Reversible O-Acetyl Migration within the Sialic Acid Side Chain and Its Influence on Protein Recognition.

O-Acetylation is a common naturally occurring modification of carbohydrates and is especially widespread in sialic acids, a family of nine-carbon acidic monosaccharides. O-Acetyl migration within the exocyclic glycerol-like side chain of mono-O-acetylated sialic acid reported previously was from the C7- to C9-hydroxyl group with or without an 8-O-acetyl intermediate, which resulted in an equilibrium that favors the formation of the 9-O-acetyl sialic acid. Herein, we provide direct experimental evidence demonstrating that O-acetyl migration is bidirectional, and the rate of equilibration is influenced predominantly by the pH of the sample. While the O-acetyl group on sialic acids and sialoglycans is stable under mildly acidic conditions (pH < 5, the rate of O-acetyl migration is extremely low), reversible O-acetyl migration is observed readily at neutral pH and becomes more significant when the pH increases to slightly basic. Sialoglycan microarray studies showed that esterase-inactivated porcine torovirus hemagglutinin-esterase bound strongly to sialoglycans containing a more stable 9-N-acetylated sialic acid analog, but these compounds were less resistant to periodate oxidation treatment compared to their 9-O-acetyl counterparts. Together with prior studies, the results support the possible influence of sialic acid O-acetylation and O-acetyl migration to host-microbe interactions and potential application of the more stable synthetic N-acetyl mimics.

Human neutrophil peptide-1 inhibits thrombus formation under arterial flow via its terminal free cysteine thiols.

Essentials Biological activity of human neutrophil peptide (HNP)-1 in hemostasis under physiological conditions is not fully understood. HNP-1 inhibits the adhesion/aggregation of murine platelets on a fibrillar collagen surface or an activated endothelial cell surface under flow. The anti-adhesion activity appears to depend on the terminal free thiols of HNP-1, which may inhibit VWF-VWF lateral associations. Our results suggest a protective role and potential novel therapeutic use of HNP-1 for arterial thrombosis. SUMMARY: Background Human neutrophil peptides (HNPs), also known as α-defensins, are released from degranulated neutrophils and play an important role in innate immunity. However, their biological roles in hemostasis under flow are not fully explored. Objective This study aims to determine the role of HNP-1 on platelet adhesion and aggregation on a collagen surface or ultra large von Willebrand factor (ULVWF) on endothelium under flow and elucidate the structural elements required for its activity. Methods Anticoagulated whole blood from wild-type or Adamts13-/- mice was incubated with a fluorescein-conjugated anti-human CD41 in the presence of increasing concentrations of a synthetic HNP-1 and perfused over a collagen surface or a tumor necrosis factor (TNF)-α activated murine endothelial cell surface under arterial flow. The rate of accumulation and the final surface coverage of fluoresceinated murine platelets or the rate of forming platelet-decorated ULVWF strings were determined using the BioFlux microfluidic system. Results HNP-1 inhibited the rate and final coverage of fluorescein-labeled murine platelets on a fibrillar collagen surface under flow (100 dyne/cm2 ) in a concentration-dependent manner and the anti-adhesive activity of HNP-1 depended on its terminal free cysteine thiols. HNP-1 (20 µM) also dramatically inhibited the formation of platelets-decorated ULVWF strings on TNF-α activated murine endothelial surface under arterial flow. Conclusions Our results demonstrate for the first time an antiplatelet adhesion or antithrombotic activity of HNP-1; this activity depends on its terminal free thiols, likely affecting VWF-VWF lateral associations. These findings may suggest a potential novel therapeutic strategy for arterial thrombosis.