Augmentation of mouse natural killer cell activity by muramyl dipeptide and its analogs

The ability of muramyl dipeptide (MDP) and its structural analogs (des-MDP, abu-MDP, and des-abu-MDP) to influence mouse natural killer (NK) cells in two different strains of mice was examined. In CBA/J mice, administration of MDP by both intraperitoneal (ip) and intravenous (iv) routes enhanced splenic NK cell activity. Maximum augmentation of NK cell activity was observed 3 days after MDP treatment. NK cell activity was also stimulated upon in vitro culture of CBA/J mouse spleen cells with MDP. Only iv inoculation of MDP to C57BL/6 mice 7 days previously enhanced NK cell activity of spleen cells. Peritoneal NK cell activity was not affected in either strain of mice, regardless of the route of inoculation of MDP. Two structural analogs of MDP, abu-MDP and des-abu-MDP, enhanced peritoneal NK cell activity, whereas des-MDP had no effect when tested 3 days after ip treatment of CBA/J mice with these compounds. Peritoneal NK cell activity of C57BL/6 mice was not modulated by des-MDP, abu-MDP, or des-abu-MDP. A synergistic effect on peritoneal NK cell activity was observed in both CBA/J and C57BL/6 mice treated first with MDP and then with lipopolysaccharide (LPS) or Bacillus Calmette-Guerin (BCG).     

Purine nucleoside modulation of functions of human lymphocytes.

The accumulation of endogenous substrates in patients with adenosine deaminase deficiency or purine nucleoside phosphorylase deficiency is believed to be responsible for the immunodeficiency observed in these patients. To identify the lymphocyte populations that are most susceptible to these substrates, we investigated the effect of their nucleoside analogs on a number of T and B cell functions of human lymphocytes. We found that tubercidin (Tub), 2-chloro 2'deoxyadenosine (2CldA), 2-fluoro adenine arabinoside-5'phosphate (FaraAMP), and 9-beta-D-arabinosyl guanine (AraGua) inhibited the proliferative responses of human peripheral blood mononuclear cells (PBMC) to polyclonal activators (PHA, OKT3 mab) or to allogeneic PBMC in mixed lymphocyte cultures (MLC). Addition of recombinant IL-2 from the beginning of the culture did not alter the inhibition by Tub of the proliferative responses of PBMC. These purine nucleoside analogs also inhibited the proliferative responses of purified human peripheral blood CD4+ and CD8+ T cells to PHA and of purified B cells to SAC. The concentrations of these nucleosides required to achieve a given degree of inhibition of proliferative responses of T lymphocyte subpopulations or B cells was similar, suggesting that these analogs do not exhibit any selectivity for these purified lymphocyte populations. Tub and FaraAMP, respectively, inhibited and enhanced, at the effector phase, both NK cytotoxicity and specific T cell-mediated cytotoxicity. In contrast to these findings, LAK cytotoxicity at the effector phase was not significantly inhibited by Tub, and was not enhanced by FaraAMP. Both analogs inhibited rIL-2-induced proliferative responses of PBMC, but did not affect the generation of LAK cytotoxicity (induction phase) against the K562 targets when added at the beginning of the culture. This suggests that DNA synthesis is not required for LAK cell induction. Both Tub and FaraAMP inhibited immunoglobulin production (IgG and IgM) by PBMC in the PWM-induced system. These results demonstrate that purine nucleoside analogs significantly inhibited a number of functions of human lymphocytes. Although selectivity for T lymphocyte subpopulations and B cells was not observed, a differential effect of Tub and FaraAMP on LAK cytotoxicity versus NK cytotoxicity and specific T cell cytotoxicity was found.     

Modulatory effect of zinc on the proliferative response of murine spleen cells to polyclonal T cell mitogens

To study the effect of zinc on the proliferative response to polyclonal T cell mitogens, spleen cells from C57BL/6 mice were cultured with or without ZnCl2 and stimulated with graded doses of concanavalin A or phytohemagglutinin. Addition of 10(-4) M ZnCl2 inhibited proliferation whereas 10(-5) to 10(-6) M ZnCl2 did not modify the response to suboptimal doses of mitogen but increased DNA synthesis in cultures stimulated with high doses of mitogen (10 or 20 micrograms/ml of concanavalin A and 10 or 25 microliters/ml of phytohemagglutinin) which are supraoptimal for C57BL/6 mice, and inhibited proliferation in cultures of spleen cells from animals of this strain, low responder to T cell mitogens. In contrast, supplementation with ZnCl2 did not enhance the response to mitogen of spleen cells from high responder BALB/c mice. The enhancing effects of ZnCl2 on the proliferative response of C57BL/6 cells were not observed following depletion of adherent cells or in cultures supplemented with 5 X 10(-5) M 2-mercaptoethanol, both conditions capable of abrogating the inhibitory effect of high mitogen doses on the response of C57BL/6 cells.     

