Association of decreased natural and antibody-dependent cellular cytotoxicity and production of natural killer cytotoxic factor and interferon in neonates

Cord blood lymphocytes (CBL) were compared with adult peripheral blood lymphocytes (a-PBL) for their: (i) natural killer (NK) and antibody-dependent cellular cytotoxic (ADCC) activities, (ii) target-binding capacity, (iii) ability to induce soluble natural killer cytotoxic factor (NKCF), (iv) interferon (IFN)-, interleukin 2 (IL-2)-, and lectin-induced augmentation of NK activity, and (v) ability to produce IFN against tumor targets in vitro. CBL depleted of adherent cells and Percoll-separated, NK-enriched subpopulations demonstrated significantly lower NK, ADCC, and target-binding activities compared to a-PBL. CBL produced significantly lower levels of NKCF directed against K562 tumor targets in comparison with a-PBL. Although the NK activity of CBL was not stimulated by either IFN or IL-2 to the same levels shown by a-PBL, the percentage enhancement of cytotoxicity of CBL by IFN and IL-2 was greater than that of a-PBL. Lectin-induced enhancement of cytotoxicity was significantly greater for CBL in comparison with a-PBL. Further, the ability of CBL lymphocytes to produce IFN-gamma in vitro against K562 target cells was significantly lower than that of adult PBL. These studies suggest an association between decreased NK, ADCC, and target-binding activities, induction of NKCF and IFN production by CBL, and increased susceptibility of neonates to infection.     

Autologous enhancement by interferon of natural killer activity of human peripheral blood lymphocytes

The in vitro action of interferon (IFN)-alpha and IFN-gamma from six healthy donors and ten patients with multiple sclerosis (MS) on natural killer (INK) activity of peripheral blood lymphocytes (PBL) was studied in an autologous system. The NK activity of PBL was detected by a cytotoxic test using (3)H-uridine human erythromyeloblast K562 cells. Autologous IFN-alpha and IFN-gamma did not augment NK activity of PBL from healthy donors in vitro, whereas in samples from MS patients the IFNs strongly stimulated NK cell cytotoxic function. This stimulation suggests the existence of an inhibitor of regulatory IFN action, that is produced in healthy donors simultaneously with IFN in response to IFN induction, but which is lacking in commercial IFN preparations. The factor-containing supernatants from healthy donors reduced the stimulatory action of autologous IFNs in patients with MS almost until complete blockade. Because this inhibitor was absent in patients with MS, deficiency of an inhibitor of IFN regulatory action in MS could open the way to treatment of this compartment of the immune system.     

Defective interleukin-1 production by natural killer cells of patients with cancer

Summary Large granular lymphocytes (LGLs) from patients with malignant disease and from controls were activated by endotoxin or K562 cells, and the supernatants assayed for interleukin-1 (IL-1) activity. Normal LGLs produced significant amounts of IL-1, the activity of which could be neutralized by anti-human IL-1 antiserum. In patients with advanced cancer depressed IL-1 production was observed, which generally correlated with the degree of cytotoxicity produced by the LGLs. Prior treatment of the LGLs with interferon increased production of IL-1 by both control and patient cells. It is suggested that LGLs coming into contact with K562 cells produce IL-1, which is important in the effector-target cell interaction. The decreased cytotoxic activity of LGLs from cancer patients could be related to a defect in IL-1 production, an effect which can be partially corrected by in vitro interferon treatment.Abbreviations IL-1 Interleukin-1 - LGLs large granular lymphocytes - NK cells natural killer cells - IFN interferon - IL-2 interleukin-2 - HCC hepatocellular carcinoma - MN mononuclear cells - LPS lipopolysaccharide Supported in part by grants from the South African Medical Research Council, the National Cancer Association of South Africa, and the South African Chamber of Mines     

Lack of spontaneous and inducible natural killer cell activity in human bone marrow: presence of adherent suppressor cells

Human bone marrow cells collected from ribs of patients undergoing thoracotomy had low or no natural killer (NK) cell activity against K562 in a 4-hour chromium release assay. In vitro overnight treatment with interferon or interleukin 2 of bone marrow cells resulted in no induction or augmentation of NK cell activity. In the presence of adherent bone marrow cells interferon was unable to enhance NK cell activity of blood lymphocytes, although the baseline level of NK cell activity was not suppressed. These results suggest that adherent bone marrow cells regulate the development of active NK cells and that bone marrow components do not provide a favorable environment for the functional differentiation of NK cells.     

