Title
Conjugation with Eight-Arm PEG Markedly Improves the In Vitro Activity and Prolongs the Blood Circulation of Staphylokinase
Author
Fangbing Qi, Chunyang Hu, Weili Yu, Tao Hu
Year
2018
Journal
Bioconjugate Chemistry
Abstract
Staphylokinase (SAK) is a profibrinolytic protein and can be used for therapy of acute myocardial infarction and coronary thrombosis. However, SAK suffers from a short serum half-life time (∼6 min) that limits its clinical application. PEGylation prolongs the half-life time of SAK, whereas it significantly decreases the bioactivity of SAK for the steric shielding effect of PEG. To improve the bioactivity and prolong the half-life time of SAK, 8-arm PEG maleimide (8-arm PEG) was used for conjugation of multiple SAK molecules in one entity. C terminus of SAK was engineered with cysteine residue, followed by reaction with the maleimide moieties of 8-arm PEG to obtain the conjugate (SAKp-PEG). Conjugation with 8-arm PEG retained the secondary structure of SAK, slightly perturbed the tertiary structure of SAK, and essentially maintained its in vitro bioactivity by the multivalence of SAK. Conjugation with 8-arm PEG increased the hydrodynamic volume and thus significantly prolonged the half-life time of SAK. SAKp-PEG elicited a 1.4-fold increase in the SAK-specific IgG titers as compared with SAK, and rendered no apparent toxicity to the cardiac, liver and renal functions of mice. Thus, multiple conjugation of a protein with 8-arm PEG was an effective strategy to develop a long-acting protein drug with improved bioactivity and prolonged blood circulation.
Instrument
J-810
Keywords
Circular dichroism, Secondary structure, Tertiary structure, Chemical stability, Biochemistry