Activation of murine B lymphocytes by suramin

Suramin stimulated DNA synthesis in spleen cell cultures of all inbred strains of mice tested, including, for example, CBA, DBA/2, C57BL/6, and the lipopolysaccharide (LPS)-nonresponsive strain C3H/HeJ. The cells responding to the drugs were removed by passage through nylon wool columns, but they were not eliminated by in vivo treatment of the mice with anti-Thy 1.2 antibody. Spleen cells of homozygous nude mice (C57BL/6 or BALB/c background) were as reactive as those of their heterozygous littermates. Collectively the data show that suramin is a B-cell mitogen in the mouse.     

Participation of natural killer cells in the recovery of mice from visceral leishmaniasis

After infection with the protozoan parasite Leishmania donovani, C57BL/6J bg/bg (beige) mice, which are deficient in natural killer (NK) activity, were unable to control splenic parasite loads relative to phenotypically normal C57BL/6J bg/+ and +/+ mice, particularly beyond 21 days of infection. When beige mice were injected intravenously with 2 or 3 X 10(6) syngeneic, cloned NK cells (NKB61B10 cell line), they displayed splenic parasite burdens which did not differ significantly from those of normal controls. In C57BL/6 +/+ mice rendered NK deficient by split-dose irradiation (four weekly, 200-rad doses of gamma irradiation beginning at 4 weeks of age) splenic and hepatic parasite levels were significantly higher than those in nonirradiated controls at 15 days of infection and beyond. In both sets of experiments, relative degrees of hepato- and splenomegaly were not sufficient to account for differences in parasite burdens among NK-deficient and normal mice. Taken together, the results of these experiments suggest that NK cells may contribute to parasite elimination during the acquired-resistance phase of L. donovani infection in mice.     

An analysis of the natural killer cell defect in beige mice

Although C57BL/6 bg^J/bg^J mice exhibit very low or undetectable levels of endogenous natural killer cell activity, such activity can be induced by the administration of BCG or tilorone hydrochloride to these animals. This cytotoxic activity has been shown to be due to NK cells by the criteria of nylon-wool nonadherence and of effector cell sensitivity to treatment with either anti-asialo GM₁ serum or high concentrations of anti-Thy 1.2 serum, in the presence of complement. Even after the administration of inducing agents, however, beige mice continue to display significantly less NK activity than do their heterozygous littermates. In an attempt to ascertain what cell might be defective in responding to induction, we utilized an in vitro system in which the induction of NK activity by poly I:C in a nylon-wool nonadherent population is dependent upon plastic-adherent cells. We found that adherent cells from either beige or heterozygous mice were indistinguishable in their ability to restore the NK response of nylon-wool-nonadherent spleen cells stimulated with poly I:C. This was true when either beige or heterozygous mice were used as the source of responder cells. Thus, it appears that the defect in responsiveness to inducing agents may reside in the beige NK cell itself.     

Role of natural killer cells as immune effectors in encephalitis and demyelination induced by Theiler's virus

Infection of susceptible mice (SJL) with Theiler's murine encephalitis virus (TMEV) causes a biphasic disease characterized by gray matter inflammation followed by late chronic demyelination. The role of NK cells was studied in this model by using susceptible (SJL) or resistant (C57BL/10) mice. CNS TMEV titer were higher in SJL compared with C57BL/10 mice, correlating with a 50% lower NK cell activity in the SJL than in the C57BL/10 mice. When resistant (C57BL/10) mice were depleted of NK cells using either mAb NK1.1 or polyclonal anti-asialo-GM1, TMEV induced the development of diffuse encephalitis and meningitis early in the postinfection period (days 6 to 11). However, the second phase of TMEV-induced CNS disease (demyelination) was observed only in resistant C57BL/10 mice treated with anti-asialo-GM1. Experiments with beige/beige mice of C57BL/10 background showed a mild degree of gray matter inflammation but no demyelination. In conclusion, NK cells are critical effectors in protecting against TMEV-induced gray matter disease, whereas a different population of either NK1.1- NK cells, or other activated lymphocytes may be critical in resistance/susceptibility to demyelination.     

