Different membrane cofactor protein (CD46) isoforms protect transfected cells against antibody and complement mediated lysis
The need for organ transplantation, especially of kidneys, exceeds the availability of human donors and the possibility of xenotransplantation from suitable animals is now being addressed. The immediate barrier to success is hyperacute graft rejection, resulting from naturally occurring xenoreactive...
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| Published in | Transplant immunology Vol. 1; no. 2; p. 101 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Netherlands
1993
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| Subjects | |
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| Abstract | The need for organ transplantation, especially of kidneys, exceeds the availability of human donors and the possibility of xenotransplantation from suitable animals is now being addressed. The immediate barrier to success is hyperacute graft rejection, resulting from naturally occurring xenoreactive antibodies and the activation of complement. It is proposed that the intensity of the hyperacute response can be reduced by providing additional regulatory molecules to limit activation of the complement cascade, initially as transfected gene products in cultured cells as an in vitro model and eventually as a transgene in potential donor animals, such as pigs. Limiting the activity of C3b reduces the production of the C3a, C4a and C5a anaphylotoxins, thus curtailing not only the immediate C3b-mediated lytic pathway but also the later effects of a cellular inflammatory response including endothelial and platelet cell activation. To develop and assess the first part of this strategy, we have transfected several cDNA's encoding isoforms of CD46 (membrane cofactor protein). At least four different CD46 isoforms are commonly expressed in almost all human cells, and we have compared two of these and a third form to determine if they mediate different functions. After transfection, CD46-expressing CHO-K1 cells were selected with methionine sulphoximine and identified using monoclonal antibodies. Transfectants with suitable CD46 expression were assayed for primary CD46 function using a lysis assay dependent on the reaction of antibody and complement. In this in vitro model of hyperacute rejection, normal human sera containing natural xenoreactive antibodies were shown to lyse CHO cells, but only in the presence of complement. |
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| AbstractList | The need for organ transplantation, especially of kidneys, exceeds the availability of human donors and the possibility of xenotransplantation from suitable animals is now being addressed. The immediate barrier to success is hyperacute graft rejection, resulting from naturally occurring xenoreactive antibodies and the activation of complement. It is proposed that the intensity of the hyperacute response can be reduced by providing additional regulatory molecules to limit activation of the complement cascade, initially as transfected gene products in cultured cells as an in vitro model and eventually as a transgene in potential donor animals, such as pigs. Limiting the activity of C3b reduces the production of the C3a, C4a and C5a anaphylotoxins, thus curtailing not only the immediate C3b-mediated lytic pathway but also the later effects of a cellular inflammatory response including endothelial and platelet cell activation. To develop and assess the first part of this strategy, we have transfected several cDNA's encoding isoforms of CD46 (membrane cofactor protein). At least four different CD46 isoforms are commonly expressed in almost all human cells, and we have compared two of these and a third form to determine if they mediate different functions. After transfection, CD46-expressing CHO-K1 cells were selected with methionine sulphoximine and identified using monoclonal antibodies. Transfectants with suitable CD46 expression were assayed for primary CD46 function using a lysis assay dependent on the reaction of antibody and complement. In this in vitro model of hyperacute rejection, normal human sera containing natural xenoreactive antibodies were shown to lyse CHO cells, but only in the presence of complement. |
| Author | Loveland, B E Thorley, B R Johnstone, R W McKenzie, I F Russell, S M |
| Author_xml | – sequence: 1 givenname: B E surname: Loveland fullname: Loveland, B E organization: Austin Research Institute, Heidelberg, Victoria, Australia – sequence: 2 givenname: R W surname: Johnstone fullname: Johnstone, R W – sequence: 3 givenname: S M surname: Russell fullname: Russell, S M – sequence: 4 givenname: B R surname: Thorley fullname: Thorley, B R – sequence: 5 givenname: I F surname: McKenzie fullname: McKenzie, I F |
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| SubjectTerms | Animals Antibodies, Heterophile - immunology Antigens, CD - physiology CHO Cells - immunology Complement Activation Complement System Proteins - immunology Cricetinae Cricetulus - immunology Graft Rejection - immunology Graft Rejection - prevention & control Humans Membrane Cofactor Protein Membrane Glycoproteins - physiology Rabbits - immunology Recombinant Fusion Proteins - metabolism Swine - immunology Transfection Transplantation, Heterologous - immunology |
| Title | Different membrane cofactor protein (CD46) isoforms protect transfected cells against antibody and complement mediated lysis |
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