Sub/supercritical fluid chromatography employing water-rich modifier enables the purification of biosynthesized human insulin.

There is a paucity of knowledge surrounding the SFC purification of human insulin. The current conventional method of insulin purification involves traditional RP-HPLC that utilises copious amounts of toxic solvents. In this study, we envisaged the development of an environmentally friendly SFC method for biosynthesized human insulin purification. Various commercially available SFC columns derived with silica, 2'ethyl pyridine, diol-HILIC, and the PFP functionalities were evaluated to determine the optimal stationary phase for purification. The PFP column gave the best results with respect to efficiencies of this important biologic that yielded average recoveries of 84%. LC-MS was used to initially detect and quantify the SFC purified standard sample of insulin (purchased) as well as the biosynthesized version. Protein sequencing was employed to verify the amino acid sequencing of the insulins; as such, the standard had a 90% probability to human insulin from the database, whereas the biosynthesized version had a 96% probability. The biological activities of both versions of the SFC purified proteins were assessed in vitro using a MTT assay. The results indicated that the biological activities of both samples were retained subsequent to SFC purification. This study successfully proposes a greener and more efficient method for the purification of insulin derivatives.