2020 EJRNL PP Lilong Sun -1.pdf
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Terbatas Irwan Sofiyan
» ITB
Terbatas Irwan Sofiyan
» ITB
Salmon calcitonin (sCT) is a potent calcium-regulating peptide hormone
and widely applied for the treatment of some bone diseases clinically. However, the
therapeutic usefulness of sCT is hindered by the frequent injection required, owing to its
short plasma half-life and therapeutic need for a high dose. Oral delivery is a popular
modality of administration for patients because of its convenience to self-administration
and high patient compliance, while orally administered sCT remains a great challenge
currently due to the existence of multiple barriers in the gastrointestinal (GI) tract. Here,
we introduced an orally targeted delivery system to increase the transport of sCT across
the intestine through both the paracellular permeation route and the bile acid pathway. In
this system, sCT-based glycol chitosan-taurocholic acid conjugate (GC-T)/dextran
sulfate (DS) ternary nanocomplexes (NC-T) were produced by a flash nanocomplexation
(FNC) process in a kinetically controlled mode. The optimized NC-T exhibited wellcontrolled
properties with a uniform and sub-60 nm hydrodynamic diameter, high batchto-
batch reproducibility, good physical or chemical stability, as well as sustained drug
release behaviors. The studies revealed that NC-T could effectively improve the intestinal uptake and permeability, owing to its surface functionalization with the taurocholic acid ligand. In the rat model, orally administered NC-T showed an obvious hypocalcemia effect and a relative oral bioavailability of 10.9%. An in vivo assay also demonstrated that NC-T induced no observable side effect after long-term oral administration. As a result, the orally targeted nanocomplex might be a promising candidate for
improving the oral transport of therapeutic peptides.