Human complement regulatory proteins protect swine-to-primate cardiac xenografts from humoral injury

Human complement regulatory proteins protect swine-to-primate cardiac xenografts from humoral injury

The susceptibility of xenografts to hyperacute rejection is postulated to reflect in part failure of complement regulatory proteins (CRPs) to control activation of heterologous complement on graft endothelium. To test this concept, transgenic swine expressing the human CRP decay accelerating factor...

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Veröffentlicht in:Nature medicine 1995-05, Vol.1 (5), p.423-427
Hauptverfasser: McCurry, Kenneth R., Kooyman, David L., Alvarado, Cristobal G., Cotterell, Adrian H., Martin, Michael J., Logan, John S., Platt, Jeffrey L.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Antibody Formation
Baboons
Biomedicine
Cancer Research
CD55 Antigens - genetics
CD55 Antigens - immunology
CD59 antigen
CD59 Antigens - genetics
CD59 Antigens - immunology
Complement
Complement activation
Complement regulatory proteins
Complement System Proteins - immunology
Decay-accelerating factor
Endothelial cells
Endothelium
Erythrocytes
Erythrocytes - immunology
Graft rejection
Graft Rejection - immunology
Heart Transplantation - immunology
Heart Transplantation - pathology
Hemolysis - immunology
Humans
Infectious Diseases
Metabolic Diseases
Molecular Medicine
Neurosciences
Organs
Papio
Primates
Proteins
Swine
Transplantation, Heterologous - immunology
Xenografts
Xenotransplantation
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Zusammenfassung:The susceptibility of xenografts to hyperacute rejection is postulated to reflect in part failure of complement regulatory proteins (CRPs) to control activation of heterologous complement on graft endothelium. To test this concept, transgenic swine expressing the human CRP decay accelerating factor and CD59 were developed using a novel expression system involving transfer of the proteins from erythrocytes to endothelial cells. Hearts from transgenic swine transplanted into baboons had markedly less vascular injury and functioned for prolonged periods compared to hearts from nontransgenic swine. These results indicate that expression of human CRPs in xenogeneic organs may contribute to successful xenografting and suggest that intercellular protein transfer might be a useful approach for expression of heterologous proteins in endothelial cells.
ISSN:1078-8956
1546-170X
DOI:10.1038/nm0595-423