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Silencing Porcine CMAH and GGTA1 Genes Significantly Reduces Xenogeneic Consumption of Human Platelets by Porcine Livers.

Publication ,  Journal Article
Butler, JR; Paris, LL; Blankenship, RL; Sidner, RA; Martens, GR; Ladowski, JM; Li, P; Estrada, JL; Tector, M; Tector, AJ
Published in: Transplantation
March 2016

A profound thrombocytopenia limits hepatic xenotransplantation in the pig-to-primate model. Porcine livers also have shown the ability to phagocytose human platelets in the absence of immune-mediated injury. Recently, inactivation of the porcine ASGR1 gene has been shown to decrease this phenomenon. Inactivating GGTA1 and CMAH genes has reduced the antibody-mediated barrier to xenotransplantation; herein, we describe the effect that these modifications have on xenogeneic consumption of human platelets in the absence of immune-mediated graft injury.Wild type (WT), ASGR1, GGTA1, and GGTA1CMAH knockout pigs were compared for their xenogeneic hepatic consumption of human platelets. An in vitro assay was established to measure the association of human platelets with liver sinusoidal endothelial cells (LSECs) by immunohistochemistry. Perfusion models were used to measure human platelet uptake in livers from WT, ASGR1, GGTA1, and GGTA1 CMAH pigs.GGTA1, CMAH LSECs exhibited reduced levels of human platelet binding in vitro when compared with GGTA1 and WT LSECs. In a continuous perfusion model, GGTA1 CMAH livers consumed fewer human platelets than GGTA1 and WT livers. GGTA1 CMAH livers also consumed fewer human platelets than ASGR1 livers in a single-pass model.Silencing the porcine carbohydrate genes necessary to avoid antibody-mediated rejection in a pig-to-human model also reduces the xenogeneic consumption of human platelets by the porcine liver. The combination of these genetic modifications may be an effective strategy to limit the thrombocytopenia associated with pig-to-human hepatic xenotransplantation.

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Published In

Transplantation

DOI

EISSN

1534-6080

ISSN

0041-1337

Publication Date

March 2016

Volume

100

Issue

3

Start / End Page

571 / 576

Related Subject Headings

  • Time Factors
  • Thrombocytopenia
  • Swine
  • Surgery
  • Platelet Adhesiveness
  • Phagocytosis
  • Mixed Function Oxygenases
  • Liver
  • Humans
  • Heterografts
 

Citation

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Chicago
ICMJE
MLA
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Butler, J. R., Paris, L. L., Blankenship, R. L., Sidner, R. A., Martens, G. R., Ladowski, J. M., … Tector, A. J. (2016). Silencing Porcine CMAH and GGTA1 Genes Significantly Reduces Xenogeneic Consumption of Human Platelets by Porcine Livers. Transplantation, 100(3), 571–576. https://doi.org/10.1097/tp.0000000000001071
Butler, James Russell, Leela L. Paris, Ross L. Blankenship, Richard A. Sidner, Gregory R. Martens, Joseph M. Ladowski, Ping Li, Jose L. Estrada, Matthew Tector, and A Joseph Tector. “Silencing Porcine CMAH and GGTA1 Genes Significantly Reduces Xenogeneic Consumption of Human Platelets by Porcine Livers.Transplantation 100, no. 3 (March 2016): 571–76. https://doi.org/10.1097/tp.0000000000001071.
Butler JR, Paris LL, Blankenship RL, Sidner RA, Martens GR, Ladowski JM, et al. Silencing Porcine CMAH and GGTA1 Genes Significantly Reduces Xenogeneic Consumption of Human Platelets by Porcine Livers. Transplantation. 2016 Mar;100(3):571–6.
Butler, James Russell, et al. “Silencing Porcine CMAH and GGTA1 Genes Significantly Reduces Xenogeneic Consumption of Human Platelets by Porcine Livers.Transplantation, vol. 100, no. 3, Mar. 2016, pp. 571–76. Epmc, doi:10.1097/tp.0000000000001071.
Butler JR, Paris LL, Blankenship RL, Sidner RA, Martens GR, Ladowski JM, Li P, Estrada JL, Tector M, Tector AJ. Silencing Porcine CMAH and GGTA1 Genes Significantly Reduces Xenogeneic Consumption of Human Platelets by Porcine Livers. Transplantation. 2016 Mar;100(3):571–576.

Published In

Transplantation

DOI

EISSN

1534-6080

ISSN

0041-1337

Publication Date

March 2016

Volume

100

Issue

3

Start / End Page

571 / 576

Related Subject Headings

  • Time Factors
  • Thrombocytopenia
  • Swine
  • Surgery
  • Platelet Adhesiveness
  • Phagocytosis
  • Mixed Function Oxygenases
  • Liver
  • Humans
  • Heterografts