Induction of natural killer cell responses by ectromelia virus controls infection

Natural killer (NK) cells play a pivotal role in the innate immune response to viral infections, particularly murine cytomegalovirus (MCMV) and human herpesviruses. In poxvirus infections, the role of NK cells is less clear. We examined disease progression in C57BL/6 mice after the removal of NK cells by both antibody depletion and genetic means. We found that NK cells were crucial for survival and the early control of virus replication in spleen and to a lesser extent in liver in C57BL/6 mice. Studies of various knockout mice suggested that gammadelta T cells and NKT cells are not important in the C57BL/6 mousepox model and CD4+ and CD8+ T cells do not exhibit antiviral activity at 6 days postinfection, when the absence of NK cells has a profound effect on virus titers in spleen and liver. NK cell cytotoxicity and/or gamma interferon (IFN-gamma) secretion likely mediated the antiviral effect needed to control virus infectivity in target organs. Studies of the effects of ectromelia virus (ECTV) infection on NK cells demonstrated that NK cells proliferate within target tissues (spleen and liver) and become activated following a low-dose footpad infection, although the mechanism of activation appears distinct from the ligand-dependent activation observed with MCMV. NK cell IFN-gamma secretion was detected by intracellular cytokine staining transiently at 32 to 72 h postinfection in the lymph node, suggesting a role in establishing a Th1 response. These results confirm a crucial role for NK cells in controlling an ECTV infection.     

Natural cytolytic activity in mice with natural or induced cellular defects. I. Differential ability of in vitro interleukin-2 addition to augment natural cytolytic function

The ability of in vitro addition of recombinant interleukin 2 (rIL-2) to differentially enhance natural cytotoxicity was assessed using cells from mice with natural and induced cellular defects. In vivo treatment with most immunosuppressive or cytoreductive agents, anti-asialo-GM1 antibody, or gamma irradiation dramatically reduced in vitro cytotoxicity against natural killer (NK) sensitive targets by direct reduction in either percentage specific lysis or lytic units per spleen. In most cases, in vitro addition of rIL-2 (at concentrations causing augmented NK function in cells from naive Balb/C mice) enhanced cytotoxic activity of cells from treatment groups to a normal value but not within the rIL-2-enhanced range of nontreated animals. Additionally, cytotoxic activity of cells from animals treated with certain drugs or gamma irradiation could be augmented by rIL-2 when measured by percentage lysis but not lytic units per spleen. In vivo treatment with cyclosporin A did not affect natural cytotoxic activity and addition of rIL-2 augmented the NK activity in a similar fashion to the profile of naive cells. In experiments using cells from beige (C57Bl/6-bg) mice which have a natural defect in NK activity against YAC-1 targets, addition of rIL-2 (at concentrations causing augmented natural cytotoxic function in cells from C57Bl/6 mice) could not effectively enhance in vitro natural cytotoxic function.     

Natural killer cell activity in murine muscular dystrophy. III. NK-sensitive myoblast cells and lack of NK activity in beige/dystrophic hybrid mice

The NK-susceptibility of dystrophic mouse myoblast cells was investigated. Spleen cells from 8- to 10-week-old normal (+/+) and dystrophic (dy2J/dy2J) male C57BL/6J mice were fractionated on Percoll density gradients and the cells at each density interface were incubated with either 51Cr-labeled YAC-1 or myoblast cells in a 6 hr 51Cr-release assay. Myoblast target cells were obtained from either heterozygous (+/dy2J) or homozygous (dy2J/dy2J) muscle cultures or a transformed tetraploid myoblast line (M14D2). The data indicate that the interface between the 50 and 60% (1.060-1.075 g/ml) Percoll density fractions of spleen cells from either normal or dystrophic mice contains the largest proportion of asialo GM-1 positive and NK-1 positive cells displaying NK activity. Myoblast cells from either heterozygous (phenotypically normal) or homozygous dystrophic mice were not significantly different in susceptibility to NK-mediated lysis by Percoll enriched normal or dystrophic mouse NK cells. However, dystrophic mouse spleen cells had the highest NK activity against both myoblast targets as compared with normal mouse spleen cells. The transformed myoblast cell line, M14D2, was significantly less susceptible to NK-mediated lysis by dystrophic mouse spleen cells when compared with freshly cultured myoblast target cells. Target cell binding studies revealed that conjugate forming cells from the 50% Percoll density interface of dystrophic mouse spleen cells were approximately twofold greater than that of normal mouse spleen cells against either heterozygous or homozygous dystrophic mouse myoblast targets. Cold target inhibition studies revealed that the natural killing of dystrophic mouse myoblast cells was due to a YAC-1 reactive NK cell. Breeding experiments between C57BL/6J homozygous "beige" (bgJ/bgJ) mutant mice and dystrophic (dy2J/dy2J) mice produced beige/dystrophic hybrid mice which displayed clinical symptoms of the dystrophy process by 3 to 4 weeks of age. Spleen cells from these hybrid mice showed no significant differences in NK activity against YAC-1 target cells when compared with homozygous beige mice. Taken together, these results demonstrate the first reported evidence that murine myoblasts are susceptible to NK-mediated lysis. In addition, the data indicate that although dystrophic mouse NK cells recognize myoblast cells as targets, the NK cell studies with the beige/dystrophic hybrid mice do not indicate a direct in vivo role for NK cells in the dystrophy process.     