Early-appearing tumor-infiltrating natural killer cells play an important role in the nitric oxide production of tumor-associated macrophages through their interferon production

 Both natural killer (NK) cells and macrophages are thought to be the main effectors responsible for early antitumor defense. In this study, we investigated the role of tumor-infiltrating NK cells in initiating nitric oxide (NO) production by tumor-associated macrophages (TAM). The in vivo depletion of NK cells prior to the i.p. inoculation of melanoma cells resulted in a significant decrease in the NO production of the TAM prepared from the peritoneal exudate cells (PEC). Such prior NK cell depletion also decreased the ability of TAM to show any antitumor activity in vitro. The addition of N ^G-monomethyl-L-arginine (Me-L-Arg) to the culture partially inhibited the ability of TAM to suppress the proliferation of melanoma cells and also decreased their cytolytic activity against melanoma cells. These results suggest that the TAM exhibited both cytostatic and cytolytic activities through their NO production. In an in vivo assay, the administration of Me-L-Arg permitted the more rapid growth of i.p. inoculated melanoma cells compared with the control. On the other hand, the decreased NO production of TAM, resulting from the prior NK cell depletion, was restored by the i.p. administration of interferon γ (IFNγ). In addition, the in vivo administration of anti-IFNγ mAb into mice inoculated i.p. with melanoma cells also significantly decreased the NO production of TAM in peritoneal exudate cells. Furthermore, the tumor-infiltrating NK cells produced a considerable level of IFNγ. Overall, these results indicate that early-appearing tumor-infiltrating NK cells play an important role in the NO production of TAM through their IFNγ production. Received: 11 March 1997 / Accepted: 31 July 1997     

Natural Killer Cells from Patients with Chronic Rhinosinusitis Have Impaired Effector Functions

Natural killer (NK) cells are multicompetent lymphocytes of the innate immune system that play a central role in host defense and immune regulation. Although increasing evidence suggests that innate immunity plays a key role in the pathogenesis of chronic rhinosinusitis (CRS), the role of NK cells in CRS has been poorly studied. This study aimed to characterize the peripheral blood NK cells from patients with CRS, and to compare the functions of these cells with those from non-CRS controls. The correlation between NK cell functional activity and prognosis was also assessed. Eighteen CRS patients and 19 healthy non-CRS controls were included. The patients with CRS were classified into two subgroups, namely a treatment-responsive group and recalcitrant group. NK cell degranulation was determined by measuring the cell surface expression of CD107a against 721.221 and K562 cells. Intracytoplasmic cytokine production was determined by flow cytometry. Compared to the controls, the NK cells of CRS group had an impaired ability to degranulate and to produce cytokines such as IFN-γ and TNF-α. The recalcitrant subgroup showed the most severe defects in NK cell effector functions. Moreover, the decreased NK cell functions in patients with CRS were associated with poor prognostic factors such as concomitant asthma and peripheral blood eosinophilia. NK cells, which were originally named for their ability to mediate spontaneous cytotoxicity towards diseased cells including infected cells, may play an important role in regulating the inflammatory process in CRS pathogenesis.     

Response to and production of interleukin 2 by peripheral blood and cerebrospinal fluid lymphocytes of patients with multiple sclerosis

In an effort to further characterize the defective proliferative response of T lymphocytes to mitogens in multiple sclerosis (MS) patients, we examined the response to and production of interleukin 2 (IL 2) by both peripheral blood lymphocytes (PBL) and cerebrospinal fluid mononuclear cells. We also examined the proportion of cells bearing receptors for IL 2 and transferrin. Chronic progressive MS patients have an abnormally low response to exogenous IL 2 as compared to controls. Whereas acute relapse patients' PBL demonstrated a normal IL 2 response during an exacerbation, they showed reduced responsiveness during remission. These abnormalities could not be explained by different dose or kinetic response optima to PHA or IL 2, nor could they be explained by depressed numbers of IL 2 or transferrin receptor-bearing lymphocytes. Production of IL 2 by PBL was also abnormal in MS patients. Chronic progressive patients produced elevated levels of IL 2, whereas acute relapse patients undergoing an exacerbation produced diminished levels of IL 2. During remission, these levels returned to that of controls'. The effect of 1200 rad x-irradiation or nylon wool removal of adherent cells was a significantly greater augmentation of IL 2 production in MS patients than in other neurologic disease or normal controls. Cerebrospinal fluid lymphocytes from MS patients had normal proportions of IL 2 receptor-bearing cells, but were deficient in their IL 2 response and production as compared to autochthonous or control PBL. The inability of some MS patients' lymphocytes to clonally expand in response to IL 2 might contribute to the pathogenicity of the disease.     

