Hydrophilic interaction liquid chromatography for dalargin separation from its structural analogues and side products

- For positively charged peptides a mixed-mode mechanism combining electrostatic interaction and HILIC occur.
- The HILIC stationary phase (Bare Atlantis silica) allows an efficient separation of Dalargin from its closely related peptides.
- By coupling the HILIC column with ESI-MS, the amino-acids sequence of Dalargine and its side-product have been determined.

Retention behaviour of Dalargin and five peptide analogues of Leu-enkephalin, has been extensively studied by hydrophilic interaction liquid chromatography (HILIC) on a bare silica stationary phase (Atlantis® HILIC silica). The influence of buffer pH, ionic strength, and organic modifier content on peptide retentions was examined. Variation of organic modifier content (70-90% ACN) shows that, as expected, the most polar peptide, Dalargin, is the most retained. Moreover, at acidic pH, the retention mechanism for all the peptides studied seems to rely, mainly, on adsorption phenomenon. By varying the pswH buffer (between 4.4-7.5), we observed that the retention of all the peptides was mainly governed by their total number of charges, whatever the variation (increase or decrease) of their retention factor. At pswH 7.5, an increase of the cationic counter-ion concentration (NH4+) lead to a decrease of the retention factor of Dalargin, suggesting a weak cation exchange for this peptide. For the other peptides, the variation of the retention factors was negligible between 5-15 mM. Above 15 mM, the retention factors of all the peptides increased, probably due to an increase of the water layer thickness at the surface of the stationary phase. In the second part of the study, qualitative analysis of non-purified dalargin, resulting from solid-phase synthesis, was realized. Optimisation of the separation of the target peptide from its side products has been first performed with UV detection. Then, by coupling the HILIC column with ESI-MS, using the optimal separation conditions, it was possible to identify Dalargin and to propose the amino-acids sequence of its side-products.