A caspase-independent pathway of MHC class II antigen-mediated apoptosis of human B lymphocytes.

MHC class II molecules have a crucial role in thymic selection and in generating Ag-specific T cell responses. There is extensive evidence for second messenger generation via MHC class II molecules, which can lead to apoptosis of B lymphocytes. We have examined HLA class II-mediated apoptosis in both normal and tumoral human B lymphocytes. Phosphatidylserine exposure and DNA fragmentation were observed in B cells within 24 h of stimulation via HLA class II. In marked comparison with Fas, the cell-permeable and irreversible caspase inhibitors zVAD-fmk and DEVD-fmk failed to inhibit HLA-DR-mediated apoptosis. No direct activation of caspase 3 was detected, and cleavage of pro-caspase 3 was not observed. Cleavage of poly(ADP-ribose) polymerase was detected via Fas but not via HLA class II. Although phosphatidylinositol-3-kinase has been implicated in HLA class I-mediated apoptosis, neither wortmannin nor LY294002 affected HLA class II-mediated apoptosis. CD95-sensitive cells were used to reveal that death occurred independently of CD95-CD95 ligand interactions. Overall, these data reveal a pathway of HLA-DR-mediated apoptosis that neither requires nor involves caspases. Moreover, it is phosphatidylinositol-3-kinase independent and Fas/CD95 independent. This pathway of HLA class II-mediated apoptosis could have an important role in the regulation of APC populations or in the control of malignant B lymphocyte proliferations.

An in vitro model of allogeneic stimulation of cord blood: induction of Fas independent apoptosis.

Cord blood is increasingly used in transplantation as it is a readily available source of progenitor cells and is reputed to generate less severe graft-versus-host disease (GVHD) than adult bone marrow. We have compared apoptosis of cord blood lymphocytes (CB) and adult lymphocytes (PBMC) after stimulation via HLA class I, HLA class II or CD3 in order to reproduce in vitro some of the stimuli occurring after allotransplantation. CB spontaneously apoptose more than PBMC ex vivo, stimulation via HLA class I dramatically increased CB apoptosis without altering viability of PBMC. Expression of Fas was markedly lower on CB than on PBMC and this difference was maintained even after activation. Fas ligand was expressed in CB and in PBMC. CB were activated via either HLA class I or class II molecules although proliferation was not observed. Only phorbol ester pre-activation allowed Fas to subsequently induce a death signal. Proliferation of PBMC via CD3 led to enhanced Fas signals. CB therefore differ from PBMC with regard to both spontaneous and activation induced apoptosis and either allo- or CD3 mediated stimulation. Finally, the apoptosis of CB via HLA-class I could have an important role in the moderation of graft-versus-host disease.

Characterisation of the roles of CD95 and CD95 ligand in cord blood.

The increasing use of umbilical cord blood in transplantation has led to a renewed interest in the immunological characterisation of this material. This study addresses the question of whether the CD95 molecule and its ligand are expressed and are functional in mediating cell death in cord blood mononuclear cells. These molecules have a crucial role in the homeostasis of haematopoietic cell populations in the adult and also contribute to graft-versus-host disease. CD95 is the most well studied receptor mediating a signal for cell death by apoptosis and its inducible ligand has been demonstrated to mediate cell death of multiple types of CD95 expressing cells. The object of this study was to examine whether cord blood mononuclear cells could behave either as targets for CD95-mediated cell death or as mediators of cell death due to the expression of CD95L. The results of this study lead us to suggest that cord blood mononuclear cells enjoy some immunological privilege due to the relatively low level of expression of CD95 (in comparison with adult peripheral blood lymphocytes) and the expression of the CD95 ligand.

HLA class II-induced translocation of PKC alpha and PKC beta II isoforms is abrogated following truncation of DR beta cytoplasmic domains.

Several studies have attempted to identify regions of the MHC class II molecule that participate in signal transduction. The importance of intact murine I-A cytoplasmic domains, either to tether the class II molecule to the cytoskeleton or to recruit signal-transducing proteins, is now well established. Recent data have also suggested that residues of the I-A beta transmembrane are involved in a second distinct signaling pathway. In the light of data suggesting that the second messengers activated on ligation of human and mouse class II molecules may differ, we set out to investigate whether the structural requirements for signaling for the human DR molecule are similar to those already described for the murine I-A molecule. We show that mutant DR class II molecules lacking 12 amino acids of the beta-chain cytoplasmic tail fail to translocate the protein kinase C alpha (PKC alpha) and PKC beta II isoenzymes following stimulation with an anti-class II mAb. In contrast, truncation of either or both cytoplasmic domains of the DR molecule has no effect on class II-induced tyrosine kinase activity. PKC translocation following class II stimulation has been observed in both human and murine B lymphocytes, whereas tyrosine kinase activation is present in human B lymphocytes but absent in resting murine B lymphocytes. Therefore, we conclude that the DR beta cytoplasmic tail is requisite for the principal signaling pathway initiated via MHC class II. These data suggest that the signaling pathways seen in resting vs primed murine B cells may also operate in human APCs.