Studies on the mechanism of low natural killer cell activity in infant and aged mice

NK activity in mice is high between about 6 and 10 weeks of age. In contrast, infant mice and mice older than 12-14 weeks of age usually have quite low or undetectable NK activity. Studies were performed to analyze the mechanisms underlying this characteristic age-related regulation of NK activity. Spleen cells from infant mice did not develop appreciable NK activity upon incubation for 12-18 h with either interferon (IFN) or interleukin-2 (IL-2). Analysis of the frequency of IL-2-dependent progenitors of NK cells, in a limiting dilution assay, also indicated that the spleens of infant mice are deficient in precursors of NK cells. In contrast, spleen cells from old mice (30 weeks old) developed substantial levels of NK activity upon incubation with either IFN or IL-2, and they showed a frequency of IL-2-dependent progenitors of effector cells that was similar to that of young mice. Both infant and old mice had plastic-adherent suppressor cells in their spleens, which could strongly inhibit NK activity. In addition, both infant and old mouse spleen cells contained nonadherent suppressor cells, which had a higher density on Percoll gradients than NK cells. Thus, several factors appear to contribute to the age-related regulation of NK activity in mice.     

Growth of tumor cells with different sensitivities for murine natural killer cells in young and adult athymic nude mice

Of four tumor cell lines, the murine YAC lymphoma, the human K562 lymphoma, and the human prostatic carcinomas PC3 and PC93, the susceptibility to murine natural killer (NK) cells as well as the tumorigenicity in young (3.5-4 weeks old) and in adult (8-10 weeks old) nude mice were studied. In young nude mice, which exhibited a lower level of NK cell activity than adult nude mice, the formation of solid tumors after inoculation of tumor cell suspensions occurred more frequently and with a shorter time lag than in adult animals. These effects were observed not only with the NK-sensitive YAC cells, but also with the relatively NK-insensitive PC3 and PC93 cells, indicating that also factors other than NK cell susceptibility may influence the growth of tumor cells in nude mice. Therefore, the use of young nude mice may enhance the rate of success of heterotransplantation of human tumors, regardless of the NK cell susceptibility of the tumor cells.     

Genetic studies on a tumor growth-inhibitory factor in serum of normal mice and its relationship to NK activity

It has been shown that normal mouse serum contains a tumor growth-inhibitory factor (GIF). and that strain-dependent levels of GIF correlate with mouse NK activity. To further analyze the genetic control of GIF we have studied the growth-inhibitory activity of normal mouse serum from 8 different mouse strains and their F1 hybrids. A sensitive method using a chromogenic substrate for an endogenous lysosomal enzyme was used to measure the inhibitory activity of normal mouse serum on the mouse B16 melanoma. The highest level of GIF was found in old mice, lower activity in serum of young animals and no activity in suckling mice. To compare the genetic control of GIF and NK, spleen NK activity against B16 as well as YAC-1 targets was measured in parallel in the same animals. Confirming previous results we found the H-2k strains CBA and C3H to have high levels of GIF as well as NK activity, while the strain A/Sn and the A congenic strain A.SW had low levels of both activities. Experiments with H-2d and H-2b strains, however, showed that GIF and NK had a different genetic control; thus the DBA/2 and Balb/c strains had considerably higher GIF activity than the C57B1 and Leaden strains, while the reverse was true for NK activity. In F1 hybrid crosses between strains with high and low activity, high activity was inherited as a dominant trait for both GIF and NK. A backcross analysis in (A X CBA) X A backcross mice, segregating for NK and GIF showed that the two activities did not cosegregate. These studies therefore demonstrate that GIF and NK activity are under different genetic control, and do not support any direct or simple relationship between GIF and NK cells.     

