Lipeo-sCT: A novel reversible lipidized salmon calcitonin derivative, its biophysical properties and hypocalcemic activity

We have previously described the design and synthesis of Mal-sCT and compared its biological activity with its reversible counterpart, REAL-sCT. Mal-sCT was salmon calcitonin (sCT) conjugated with two molecules of an ɛ-maleimido lysine derivative of palmitic acid via non-reversible thioether bonds at its cysteine residues while REAL-sCT was sCT conjugated with two molecules of a cysteine derivative of palmitic acid via reducible disulfide bonds at its cysteine residues. Neither compounds when dissolved in water could reproducibly improved the oral deliverability of sCT. The purpose of this study was to characterize and evaluate Lipeo-sCT, a novel sCT analog conjugated via reducible disulfide bonds with two amphiphilic groups consisting of a hydrophobic hexadecyl moiety attached via an ether bond to a hydrophilic triethylene glycol moiety. Lipeo-sCT was successfully synthesized by a 4-step reaction, purified and identified by ESI–MS. Analysis by dynamic light scattering (DLS) and transmission electron microscopy (TEM) suggested it had a propensity to form aggregates in water, although the aggregation behavior was controllable by modulating solvent polarity. MTT (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) assay indicated a lack of cytotoxicity against the Caco-2 cells at up to 100 μM. Compared with sCT, Lipeo-sCT lowered plasma calcium to comparable levels when injected subcutaneously at 0.15 mg/kg into female Wistar rats, but the hypocalcemic activity of Lipeo-sCT was prolonged by at least 6 more hours. This was attributable to a continual regeneration of sCT from Lipeo-sCT. sCT was detectable in plasma 8 h following subcutaneous injection of Lipeo-sCT (1.90 mg/kg), while Lipeo-sCT was not observed in plasma at all time points. By comparison, sCT was detectable in plasma for less than 2.5 h following subcutaneous injection at an equivalent dose (1.50 mg/kg). Data from this study complement those of previous studies, and add to the body of knowledge correlating the in vivo activity of lipidized peptides to their physical properties.