyl) aminocaprylate] (SNAC) in a tablet. In contrast to intestinal absorption usually seen with small molecules, clinical and preclinical dog studies revealed that absorption of semaglutide takes place in the stomach, is confined to an area in close proximity to the tablet surface, and requires coformulation with SNAC. SNAC protects against enzymatic degradation via local buffering actions and only transiently enhances absorption. The mechanism of absorption is shown to be compound specific, transcellular, and without any evidence of effect on tight junctions. These data have implications for understanding how highly efficacious and specific therapeutic peptides could be transformed from injectable to tablet-based oral therapies.

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