Depressed natural killer cell activity in children with protein--calorie malnutrition. II. Correction of the impaired activity after nutritional recovery

Natural killer (NK) cell activity and responsiveness to interferon (IFN) were measured in the peripheral blood of infants having kwashiorkor or marasmus and of nutritionally recovered malnourished children. Depression of NK activity in the peripheral blood lymphocytes (PBLs) of the malnourished children was noted, while normal levels of activity were observed in the nutritionally recovered infants. Addition of exogeneous interferon in vitro potentiated the NK levels of PBLs from well-nourished and nutritionally recovered infants, but had either a nonsignificant impact on cells from the marasmic infants or a suppressive effect on the cells from infants with kwashiorkor. The success of exogenous interferon to potentiate the NK levels of PBLs from nutritionally recovered infants suggests that nutritional repletion corrects the impaired cellular responsiveness in these patients.     

Depressed natural cytotoxicity but normal natural killer cytotoxic factor (NKCF) production by mononuclear cells derived from patients with hepatocellular carcinoma

Summary This study investigated the relation between the production of natural killer cytotoxic factors (NKCF) and the phenomenon of natural killing (NK) activity against target K562 cells. Two different models of defective NK cell activity were employed. In the first instance, cytotoxic activity of mononuclear cells (MN) derived from patients with hepatocellular carcinoma was compared to the ability of these cells to produce NKCF. Although direct cytotoxicity was considerably impaired in these patients, the ability of their MN to produce NKCF when stimulated with K562 cells was found to be normal. In the second model, MN treated with the lysosomotropic drug monensin showed considerably reduced direct cytotoxic activity, although they were capable of producing normal amounts of NKCF when activated by K562 cells. These results therefore indicate that there is no correlation between NK activity and corresponding NKCF release, and suggest that NKCF production and activity is independent of direct NK cytotoxic activity.     

Natural cytotoxicity of lymphocytes from lymph nodes draining breast carcinoma and its augmentation by interferon and OK432

Summary Lymphocytes isolated from axillary lymph nodes draining breast carcinoma were tested for natural killer (NK) activity against K562 in a 4-h ⁵¹Cr-release assay, and the in vitro effects of interferon (IFN) and OK432 (a streptococcal preparation) on their cytotoxicity were examined in comparison with NK activity of autologous peripheral blood lymphocytes (PBL). The levels of NK activity were lower in lymph node lymphocytes (LNL) than in PBL of the same patients. Significant levels of LNL-mediated lysis were recorded in 14 of 42 (33%) lymph node samples and in nine of 14 (64%) patients. Purification of large granular lymphocytes (LGL) from lymph node cells by discontinuous Percoll density gradient centrifugation resulted in an induction or enhancement of cytotoxic activity, with no reactivity in LGL-depleted, small T-lymphocyte populations. Positive reactions were observed with 10 of 13 (77%) LGL samples. The low reactivity of LNL was not attributable to coexistent suppressor cells for NK function, since lymph node cells failed to suppress NK activity of normal PBL. Partially purified human IFN and OK432 augmented NK activity of patients' PBL in approximately 70% and 90% of the cases, respectively, while LNL-mediated lysis was augmented in only 7% and 36% of the lymph node samples by IFN and OK432, respectively. These results indicate that K562-reactive NK cells and/or their precursors may frequently be present at subthreshold levels in the lymph nodes draining breast carcinoma, and that the augmentation of LNL-mediated cytotoxicity by OK432 might provide a local potentiation of natural immune function at the host-tumor interface rather than IFN.     

