NK Recognition of Cytomegalovirus-Infected Endothelial Cells Depends on Viral Replication and MHC Class I Expression

Abstract

Cytomegalovirus (CMV) infection has been associated with graft rejection in solid organ transplantation and with graft-versus-host disease in marrow transplantation. We hypothesized that CMV-infected endothelial cells play an important role in the rejection process, because of their strategic localization at the interface with the host immune system and their ability to modulate T cell function. To study the effect of CMV infection on cell-mediated cytotoxicity against endothelial cells, peripheral blood mononuclear cells (MNC) were incubated with CMV-infected umbilical vein endothelial cells (CMV-UVEC) or mock-infected controls (M-UVEC) and lysis measured by [³H]leucine release. MNC lysed only CMV-UVEC to a maximum of 23% at E:T 20:1. Lysis was not affected by CD3⁺ cell depletion, but was abolished by CD16⁺ cell depletion, indicating that NK cells were the effectors. The kinetics of the NK-mediated lysis of CMV-UVEC paralleled the time course of CMV antigen expression. Furthermore, ganciclovir treatment of CMV-UVEC cultures decreased both specific antigen synthesis and NK-mediated lysis. This indicated that NK might recognize either a viral antigen or a cellular antigen modulated by CMV infection. Treatment of CMV-UVEC with F(ab)₂ fragments of human polyclonal anti-CMV antibodies failed to inhibit NK cytotoxicity. In contrast, F(ab)₂ fragments of MB40.5, a murine MAb reactive with a conserved epitope on the human MHC class I, significantly decreased lysis, proving that NK lysis of CMV-UVEC is an MHC class I-dependent function. To determine whether CMV-UVEC lysis was dependent solely on upregulation of MHC class I, MNC were incubated with CMV-UVEC mixed with uninfected UVEC. There was no competition for NK-target recognition sites, indicating that NK lysis required an interaction with an MHC class I antigen modified by viral infection. Antibodies against IFN-α or -β did not block NK cytotoxicity against CMV-UVEC. Our findings provide a working frame for further evaluation of cellular immune responses to CMV infection.