Purpose To investigate insulin fibrillation under accelerated stress conditions in the presence of a novel excipient, the molecular chaperone α-crystallin, in comparison with common excipients.
Methods To induce fibrillation, recombinant human insulin (0.58 mg ml−1) formulations without excipient or with bovine α-crystallin (0.01–0.2 mg ml−1), human serum albumin (1– 5 mg ml−1), sucrose (10–100 mg ml−1) or polysorbate 80 (0.075–0.3 mg ml−1) were subjected to stirring stress in a fluorescence well plate reader and formulation vials. Protein fibrillation was monitored by thioflavin T. The formulations were further characterized by size-exclusion chromatography, light obscuration, UV/Vis and circular dichroism spectroscopy.
Results In both methods, insulin formed thioflavin T-binding species, most likely fibrils. Addition of α-crystallin in the well plate assay greatly improved insulin’s resistance to fibrillation, measured as a 6-fold increase in fibrillation lag time for the lowest and 26-fold for the highest concentration used, whereas all other excipients showed only a marginal increase in lag time. The stabilizing effect of α-crystallin was shown by all characterization techniques used.
Conclusions The effect of α-crystallin on insulin’s physical stability outperforms that of commonly used excipients. α- Crystallin is proposed to bind specifically to pre-fibrillation species, thereby inhibiting fibrillation. This makes α-crystallin an interesting excipient for proteins with propensity to fibrillate.
T. Rasmussen (*) : M. van de Weert
Faculty of Pharmaceutical Sciences, University of Copenhagen, Universitetsparken 2, 2100 Kbh. Ø,
Copenhagen, Denmark
e-mail: tr@farma.ku.dk
T. Rasmussen : R. Tantipolphan : W. Jiskoot
Division of Drug Delivery Technology,
Leiden Amsterdam Center for Drug Research, Leiden University, Leiden, The Netherlands