Suppression of Natural Killer Cells by Sorafenib Contributes to Prometastatic Effects in Hepatocellular Carcinoma

Sorafenib, a multi-tyrosine kinase inhibitor, is a standard treatment for advanced hepatocellular carcinoma (HCC). The present study was undertaken to determine whether the growth and metastasis of HCC were influenced in mice receiving sorafenib prior to implantation with tumors, and to investigate the in-vivo and in-vitro effect of sorafenib on natural killer (NK) cells. In sorafenib-pretreated BALB/c nu/nu mice and C57BL/6 mice, tumor growth was accelerated, mouse survival was decreased, and lung metastasis was increased. However, the depletion of NK1.1⁺ cells in C57BL/6 mice eliminated sorafenib-mediated pro-metastatic effects. Sorafenib significantly reduced the number of NK cells and inhibited reactivity of NK cells against tumor cells, in both tumor-bearing and tumor-free C57BL/6 mice. Sorafenib down-regulated the stimulatory receptor CD69 in NK cells of tumor-bearing mice, but not in tumor-free mice, and inhibited proliferation of NK92-MI cells, which is associated with the blocking of the PI3K/AKT pathway, and inhibited cytotoxicity of NK cells in response to tumor targets, which was due to impaired ERK phosphorylation. These results suggest immunotherapeutic approaches activating NK cells may enhance the therapeutic efficacy of sorafenib in HCC patients.     

A "chimeric" C57l-derived Ly49 inhibitory receptor resembling the Ly49D activation receptor.

Ly49D is a natural killer (NK) cell activation receptor that is responsible for differential mouse inbred strain-determined lysis of Chinese hamster ovary (CHO) cells. Whereas C57BL/6 NK cells kill CHO, BALB/c-derived NK cells cannot kill because they lack expression of Ly49D. Furthermore, the expression of Ly49D, as detected by monoclonal antibody 4E4, correlates well with CHO lysis by NK cells from different inbred strains. However, one discordant mouse strain was identified; C57L NK cells express the mAb 4E4 epitope but fail to lyse CHO cells. Herein we describe a Ly49 molecule isolated from C57L mice that is recognized by mAb 4E4 (anti-Ly49D). Interestingly, this molecule shares extensive similarity to Ly49D(B6) in its extracellular domain, but its cytoplasmic and transmembrane domains are identical to the inhibitory receptor Ly49A(B6), including a cytoplasmic ITIM. This molecule bears substantial overall homology to the previously cloned Ly49O molecule from 129 mice the serologic reactivity and function of which were undefined. Cytotoxicity experiments revealed that 4E4(+) LAK cells from C57L mice failed to lyse CHO cells and inhibited NK cell function in redirected inhibition assays. MHC class I tetramer staining revealed that the Ly49O(C57L)-bound H-2D(d) and lysis by 4E4(+) C57L LAK cells is inhibited by target H-2D(d). The structural basis for ligand binding was also examined in the context of the recent crystallization of a Ly49A-H-2D(d) complex. Therefore, this apparently "chimeric" Ly49 molecule serologically resembles an NK cell activation receptor but functions as an inhibitory receptor.     

