Recombinant gut hormone oxyntomodulin (OXM) is known to act as a satiety signal in human subjects and has therapeutic potential as an appetite controlling agent. The only form of this hormone that has a prospective use is a modified one, because native OXM has a very short half-life in vivo. Conjugation of OXM and the natural hydrophilic polymer polysialic acid (PSA) may significantly improve its half-life. Chemical polysialylation in vitro was used to create a long-acting form of OXM, the polysialic acid-oxyntomodulin (PSA-OXM) conjugate. The conjugation site was identified using mass shift comparative analysis of Asp-N proteolytic digests. The anorexic effect of the conjugate was tested on the lean, fasted mouse model. A two-stage purification technique was developed to obtain a homogeneous PSA-OXM conjugate, suitable for in vivo testing. The N-terminal backbone primary amino group was found to be the only point of conjugation. The conjugate obtained was resistant to the DPP-IV protease. A single injection of PSA-OXM at 15 μmol/kg dose was sufficient to maintain a steady decrease in food consumption for 8 h (P < 0.05). The length of the anorexic effect achieved is comparable to other long-acting derivatives of OXM but it requires a much higher dose for administration. It is expected that site-directed attachment of the PSA chain to the inner residues of OXM, away from the site of interaction with receptors, would produce a compound with a higher specific activity but comparable stability in the bloodstream. The conjugation technique used may be used to create OXM derivatives and other related hormones to obtain long-lasting variants, with improved suitability for clinical use.
Copyright © 2012 Elsevier Masson SAS. All rights reserved.