Natural killer (NK)-cell function and antileukemic activity of a large population of CD3+/CD8+ T cells expressing NK receptors for major histocompatibility complex class I after "three-loci" HLA-incompatible bone marrow transplantation.

We have shown that addition of granulocyte colony-stimulating factor-mobilized peripheral blood progenitor cells to the marrow inoculum allows engraftment of T-cell depleted, "three loci" HLA-incompatible marrow transplants for acute leukemia. The event-free survival of patients at high risk for potential of this transplant. Tumor-cell lysis by natural killer (NK) cells is regulated by inhibitory receptors for specific HLA class I alleles. Here, we report the postgrafting emergence of a large, donor-type CD3+/CD8+ T-cell receptor (TcR)-alpha beta+ cell population, barely detectable in normal subjects, that expresses 58 kD, "p58," NK receptors for HLA-C locus alleles. Analysis of > 900 clones revealed that 40% to 80% of these T cells exhibit NK-like function, i.e., they lysed class I- targets and were functionally blocked by class I alleles on target cells. Monoclonal antibody-mediated blocking of class I recognition by these cells induced lysis of HLA-protected, autologous targets. The class I-mediated inhibitory signaling through the NK receptors also blocked TcR/CD3-triggered cytotoxicity of these cells, indicating that their antigen-specific responses may be impaired. However, the NK-like function of these cells allows them to discriminate normal cells, protected from lysis, from leukemic cells that were lysed and may be targets for a graft-versus-leukemia effect.

Involvement of CD44 variant isoforms in hyaluronate adhesion by human activated T cells.

The standard, 85-95-kDa form of the hyaluronic acid (HA) receptor CD44 and a number of CD44 mRNA splice variants play important roles in immune responses and tumor metastasis. Variants carrying exon 6 (v6), or 9 (v9) products are transiently expressed on activated human T cells. Here, modulation experiments with specific monoclonal antibodies (mAb) indicate that v6 and v9 are expressed independently on distinct sets of CD44 molecules, and that their combined expression is necessary for HA adhesion. Moreover, the finding that mAb-mediated cross-linking of v6 and v9 promoted cytosolic free Ca2+ mobilization and co-stimulated CD3-triggered T cell proliferation indicates that v6 and v9 possess signaling and effector function activation ability. Finally, HA-mediated signaling appears to be required for variant-dependent adhesion to HA. The observation that soluble HA promoted cytosolic free Ca2+ mobilization indicates that HA-induced Ca2+ mobilization can occur during T cell-HA interaction. Since Ca2+ mobilization was inhibited by pretreatment of cells with an anti-CD44 mAb directed against the HA-binding domain of CD44, CD44 receptors appear to be involved in HA-mediated signal transduction. The requirement of cytosolic free Ca2+ for adhesion is shown by the fact that ionomycin (a Ca2+ ionophore) stimulated, and EGTA (a Ca2+ chelator), inhibited HA adhesion. In addition, cytoskeletal functional activation is required for cell adhesion to HA, since drugs that block actin polymerization, such as cytochalasin B, or actomyosin contraction, such as the calmodulin antagonist W-7, inhibited cell adhesion to HA. As this adhesion is also ADP ribosylation-sensitive, it may involve a GTP-dependent function of CD44v, i.e. ankyrin binding. Our data indicate that there is a functional hierarchy among the CD44 molecules expressed on human peripheral blood T cells and that the splice variants, as compared to the standard form, exhibit a greater HA binding ability which involves CD44-mediated signaling and effector function activation.