The efficacy of biological response modifiers against murine cytomegalovirus infection in normal and immunodeficient mice

The host-mediated antiviral effect of two biological response modifiers (BRM), OK-432 and PS-K, against murine cytomegalovirus (MCMV) was evaluated in normal and immunologically deficient mice of the same litters. In normal littermate mice, BALB/c (nu/+) or C57BL/6 (bg/+), the BRM-induced resistance against MCMV infection was evidenced by increase in fifty percent lethal doses, decrease in titers of viruses replicated in the target organs and augmentation of natural killer (NK) cell activity of the spleen cells. In T cell-deficient, athymic nude mice, BALB/c (nu/nu), the protective effect was manifested by prolongation of the survival, decrease in the virus titers, and increase in the NK-cell activity, but without decrease in mortality. In NK cell-deficient, beige mutant mice, C57BL/6 (bg/bg), the BRM-induced protection was nullified or minimized, and there was little difference in those parameters between BRM-treated and untreated mice. However, with higher doses of OK-432, but not PS-K, or with sublethal doses of MCMV, the NK cell activity was slightly augmented in the beige mutant mice. Thus both NK cell and T cell activity are essential for mice to overcome acute MCMV infection and it is likely that the protective effect of BRM manifests itself fully, at least in immunologically intact mice.     

Synthetic Plasmodium falciparum circumsporozoite peptides elicit heterogenous L3T4+ T cell proliferative responses in H-2b mice

The ability of synthetic P. falciparum (NANP)n circumsporozoite peptides to elicit murine T cell proliferative responses was studied. When C57BL/6, C3H, and DBA/2 mice were injected with (NANP)40, only C57BL/6 (H-2b)-immune lymph node cells proliferated on restimulation in vitro with the same peptide. By using anti-I-A monoclonal antibodies or spleen cells from congenic H-2b mice as a source of antigen-presenting cells, the T cell proliferative response was shown to be restricted to the I-Ab region of the C57BL/6 haplotype. These results are in agreement with previous experiments which demonstrated that the anti-(NANP)40 antibody response was uniquely restricted to C57BL/6 (H-2b) mice. Several C57BL/6 long-term (NANP)n-specific T cell lines and clones were derived. All of the clones exhibited the L3T4 helper T cell phenotype. A considerable heterogeneity of T cell responses was observed when the lines and clones were stimulated with different concentrations of the various peptides studied. The results, together with the observed genetic restriction for both antibody and T cell responses, suggest that perhaps not all individuals who receive a similar repetitive tetrapeptide sporozoite malaria vaccine will develop T cell and or antibody responses.     

Mycoplasma pulmonis infection augments natural killer cell activity in mice

The goal of this study was to determine if experimental Mycoplasma pulmonis infection augmented splenic natural killer (NK) cell activity in mice. A 4 hour 51Cr-release in vitro assay using YAC-1 tumor target cells was employed to measure splenic NK cell activity in C57BL/6J mice infected intraperitoneally with M. pulmonis and in uninfected controls. Transient augmentation of the NK cells was observed, peaking at day 3 postinoculation (PI) and gradually returning to normal levels by day 10 PI. Selective depletion studies showed that the cells responsible for killing target cells were NK cells. They were nonadherent to nylon wool, not susceptible to Thy-1.2 antibody and susceptible to asialo GM1 ganglioside antibody. Inadvertent augmentation of the NK cell system due to M. pulmonis infection may complicate the interpretation of research data, especially in immunology and cancer studies.     

Strain difference in mouse natural killer activity augmented by mouse interferon and poly I.C

The level of natural killer (NK) activity was found to vary considerably among several mouse strains. In vivo and in vitro, interferon (IFN) and IFN inducers have been shown to augment mouse NK activity. C3H/He mice showed high NK activity, DDD/1 and A/J mice low NK activity, and C57BL/6, BALB/c and DBA/2 mice intermediate NK activity after injection with polyinosinic polycytidylic acid (poly I. C.). The same NK activity correlation was observed in nontreated mice, but the NK activities were lower compared with the poly I. C.-injected mice. Moreover, the DDD/1 and A/J mice showed almost no augmentation of NK activity on injection with poly I.C. In vivo, C3H/He, BALB/c and C57BL/6 mice injected with IFN showed augmented NK activity, but DDD/1 mice showed no such reaction. In vitro, C3H/He, BALB/c and C57BL/6 mouse spleen cells treated with IFN also showed augmented NK activity, but DDD/1 mouse spleen cells showed almost none. F1 hybrids between high (C3H/He) and low (DDD/1) NK-activity strains showed high NK activity. Thus, activity is dominant over low activity. The segregation of (DDD/1 X C3H/He) Fl X DDD/1 back-cross mice suggested that the strain differences in NK activity are under polygenic control.     