Divergence in activation by poly I:C of human natural killer and killer cells

Summary Interferons consistently enhance spontaneous cellular cytotoxicity (SCC) mediated by natural killer (NK) cells. More controversial is the ability of interferons to enhance antibody-dependent cellular cytotoxicity (ADCC) mediated by killer (K) cells. Since NK and K cells appear to represent overlapping subpopulations of lymphocytes, the present study was undertaken to examine in greater detail the relationship between NK and K cell functional modulation by the potent interferon inducer, poly I:C. Utilizing peripheral mononuclear cells from a panel of 21 healthy individuals, treatment in vitro with poly I:C resulted in modulation of both SCC and ADCC. SCC was significantly enhanced in 52 of a series of 55 trials (95%), whereas ADCC was significantly enhanced in parallel in only 18 of the trials (33%). Cells which mediated enhanced ADCC were plastic-nonadherent, which is characteristic of K cells. SCC was consistently enhanced in all but two of the 14 individuals who were tested two or more times. By contrast, the ability of poly I:C to enhance ADCC varied between trials in 11 of these individuals. In the other three, ADCC enhancement never occurred. No correlation existed between SCC and ADCC augmentation despite use of the same target cell to assess the two lytic activities in parallel. Poly I:C exclusively enhanced SCC in 36 trials (65%) and exclusively enhanced ADCC in two trials (4%). Discordance between SCC and ADCC enhancement also occurred in three of eight trials (38%) in which lymphocytes were treated directly with interferon a. Results in long-term (18-h) ⁵¹Cr-release assays indicated that poly I:C accelerated the kinetics of ADCC without affecting the proportion of target cells lysed by K cells. By contrast, an increased proportion of target cells was killed by poly I:C-stimulated NK cells. These results suggest that the controversy concerning relative interferon effects upon NK and K cells derives from differences both quantitative and qualitative in nature. K cell activity is enhanced but at a relatively low frequency. Enhancement of NK cell activity is selective in the sense that it occurs independently of and with greater frequency than enhancement of K cell activity. Distinct biological mechanisms may, therefore, be involved in regulation and expression of NK and K cell activation by interferons.     

Effect of interferon on the inhibition of malignant cell growth by human peripheral leukocytes. III. Effect of systemic administration

Human leukocyte interferon preparation (HuIFN-alpha LE) was given to the patients with cancer or with chronic hepatitis. Spontaneous tumor cell growth inhibition by human peripheral lymphocytes (STGI) and NK activity were enhanced by the systemic administration of HuIFN-alpha LE, although there were differences in the kinetics between the two activities after one time administration or by the repeated administration. This suggests that IFN acts indirectly on the tumor cells by the medium of normal lymphocytes or NK cells, and that tumor cell growth inhibition is different from NK activity.     

Reduction of the peripheral blood CD56(bright) NK lymphocyte subset in FTY720-treated multiple sclerosis patients

FTY720 (fingolimod) treatment of multiple sclerosis (MS) results in lymphopenia due to increased recruitment into and decreased egress from secondary lymphoid organs of CCR7(+) lymphocytes. Although absolute numbers of NK lymphocytes were reported as being unaltered in FTY720-treated MS patients (MS-FTY), such analyses did not detect a change in a minor subset. Because expression of CCR7 has been described on CD56(bright) NK cells, a minority population of NK cells, we investigated the effect of FTY720 treatment on the phenotype and function of human NK cells in the peripheral circulation of MS patients. MS-FTY patients displayed a decreased proportion of peripheral CD56(bright)CD62L(+)CCR7(+) NK cells compared with untreated MS and healthy donors. In vitro treatment with FTY720-P increased migration of untreated donor NK cells to CXCL12 while reducing the response to CX3CL1 with similar migration responses seen in NK cells from MS-FTY patients. FTY720-P inhibited sphingosine 1-phosphate-directed migration of CD56(bright) and CD56(dim) NK cells subsets from untreated healthy donors. IL-12- and IL-15-stimulated NK cells from MS-FTY patients displayed similar capacity to produce IFN-γ, TNF, IL-10, and MIP-1α cytokines/chemokines compared with NK cells from untreated healthy donors and displayed comparable levels of degranulation in response to K562 tumor cells compared with untreated donors. Subset alterations and function of NK cell populations will need to be considered as part of assessing overall immunosurveillance capacity of patients with MS who will receive sustained FTY720 therapy.     

Characteristics of the NK cells in Syrian hamsters carrying tumors with varying metastatic and resistance-suppressing activity

Experiments in vivo and in vitro were made to study the effects of HETR-MLN-8 and HETR tumor cells differing in metastatic ability and inhibition of the natural host resistance to tumor on cytotoxic activity of NK from Syrian hamsters. Marked inhibition of cytotoxicity and ability for interferon activation was detected in NK isolated from tumors (as compared with blood), with that inhibition being far more pronounced in highly malignant HETR-MLN-8 tumors. This may indicate a direct inhibitory action of the tumor or its products on NK cytotoxicity. The in-vitro competition inhibition test yielded results showing that HETR-MLN-8 cells capable of in-vivo inhibition of the natural host resistance to the tumor also display much more demonstrable ability for in-vitro inhibition of NK cytotoxicity as compared to HETR cells.     

