Thrombalexin: Use of a Cytotopic Anticoagulant to Reduce Thrombotic Microangiopathy in a Highly Sensitized Model of Kidney Transplantation

M. Manook; J. Kwun; C. Burghuber; K. Samy; M. Mulvihill; J. Yoon; H. Xu; A. L. MacDonald; K. Freischlag; V. Curfman; E. Branum; D. Howell; A. B. Farris; R. A. Smith; S. Sacks; A. Dorling; N. Mamode; S. J. Knechtle

doi:10.1111/ajt.14234

Thrombalexin: Use of a Cytotopic Anticoagulant to Reduce Thrombotic Microangiopathy in a Highly Sensitized Model of Kidney Transplantation

M. Manook, J. Kwun, C. Burghuber, K. Samy, M. Mulvihill, J. Yoon, H. Xu, A. L. MacDonald, K. Freischlag, V. Curfman, E. Branum, D. Howell, A. B. Farris, R. A. Smith, S. Sacks, A. Dorling, N. Mamode, S. J. Knechtle

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

Early activation of coagulation is an important factor in the initiation of innate immunity, as characterized by thrombotic microangiopathy (TMA). In transplantation, systemic anticoagulation is difficult due to bleeding. A novel “cytotopic” agent, thrombalexin (TLN), combines a cell-membrane-bound (myristoyl tail) anti-thrombin (hirudin-like peptide [HLL]), which can be perfused directly to the donor organ or cells. Thromboelastography was used to measure time to clot formation (r-time) in both rhesus and human blood, comparing TLN versus HLL (without cytotopic tail) versus negative control. Both TLN- and HLL-treated rhesus or human whole blood result in significantly prolonged r-time compared to kaolin controls. Only TLN-treated human endothelial cells and neonatal porcine islets prolonged time to clot formation. Detection of membrane-bound TLN was confirmed by immunohistochemistry and fluorescence activated cell sorter. In vivo, perfusion of a nonhuman primate kidney TLN-supplemented preservation solution in a sensitized model of transplantation demonstrated no evidence of TLN systemically. Histologically, TLN was shown to be present up to 4 days after transplantation. There was no platelet deposition, and TMA severity, as well as microvascular injury scores (glomerulitis + peritubular capillaritis), were less in the TLN-treated animals. Despite promising evidence of localized efficacy, no survival benefit was demonstrated.

Original language	English (US)
Pages (from-to)	2055-2064
Number of pages	10
Journal	American Journal of Transplantation
Volume	17
Issue number	8
DOIs	https://doi.org/10.1111/ajt.14234
State	Published - Aug 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2017 The American Society of Transplantation and the American Society of Transplant Surgeons

Keywords

alloantibody
animal models: nonhuman primate
basic (laboratory) research/science
coagulation and hemostasis
islet transplantation
organ perfusion and preservation
organ transplantation in general
thrombosis and thromboembolism

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10.1111/ajt.14234

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Manook, M., Kwun, J., Burghuber, C., Samy, K., Mulvihill, M., Yoon, J., Xu, H., MacDonald, A. L., Freischlag, K., Curfman, V., Branum, E., Howell, D., Farris, A. B., Smith, R. A., Sacks, S., Dorling, A., Mamode, N., & Knechtle, S. J. (2017). Thrombalexin: Use of a Cytotopic Anticoagulant to Reduce Thrombotic Microangiopathy in a Highly Sensitized Model of Kidney Transplantation. American Journal of Transplantation, 17(8), 2055-2064. https://doi.org/10.1111/ajt.14234

Manook, M, Kwun, J, Burghuber, C, Samy, K, Mulvihill, M, Yoon, J, Xu, H, MacDonald, AL, Freischlag, K, Curfman, V, Branum, E, Howell, D, Farris, AB, Smith, RA, Sacks, S, Dorling, A, Mamode, N & Knechtle, SJ 2017, 'Thrombalexin: Use of a Cytotopic Anticoagulant to Reduce Thrombotic Microangiopathy in a Highly Sensitized Model of Kidney Transplantation', American Journal of Transplantation, vol. 17, no. 8, pp. 2055-2064. https://doi.org/10.1111/ajt.14234

