Objective: Refrigeration-induced binding of VWF (von Willebrand factor) to platelets contributes to the rapid clearance of refrigerated platelets. In this study, we investigate whether inhibiting VWF binding by a DNA-based aptamer ameliorates the clearance of refrigerated platelets without significantly impeding hemostatic functions. Approach and Results: Platelets were refrigerated with or without aptamer ARC1779 for 48 hours. VWF binding, the effective lifetime of ARC1779, platelet post-transfusion recovery and survival, and the hemostatic function were measured. ARC1779 treatment during refrigeration inhibited the platelet-VWF interaction. ARC1779-treated refrigerated murine platelets exhibited increased post-transfusion recovery and survival than untreated ones (recovery of ARC1779-treated platelets: 76.7±5.5%; untreated: 63.7±0.8%; P<0.01. Half-life: 31.4±2.36 hours versus 28.1±0.86 hours; P<0.05). A similar increase was observed for refrigerated human platelets (recovery: 49.4±4.4% versus 36.8±2.1%, P<0.01; half-life: 9.2±1.5 hours versus 8.7±0.9 hours, ns). The effective lifetime of ARC1779 in mice was 2 hours. Additionally, ARC1779 improved the long-term (2 hours after transfusion) hemostatic function of refrigerated platelets (tail bleeding time of mice transfused with ARC1779-treated refrigerated platelets: 160±65 seconds; untreated: 373±96 seconds; P<0.01). The addition of an ARC1779 antidote before transfusion improved the immediate (15 minutes after transfusion) hemostatic function (bleeding time of treated platelets: 149±21 seconds; untreated: 320±36 seconds; P<0.01).
Conclusions: ARC1779 improves the post-transfusion recovery of refrigerated platelets and preserves the long-term hemostatic function of refrigerated platelets. These results suggest that a short-acting inhibitor of the platelet-VWF interaction may be a potential therapeutic option to improve refrigeration of platelets for transfusion treatment.
Keywords: antidote; bleeding time; hemostatics; refrigeration; von Willebrand factor.