Recruitment of activating NK-cell receptors 2B4 and NKG2D to membrane microdomains in mammalian cells is dependent on their transmembrane regions.

Membrane microdomains play an important role in the regulation of natural killer (NK) cell activities. These cholesterol-rich membrane domains are enriched at the activating immunological synapse and several activating NK-cell receptors are known to localize to membrane microdomains upon receptor engagement. In contrast, inhibitory receptors do not localize in these specialized membrane domains. In addition, the functional competence of educated NK cells correlates with a confinement of activating receptors in membrane microdomains. However, the molecular basis for this confinement is unknown. Here, we investigate the structural requirements for the recruitment of the human-activating NK-cell receptors NKG2D and 2B4 to detergent-resistant membrane fractions in the murine BA/F3 cell line and in the human NK-cell line NKL. This stimulation-dependent recruitment occurred independently of the intracellular domains of the receptors. However, either interfering with the association between NKG2D and DAP10, or mutating the transmembrane region of 2B4 impacted the recruitment of the receptors to detergent-resistant membrane fractions and modulated the function of 2B4 in NK cells. Our data suggest a potential interaction between the transmembrane region of NK-cell receptors and membrane lipids as a molecular mechanism involved in determining the membrane confinement of activating NK-cell receptors.

Regulation of 2B4 (CD244)-mediated NK cell activation by ligand-induced receptor modulation.

Natural killer (NK) cell activity can be stimulated by different surface receptors. 2B4 is a member of the signaling lymphocyte activation molecule (SLAM)-related receptor family and is important for stimulating human NK cell cytotoxicity and cytokine production. Here we show that stimulation of human NK cells by antibody-mediated 2B4 cross-linking or incubation with target cells expressing the 2B4 ligand CD48 results in a strong down-modulation of 2B4 surface expression. This down-modulation is observed in NK cell lines, purified human NK cells and NK cell clones, and is accompanied by an internalization of 2B4. The modulation of 2B4 is dependent on the activity of Src-family kinases, but independent of PI3 K activity or actin polymerization. Inhibitory receptors can interfere with 2B4-mediated signals and NK cell activation. However, co-engagement of inhibitory killer cell Ig-like receptors has no influence on the down-modulation of 2B4. This suggests that the modulation of 2B4 expression is independent of inhibitory receptors. The lower surface expression of 2B4 after ligand-induced down-modulation results in reduced 2B4-mediated NK cell activation and cytotoxicity. The modulation of activating surface receptors may therefore be another mechanism for the fine-tuning of NK cell activity and may lead to the adaptation of NK cell cytotoxicity in tissues with high ligand expression.