Protection of porcine endothelial cells from complement-mediated cytotoxicity by the human complement regulators CD59, C1 inhibitor, and soluble complement receptor type 1. Analysis in a pig-to-human in vitro model relevant to hyperacute xenograft rejection.

Abstract

Inhibition of complement activation is considered a prerequisite to overcome hyperacute xenograft rejection. In the present study, we investigated the efficacy of C1 inhibitor (C1 inh) and recombinant soluble complement receptor type 1 (rsCR1) to protect xenogeneic cells against complement-mediated cytotoxicity in an in vitro xenotransplantation model. The addition of the soluble complement regulators to human serum led to a dose-dependent inhibition of complement-mediated destruction of aortic porcine endothelial cells (PEC). On a molar base, rsCR1 was more efficient than C1 inh. Transfection of PEC with cDNA of human CD59 resulted in several clones where protection against complement-mediated cell destruction correlated with the expression level of the inhibitor. Addition of low concentrations of C1 inh and rsCR1 to a CD59 (human)-positive PEC clone, expressing a suboptimal level of the membrane-bound regulator, resulted in a significant improvement of protection against complement-mediated cell destruction.