Distinct organ-dependent mechanisms for the control of murine cytomegalovirus infection by natural killer cells.

Antiviral mechanisms by which natural killer (NK) cells control murine cytomegalovirus (MCMV) infection in the spleens and livers of C57BL/6 mice were measured, revealing different mechanisms of control in different organs. Three days postinfection, MCMV titers in the spleens of perforin 0/0 mice were higher than in those of perforin +/+ mice, but no elevation of liver titers was found in perforin 0/0 mice. NK cell depletion in MCMV-infected perforin 0/0 mice resulted only in an increase in liver viral titers and not in spleen titers. Depletion of gamma interferon (IFN-gamma) in C57BL/6 mice by injections with monoclonal antibodies to IFN-gamma resulted in an increase of viral titers in the liver but not in the spleen. Analyses using IFN-gamma-receptor-deficient mice, rendered chimeric with C57BL/6 bone marrow cells, indicated that in a recipient environment where IFN-gamma cannot exert its effects, the depletion of NK cells caused an increase in MCMV titers in the spleens but had little effect in the liver. IFN-gamma has the ability to induce a variety of cells to produce nitric oxide, and administrating the nitric oxide synthase inhibitor N(omega)-monomethyl-L-arginine into MCMV-infected C57BL/6 mice resulted in MCMV titer increases in the liver but not in the spleen. Taken together, these data suggest that in C57BL/6 mice, there is a dichotomy in the mechanisms utilized by NK cells in the regulation of MCMV in different organs. In the spleen NK cells exert their effects in a perforin-dependent manner, suggesting a cytotoxic mechanism, while in the liver the production of IFN-gamma by NK cells may be a predominant mechanism in the regulation of MCMV synthesis. These results may explain why the Cmv-lr locus, which maps closely to genes regulating NK cell cytotoxic function, confers an NK cell-dependent resistance to MCMV infection in the spleen but not in the liver.     

Identification of functional subpopulations of murine natural killer cells based on their cell surface asialo GM1 phenotype

HSV-1 infection renders a mouse fibroblast cell line (MCN) sensitive to murine splenic NK killing which is independent of interferon (IFN) induction during the assay. This NK (HSV-1) activity is distinctive from conventional NK (YAC-1) in that they cannot be aborted by anti-asialo GM1 (anti-ASGM1) antibody plus complement treatment as NK (YAC-1) does. Further characterization of these two subpopulations was carried out by fluorescence-activated cell sorting (FACS) technique based on their cell surface asialo GM1 (ASGM1) phenotype. While almost all NK (YAC-1) activity resides within FACS-positive population, both ASGM1 positive and negative cell populations can kill the virally infected MCN equally well. One interesting observation is that only the ASGM1 positive cells respond significantly to IL-2 NK boosting. Five different mouse strains (CD-1, C57BL/6J, C57BL/6J-BG, SM/J, and SJL) were compared on their FACS profile with anti-ASGM1 antibody as well as their NK function. The differences observed are discussed.     

Melanoma cell expression of CD200 inhibits tumor formation and lung metastasis via inhibition of myeloid cell functions

CD200 is a cell surface glycoprotein that functions through engaging CD200 receptor on cells of the myeloid lineage and inhibits their functions. Expression of CD200 has been implicated in a variety of human cancer cells including melanoma cells and has been thought to play a protumor role. To investigate the role of cancer cell expression of CD200 in tumor formation and metastasis, we generated CD200-positive and CD200-negative B16 melanoma cells. Subcutaneous injection of CD200-positive B16 melanoma cells inhibited tumor formation and growth in C57BL/6 mice but not in Rag1^−/−C57BL/6 mice. However, i.v. injection of CD200-positive B16 melanoma cells dramatically inhibited tumor foci formation in the lungs of both C57BL/6 and Rag1^−/−C57BL6 mice. Flow cytometry analysis revealed higher expression of CD200R in Gr1⁺ myeloid cells in the lung than in peripheral myeloid cells. Depletion of Gr1⁺ cells or stimulation of CD200R with an agonistic antibody in vivo dramatically inhibited tumor foci formation in the lungs. In addition, treatment with tumor antigen specific CD4 or CD8 T cells or their combination yielded a survival advantage for CD200 positive tumor bearing mice over mice bearing CD200-negative tumors. Taken together, we have revealed a novel role for CD200-CD200R interaction in inhibiting tumor formation and metastasis. Targeting CD200R may represent a novel approach for cancer immunotherapy.