Generation of natural killer cell lines from murine long-term bone marrow cultures

Functionally active natural killer (NK) cells with the ability to lyse 51Cr-labeled YAC-1 lymphoma target cells are no longer detectable by 1 wk of culture in cultured marrow cells harvested from Dexter-type long-term marrow cultures (LMC). Interferon, which enhances NK cell-mediated target cell lysis, fails to induce NK activity from LMC cells even at high effector to target cell ratios. However, such LMC cells, when placed in secondary cultures in the presence of Con A-splenic leukocyte-conditioned medium (spleen-CM) generated a population of cells with NK activity within 1 wk. Kinetic studies showed that the generation of NK activity was not due simply to proliferation of a few surviving NK cells, but suggested derivation from NK precursors through clonal expansion and functional maturation. This NK activity was further shown to be associated with a subpopulation of cells bearing surface Thy-1, Ly-5, and NK-1 as well as asialo-GM1 antigens but lacking Ly-1 antigen. The expression of Ly-2 antigen, however, was variable. Electron microscopy studies of isolated asialo-GM1-positive cells showed a uniform lymphoblastoid morphology with large cytoplasmic to nuclear ratios and prominent electron dense cytoplasmic granules characteristic of large granular lymphocytes. In support of the NK nature of such cultured cells was the ability of anti-asialo-GM1 and complement to abrogate, and of interferon to augment, target cell lysis. Isolated cell lines also showed target selectivity similar to NK cells. The implications of the studies on further analysis of the nature of NK precursors is discussed.     

Mechanism for the suppression of gamma-interferon responsiveness in mice after thermal injury

As reported previously, gamma-interferon production was decreased after the administration of inducers to thermally injured mice as compared with noninjured controls. Similarly, spleen cells from injured mice had decreased ability to produce interferon in vitro after stimulation with inducers. The present study demonstrated that the decrease in interferon production was associated with the presence of suppressor cells in the spleen of burned mice that were capable of inhibiting interferon production by normal splenic lymphocytes in vitro. Passive transfer of spleen cells containing suppressor cell activity derived from injured mice induced suppression in normal mice, and the time of the appearance of suppressor cell activity in injured mouse spleens closely approximated the time of the appearance of the suppression of interferon production observed in mice after thermal injury. The suppressor cells were characterized as a population of macrophages by the following: they adhered to plastic surface and could be removed from spleen cells by carbonyl-iron treatment; treatment of plastic-adherent cells with anti-Thy-1.2 and anti-mouse immunoglobulin antisera followed by complement failed to abrogate the suppression produced by these cells.     

Effect of interleukin-2 on the monomeric IgG-induced inhibition of human natural killer cell activity

Monomeric IgG (mIgG) has been previously shown to inhibit human natural killer (NK) cell activity when effector cells were treated prior to the cytotoxic assay. In the present study the interaction between negative regulation by mIgG and positive regulation by interleukin-2 (IL-2) was examined. Although a dose-dependent boosting of NK activity was found upon incubation of nonadherent lymphocytes (NAL) with recombinant or natural IL-2 for 2 h at 37 degrees C, the NK effector cells remained responsive to down-regulation to mIgG. However, when NAL were treated with IL-2 under supraoptimal conditions (higher doses and longer periods of incubation than required for optimal boosting of NK activity) the subsequent addition of mIgG had a significantly reduced inhibitory effect. This partial resistance to suppression by inhibitory IgG was observed only when the second treatment was performed without washing the IL-2-pretreated effector cells. Moreover, addition of antihuman interferon gamma antibodies during the incubation of NAL with IL-2 almost abolished the loss of responsiveness of the IL-2-activated killer cells to mIgG-induced inhibition. These data provide additional evidence for the ability of interferon gamma to reverse or block the down-regulation of NK activity by mIgG.     

