Abstract

Inhibiting the formation of urate crystals is the key to prevent hyperuricemia from developing into gout. Although many studies have focused on the influence of biomacromolecules in the crystallization behavior of sodium urate, the role of peptides with specific structures may contribute to unprecedented regulatory effects. Here, for the first time, we studied the effects of cationic peptides on the phase behavior, crystallization kinetics, and size/morphology of urate crystals. The addition of protamine (PRTM, a typical natural arginine-rich peptide) prolongs the nucleation induction time of sodium urate and inhibits crystal nucleation effectively. PRTM binds to the surface of amorphous sodium urate (ASU) through the hydrogen bond and electrostatic attraction between guanidine groups and urate anions, which is conducive to maintaining the state of ASU and inhibiting crystal nucleation. Moreover, PRTM preferentially binds to the MSUM plane and leads to a significant reduction in the aspect ratio of MSUM filamentous crystals. Further studies showed that there are significant differences in the inhibiting effects of arginine-rich peptides with different chain lengths on the crystallization behavior of sodium urate. Both guanidine functional groups and peptide chain length determine the crystallization inhibiting effect of peptides simultaneously. The present work highlights the potential role of arginine peptides in inhibiting the crystallization of urate and provides new insights into the inhibition mechanism in the pathological biomineralization of sodium urate, demonstrating the possibility of using cationic peptides to treat gout.

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