In vivo proof of concept of oral insulin delivery based on a co-administration strategy with the cell-penetrating peptide penetratin

Oral delivery of insulin is blocked by low intestinal absorption caused by the poor permeability of insulin across cellular membranes and the susceptibility to enzymatic degradation in the gastrointestinal tract. Cell-penetrating peptides (CPPs) have been investigated for a number of years as oral absorption enhancers for hydrophilic macromolecules. Penetratin, a cationic and amphipathic CPP, effectively enhances insulin absorption and we were able to alleviate the enzymatic barrier by using the enzymatic resistant D-form of penetratin. In this study, mice were dosed orally with a physical mixture of insulin and penetratin. Blood glucose concentrations were measured and a pharmacological availability (PA) of 18.2% was achieved in mice dosed with insulin and D-penetratin. Following the promising data, we investigated the degradation parameters of insulin and penetratin in rat intestinal fluid. As expected, L-penetratin was degraded rapidly whereas D-penetratin had a halflife of 67 ± 7 min in 10-fold diluted gastrointestinal fluid. Insulin degradation was slowed by the presence of penetratin in intestinal fluid. The half-life of insulin increased from 24.9 ± 4.5 min to 55.6 ± 14 min and 90.5 ± 11.8 min in the presence of L- and D-penetratin respectively. In conclusion, both Land D-penetratin acted as oral absorption enhancers at select CPP concentrations for insulin and the current study is the first solid evidence of pharmacological activity of oral insulin delivery systems based on non-covalent intermolecular interactions with penetratin.

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