6B). KLRG1 is expressed by 30–50% of NK cells and NK-cell activation is associated with KLRG1 upregulation 18, 20, 21. KLRG1 KO mice had normal numbers of CD3− NK1.1+ NK cells in spleen, liver and lung and expression of various stimulatory and inhibitory receptors including 2B4, Ly49A, Ly49C, Ly49D, Ly49G2, Ly49I, Ly49F, NKG2A/E/C and NKG2D was also not different (data not shown). Infection of KLRG1 KO mice with viral (VSV, Vaccinia, LCMV, MCMV) or bacterial (L. monocytogenes) pathogens resulted in a decrease of immature CD11b−CD27+ NK cells and an increase of more mature CD11b+CD27+
and CD11b+CD27− NK-cell subsets. As depicted in Fig. 7A, the different types of infections induced distinct patterns of these three NK-cell subsets, this website but KLRG1 deficiency did not influence their proportions. Similarly, IFN-γ production induced by NK1.1 antibody-ligation (Fig. 7B), cell-mediated lysis of RMA-S target cells by poly(I:C)-activated NK cells (Fig. 7C) and NKG2D-triggered IFN-γ responses by virus-activated NK cells (Fig. 7D) did not differ between KLRG1 KO and WT mice. Moreover, the viral elimination
kinetics after infection with MCMV was similar in both types of mice (Fig. 8A). To avoid strong NK-cell activation via Ly49H/m157 interaction after MCMV infection 32, 33, we finally used mutant MCMV lacking m157 (△m157) 34. We also failed to observe a difference in viral titers in spleen of KLRG1 KO and WT mice under these conditions (Fig. 8B). MCMV titers in liver and lungs of KO mice were very slightly increased but we consider these differences too small to allow any further conclusion. Taken together, these data indicate that KLRG1 is dispensable for normal development
AUY-922 research buy and function of NK cells in the assays used here. Members of the classical cadherin family were recently identified as ligands for KLRG1 22, 23, 25. In addition, we demonstrated that human E-cadherin expressed by K562 target cells inhibited effector function of freshly isolated human NK cells 24 but we failed to observe an inhibitory effect of E-cadherin when IL-2-activated mouse NK cells and B16 target cells were used 22. To test whether E-cadherin expressed by K562 cells could inhibit NK-cell function in the murine system, IL-12-pre-activated Diflunisal mouse NK cells were co-cultured with E-cadherin- or mock-transduced K562 cells and IFN-γ production was determined by intracellular cytokine staining. As shown in Fig. 9A, the IFN-γ response of NK cells from KLRG1-transgenic (TG) mice that constitutively express KLRG1 was significantly decreased by stimulation with E-cadherin- when compared with mock-transduced K562 cells. In contrast, NK cells from KO mice were not inhibited by E-cadherin and we even observed that K562-E-cadherin stimulator cells triggered NK cells from these mice more efficiently when compared with mock-transduced K562 cells. Next, it was of interest to determine whether E-cadherin expressed by K562 cells also inhibited KLRG1+ NK cells from normal WT mice.