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title = "Thrombalexin: Use of a Cytotopic Anticoagulant to Reduce Thrombotic Microangiopathy in a Highly Sensitized Model of Kidney Transplantation",

abstract = "Early activation of coagulation is an important factor in the initiation of innate immunity, as characterized by thrombotic microangiopathy (TMA). In transplantation, systemic anticoagulation is difficult due to bleeding. A novel “cytotopic” agent, thrombalexin (TLN), combines a cell-membrane-bound (myristoyl tail) anti-thrombin (hirudin-like peptide [HLL]), which can be perfused directly to the donor organ or cells. Thromboelastography was used to measure time to clot formation (r-time) in both rhesus and human blood, comparing TLN versus HLL (without cytotopic tail) versus negative control. Both TLN- and HLL-treated rhesus or human whole blood result in significantly prolonged r-time compared to kaolin controls. Only TLN-treated human endothelial cells and neonatal porcine islets prolonged time to clot formation. Detection of membrane-bound TLN was confirmed by immunohistochemistry and fluorescence activated cell sorter. In vivo, perfusion of a nonhuman primate kidney TLN-supplemented preservation solution in a sensitized model of transplantation demonstrated no evidence of TLN systemically. Histologically, TLN was shown to be present up to 4 days after transplantation. There was no platelet deposition, and TMA severity, as well as microvascular injury scores (glomerulitis + peritubular capillaritis), were less in the TLN-treated animals. Despite promising evidence of localized efficacy, no survival benefit was demonstrated.",

keywords = "alloantibody, animal models: nonhuman primate, basic (laboratory) research/science, coagulation and hemostasis, islet transplantation, organ perfusion and preservation, organ transplantation in general, thrombosis and thromboembolism",

author = "M. Manook and J. Kwun and C. Burghuber and K. Samy and M. Mulvihill and J. Yoon and H. Xu and MacDonald, {A. L.} and K. Freischlag and V. Curfman and E. Branum and D. Howell and Farris, {A. B.} and Smith, {R. A.} and S. Sacks and A. Dorling and N. Mamode and Knechtle, {S. J.}",

note = "Publisher Copyright: {\textcopyright} 2017 The American Society of Transplantation and the American Society of Transplant Surgeons",

year = "2017",

month = aug,

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language = "English (US)",

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AU - Kwun, J.

AU - Burghuber, C.

AU - Samy, K.

AU - Mulvihill, M.

AU - Yoon, J.

AU - Xu, H.

AU - MacDonald, A. L.

AU - Freischlag, K.

AU - Curfman, V.

AU - Branum, E.

AU - Howell, D.

AU - Farris, A. B.

AU - Smith, R. A.

AU - Sacks, S.

AU - Dorling, A.

AU - Mamode, N.

AU - Knechtle, S. J.

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N2 - Early activation of coagulation is an important factor in the initiation of innate immunity, as characterized by thrombotic microangiopathy (TMA). In transplantation, systemic anticoagulation is difficult due to bleeding. A novel “cytotopic” agent, thrombalexin (TLN), combines a cell-membrane-bound (myristoyl tail) anti-thrombin (hirudin-like peptide [HLL]), which can be perfused directly to the donor organ or cells. Thromboelastography was used to measure time to clot formation (r-time) in both rhesus and human blood, comparing TLN versus HLL (without cytotopic tail) versus negative control. Both TLN- and HLL-treated rhesus or human whole blood result in significantly prolonged r-time compared to kaolin controls. Only TLN-treated human endothelial cells and neonatal porcine islets prolonged time to clot formation. Detection of membrane-bound TLN was confirmed by immunohistochemistry and fluorescence activated cell sorter. In vivo, perfusion of a nonhuman primate kidney TLN-supplemented preservation solution in a sensitized model of transplantation demonstrated no evidence of TLN systemically. Histologically, TLN was shown to be present up to 4 days after transplantation. There was no platelet deposition, and TMA severity, as well as microvascular injury scores (glomerulitis + peritubular capillaritis), were less in the TLN-treated animals. Despite promising evidence of localized efficacy, no survival benefit was demonstrated.

AB - Early activation of coagulation is an important factor in the initiation of innate immunity, as characterized by thrombotic microangiopathy (TMA). In transplantation, systemic anticoagulation is difficult due to bleeding. A novel “cytotopic” agent, thrombalexin (TLN), combines a cell-membrane-bound (myristoyl tail) anti-thrombin (hirudin-like peptide [HLL]), which can be perfused directly to the donor organ or cells. Thromboelastography was used to measure time to clot formation (r-time) in both rhesus and human blood, comparing TLN versus HLL (without cytotopic tail) versus negative control. Both TLN- and HLL-treated rhesus or human whole blood result in significantly prolonged r-time compared to kaolin controls. Only TLN-treated human endothelial cells and neonatal porcine islets prolonged time to clot formation. Detection of membrane-bound TLN was confirmed by immunohistochemistry and fluorescence activated cell sorter. In vivo, perfusion of a nonhuman primate kidney TLN-supplemented preservation solution in a sensitized model of transplantation demonstrated no evidence of TLN systemically. Histologically, TLN was shown to be present up to 4 days after transplantation. There was no platelet deposition, and TMA severity, as well as microvascular injury scores (glomerulitis + peritubular capillaritis), were less in the TLN-treated animals. Despite promising evidence of localized efficacy, no survival benefit was demonstrated.

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Thrombalexin: Use of a Cytotopic Anticoagulant to Reduce Thrombotic Microangiopathy in a Highly Sensitized Model of Kidney Transplantation

Abstract

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