Graft-derived VWF drives platelet activation and thrombocytopenia during porcine liver xenotransplantation to brain-dead human recipients
Liang Zhao, Sokratis A. Apostolidis, Aae Suzuki, Amrita Sarkar, Qian Guo, Felix Li, Alex Sagar, John Fallon, Mohamed A. Elzawahry, Syed Hussain Abbas, Leanne Lanieri, Kristen Getchell, Susan C. Low, Kim M. Olthoff, Emma E. Furth, Brendan J. Keating, Peter Friend, Mortimer Poncz, Abraham Shaked, Charles S. Abrams
Liang Zhao, Sokratis A. Apostolidis, Aae Suzuki, Amrita Sarkar, Qian Guo, Felix Li, Alex Sagar, John Fallon, Mohamed A. Elzawahry, Syed Hussain Abbas, Leanne Lanieri, Kristen Getchell, Susan C. Low, Kim M. Olthoff, Emma E. Furth, Brendan J. Keating, Peter Friend, Mortimer Poncz, Abraham Shaked, Charles S. Abrams
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Clinical Research and Public Health Hematology Vascular biology

Graft-derived VWF drives platelet activation and thrombocytopenia during porcine liver xenotransplantation to brain-dead human recipients

Abstract

BACKGROUND Genetically engineered porcine livers are being developed as a bridge therapy for acute liver failure, providing detoxification and restoration of hepatic protein synthesis. Severe xenograft-associated thrombocytopenia remains a major limitation, and human mechanistic data are scarce.METHODS Platelet kinetics were characterized in 3 human decedents undergoing extracorporeal cross-circulation with transgenic porcine livers. Platelet counts, transfusion requirements, and clearance patterns were assessed to distinguish consumption from marrow suppression or hypersplenism. Antibody- and complement-directed inhibitors were administered to test immune-mediated mechanisms. Mechanistic studies focused on porcine von Willebrand factor–dependent (pVWF-dependent) platelet activation, including ex vivo blockade with the anti-VWF nanobody caplacizumab, a VWF-directed antibody fragment that prevents VWF-platelet binding. A fourth decedent received caplacizumab during porcine liver perfusion.RESULTS In all 3 initial cases, 80%–90% of circulating and transfused platelets were rapidly cleared, a pattern inconsistent with marrow suppression or hypersplenism. Antibody and complement inhibition failed to ameliorate thrombocytopenia. Recipient plasma induced robust pVWF-mediated platelet activation analogous to human type IIb von Willebrand disease, which was completely abrogated ex vivo by caplacizumab. In a fourth decedent treated with caplacizumab, aberrant platelet activation was prevented, although full hematologic recovery was limited by preexisting disseminated intravascular coagulation.CONCLUSIONS Early thrombocytopenia during porcine liver xenotransplantation appears to be primarily driven by pVWF-mediated platelet activation rather than by classical immune or splenic mechanisms. Targeted VWF blockade with agents such as caplacizumab may mitigate platelet loss and improve the safety profile of extracorporeal porcine liver support in acute liver failure.

Authors

Liang Zhao, Sokratis A. Apostolidis, Aae Suzuki, Amrita Sarkar, Qian Guo, Felix Li, Alex Sagar, John Fallon, Mohamed A. Elzawahry, Syed Hussain Abbas, Leanne Lanieri, Kristen Getchell, Susan C. Low, Kim M. Olthoff, Emma E. Furth, Brendan J. Keating, Peter Friend, Mortimer Poncz, Abraham Shaked, Charles S. Abrams

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Figure 4

Analysis of VWF during post-extracorporeal liver cross-circulation.

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Analysis of VWF during post-extracorporeal liver cross-circulation. (A) ...
(A) Shown are ristocetin-induced platelet agglutination (RIPA) assays. Washed human platelets isolated from healthy donors were exposed to plasma derived from Decedent 3 at various time points before and after extracorporeal liver cross-circulation with a porcine liver. Following the addition of different concentrations of ristocetin, plasma obtained 72 hours after connection to the porcine liver induced increased platelet agglutination compared with plasma obtained from the decedent prior to exposure to the porcine liver. (B) VWF functional activity assays performed before connection and at indicated time points after connection to the porcine xenograft. (C) Mass spectrometry of decedent plasma demonstrates the relative amounts of both porcine and human VWF after the start of extracorporeal liver cross-circulation. (D) Compared with plasma obtained from a decedent prior to extracorporeal liver cross-circulation with the porcine liver, plasma obtained from a decedent after the start of extracorporeal liver cross-circulation with porcine liver requires higher concentrations of caplacizumab to neutralize the ability of VWF to agglutinate human platelets. (E) Plasma from Decedent 3 was added ex vivo to healthy human control platelets, and flow cytometry was used to analyze for platelet activation as detected by the binding of the PAC-1 (activated integrin) or the CD62P (P-selectin) antibody. Shown on the left are histogram plots and on the right is a bar graph demonstrating the relative PAC-1 and CD62P surface expression on ex vivo–isolated platelets at the indicated time points and conditions. Note that caplacizumab abolished plasma-induced platelet activation when administered ex vivo.