Immunomodulatory effects of corticosteroids on natural killer and antibody-dependent cellular cytotoxic activities of human lymphocytes

The in vitro effect of prednisolone (PRD) on NK and ADCC activities of human lymphocytes was investigated. PRD at concentrations ranging from 7.5 X 10(-3) to 1 X 10(-5) M significantly inhibited NK activity, while concentrations of 7.5 X 10(-3) to 1 X 10(-4) M inhibited ADCC activities of PBL when added directly to the mixture of effector and target cells. Lymphocytes pre-cultured for 24 hr with PRD at concentrations ranging from 1 X 10(-4) M to 1 X 10(-6) M showed significant suppression of their NK activity. Inhibition was proportional to the concentration of the drug, and was observed at as early as 1 hr of incubation at various effector to target cell ratios with several targets. PRD also inhibited NK and ADCC activities of purified T cells, non-T cells, and NK-enriched effector cells. In target-binding assays, PRD decreased the target-binding capacity of effector lymphocytes in a dose-dependent manner. PRD-induced inhibition could be reversed by incubating lymphocytes for 1 hr with interferon or IL 2. Pretreatment of targets with PRD for 4 hr did not affect cytotoxic activity. Inhibition of cytotoxicity was not due to direct toxicity to effector cells because lymphocytes treated with PRD showed normal spontaneous 51Cr release, and their viability after 24 hr of pre-culture with PRD was comparable to that of untreated control cells. These results demonstrate that PRD has significant immunomodulatory effects on human NK and ADCC activities that may be of clinical relevance.     

Suppression of human natural and antibody-dependent cytotoxicity by soluble factors from unstimulated normal lymphocytes

Serum-free culture supernatants of unstimulated normal human peripheral blood mononuclear cells contain soluble suppressor factor(s) (SSF) that significantly inhibit natural (NK) and antibody-dependent cellular cytotoxic (ADCC) activities of allogenic lymphocytes against a variety of target cells. Lymphocytes precultured with increasing concentrations of SSF showed a dose-dependent suppressive effect on these cytotoxic functions that was optimal at a concentration of 20% volume/volume. Adherent cells were not required for the production of SSF. Suppression was evident even at higher effector: target cell ratios and the inhibition was not reversed by washing lymphocytes. SSF was not itself cytotoxic, was stable at 56 degrees C, and its suppressive effect was maximal after 72 hr of incubation with effector lymphocytes. Initial estimate of the molecular weight of SSF by ultra-filtration was less than 20,000 daltons. Gel filtration of SSF on Sephacryl S-200 resulted in the elution of two peaks of activity; one in the region between markers of 13,700 and 25,000 daltons, and the other less than 13,700 daltons. Both fractions demonstrated significant suppressive activity on NK and ADCC functions of allogenic lymphocytes. SSF inhibition of NK activity could be partially reversed by incubating lymphocytes for 1 hr with human leukocyte interferon (IF) and almost completely reversed after 24 hr of IF treatment. A few selected monosaccharides (alpha-methyl-D-mannoside, L-fucose and L-rhamnose) showed a dose-dependent blocking effect on SSF activity, which suggests that SSF may act via receptor sites recognized by these sugars. As demonstrated for other lymphocyte functions, NK and ADCC activities may also be modulated by SSF elaborated by normal PBL.     

An evaluation of the maternal natural killer cell population during the course of murine pregnancy

Earlier work from this laboratory revealed an increase in the level of null (Thy-1-, IgM-) lymphocytes in the maternal lymphoid organs during the first pregnancy in the mouse that was more pronounced during allogeneic pregnancy than during syngeneic pregnancy. In view of the suggestive evidence for the bone marrow origin of these null cells, the functional significance of the null cell rise was explored in this study by an examination of (1) splenic NK activity as measured by the 51Cr-release assay using YAC-1 lymphoma targets, (2) the incidence of NK lineage cells in the spleen as measured by the ability of splenic null lymphocytes to bind YAC-1 lymphoma targets, and (3) the possible presence of a NK target structure on placental trophoblast cells, studied with a cold target competition assay. Results revealed that the absolute levels of null lymphocytes, NK lineage cells, and NK activity in the spleen increased moderately and nearly at the same time during syngeneic pregnancy. During allogeneic pregnancy all three parameters increased more significantly, the rise in the levels of NK activity and NK lineage cells somewhat preceding the null cell rise, suggesting preferential recruitment of active NK cells within the null lymphocyte population of the spleen. Trophoblast cells appeared to share NK target structures with YAC-1 lymphoma cells, suggesting that a rise in the NK cell level in both pregnancy types may represent a response of the mother to such target structures. Since the density of such moieties was similar for homozygous and heterozygous trophoblasts, a higher NK cell response during allogeneic pregnancy is considered to result indirectly from an alloreactive response of the mother to the paternally encoded antigens on the fetoplacental unit, possibly from a stimulation of interferon producing cells such as macrophages. Nevertheless, such a response appears to be harmless for the allogeneic conceptus.