Optimization of the Endotoxin Removal Performance of Solid-Phase Conjugated S3E3 Antimicrobial Peptide Using Response Surface Methodology

S3E3 is a new variant of S3 antimicrobial peptide (AMP) derived from factor C of horseshoe hemolymph and features a high binding affinity for endotoxin. In this research, site-specific conjugated S3E3 AMP onto Sepharose 6% solid phase support (S3E3-S-Sepharose) was applied for endotoxin removal from protein solutions. The bovine serum albumin (BSA) was chosen as a protein model due to its acidic-sticky nature interfering with the endotoxin removal process. The batch process parameters including, endotoxin concentration, pH, and ionic strength of the sample were optimized by response surface methodology to reach maximum endotoxin binding capacity and protein recovery. The predicted optimal conditions for enhanced endotoxin removal performance were as follows: pH 4.5, 25 mM NaCl, and 68,500 EU/ml endotoxin leading to a maximum endotoxin binding capacity of 3.114?×?10⁺⁶ EU/ml of resin and a 95.89% protein recovery. S3E3-S-Sepharose could be applied as an efficient endotoxin removal affinity chromatography matrix at downstream processes of recombinant therapeutics due to its high capacity and protein recovery.