Isolation and identification of cyclic imide and deamidation products in heat stressed pramlintide injection drug product

Abstract

This report summarizes the identification of six cyclic imide [Asu] and two deamidation products from a sample of pramlintide final drug product that had been stressed at 40°C for 45 days. The pramlintide degradation products were isolated by cation exchange high-performance liquid chromatography (HPLC) followed by reversed-phase HPLC. The isolated components were characterized by mass spectrometry (MS), tandem MS (MS/MS) and when necessary, by enzymatic (thermolysin) digestion followed by liquid chromatography/mass spectrometry (LC/MS) and sequence analysis. The isolated products were identified as [Asu 14]-pramlintide, [Asu 21]-pramlintide, [Asu 22]-pramlintide, [Asu 35]-pramlintide, [1–21]-succinimide-pramlintide, and [1–22]-succinimide-pramlintide. Also identified were [Asp 35]-pramlintide, the deamidation product of pramlintide at Asn 35, and [Tyr 37-OH]-pramlintide, the deamidation product of the pramlintide amidated C-terminal Tyr. Together these data support those presented earlier (C. Hekman et al., Isolation and identification of peptide degradation products of heat stressed pramlintide injection drug product. Pharm Res 1998;15:650–9) indicating that the primary mechanism of degradation for pramlintide in this pH 4.0 formulation is deamidation, with six of the eight possible deamidation sites observed to undergo deamidation. Gln-10 and Asn-31 are the only two residues subject to deamidation for which none is observed. The data indicate that the cyclic imide products account for ≈20% of the total thermal degradation while the deamidation products account for ≈64%. The remaining degradation is due to peptide backbone hydrolysis.