Inverse correlation between natural antitumor antibodies and tumor susceptibility in individual xid-bearing mice

Natural antibodies (NAb), natural killer (NK) cells and activated macrophages have all been implicated in the rejection of threshold syngeneic tumor inocula. Previous analysis of tumor susceptibility in normal versus inbred and F1 mice bearing the B cell deficiency associated with the xid mutation of CBA/N mice demonstrated an inverse relationship between the tumorigenicity of the RI-28, a radiation-induced leukemia of the CBA/H strain, and the pooled anti-RI-28 serum NAb levels in mice with the same genetic origins. No relationship with tumor susceptibility was seen with NK cell or in vivo activated macrophage cytolysis. Flow-cytometric determination of antitumor serum NAb bled from individual male and female (CBA/N X CBA/J)F1 mice 1 week prior to the threshold tumor inoculation has revealed extensive heterogeneity within the NAb levels of each sex. A comparative analysis of tumor fate with NAb activity revealed that tumors appeared in only 26.3% of animals with a mean fluorescence channel binding above 60 channels in contrast with 77.3% of animals with lower NAb levels. These data extend to the level of individual hosts the support for an inverse relationship between host NAb activity and tumor susceptibility. In addition, subsequent analysis of serum antitumor NAb levels, splenic NK cytolysis and in vitro lymphokine-activated macrophage activity with all three mediators originating from the same individual F1 mice showed no consistent correlations between these natural resistance activities, arguing for the exclusion of deficiencies in NK cell or macrophage function as the basis for the differential tumor susceptibility in individual F1 mice.     

Changes in the host natural killer cell population in mice during tumor development. 1. Kinetics and in vivo significance

Our earlier studies revealed an increase in the level of null (surface IgM-negative, Thy 1-negative) lymphocytes in mice shortly after tumor transplantation and before the clinical appearance of spontaneous mammary tumors. The present study examined the splenic natural killer (NK) cell activity as well as the incidence of NK lineage cells in these hosts, since NK cells are considered to be a subset of null lymphocytes. Splenic NK activity against YAC-1 lymphoma targets was measured with a 4-hr 51Cr-release assay in CBA mice transplanted ip with 10(6) Ehrlich ascites tumor (EAT) cells, in elderly C3H mice prior to and during the growth of spontaneous mammary tumors (SMT) and in young C3H mice transplanted sc with 5 X 10(6) SMT cells or 10(6) cells from two syngeneic mammary tumor lines (T-58 and MT-2) of recent origin. In EAT-transplanted mice total NK activity in the spleen increased rapidly to a peak (11-fold) at 3 days, coincident with the null cell rise, but then declined to subnormal levels by Day 7 when the null cell level was still high. A similar pattern of activity was exhibited by intratumor lymphocytes isolated from the EAT. In SMT-transplanted mice splenic NK activity showed a small rise at Day 3, followed by a drop to below normal at Day 7, subnormal levels lasting for the tumor life span. Similar results were noted in T-58- or MT-2-transplanted mice. Null lymphocytes recovered during the peak NK activity from the spleen of 3-day EAT-bearing mice, when mixed with 10(6) EAT cells at 25:1 E:T ratio and adoptively transferred into fresh mice in a Winn type assay either ip or sc, completely prevented tumor development indicating a high enrichment of NK cells functionally effective in vivo. Elderly clinically tumor-free C3H mice showed measurable NK activity, which dropped after the appearance of spontaneous mammary tumors to very low levels, the magnitude of decline rising with increasing tumor age (1-11 weeks) or size. The incidence of NK lineage cells was measured from the tumor target (YAC-1 lymphoma)-binding ability of the splenic null cells, identified with a radioautographic technique. Null target-binding cells (TBC) were NK-1+ and included both active as well as inactive NK lineage cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Induction of natural killer cell activity and perforin and granzyme B gene expression following continuous culture of short pulse with interleukin-12 in young and old mice

Anticancer immunotherapy with cytokines is often limited by the occurrence of severe toxicity, particularly in older age groups, which are characterized by a reduced tolerance to antineoplastic therapies. We, and others, have recently demonstrated the efficacy of pulsing procedures with IL-2 as a new therapeutic strategy to induce antitumor cytotoxic cells. The aim of this paper was to evaluate the effect of IL-12 on NK cell activity in young and old mice and to investigate the possibility of inducing NK cytotoxicity and perforin and granzyme B gene expression through a brief exposure of spleen lymphocytes from young and old mice to IL-12. Pulsed lymphocytes were compared with non-pulsed cells cultured continuously in IL-12. IL-12 was able to boost both endogenous and IL-2-induced NK cell activity in young and old mice; the levels of cytotoxicity were lower in old than in young animals although the relative increase of IL-12 plus IL-2 versus IL-2 alone was greater for old mice. Comparable levels of NK cell activity were obtained in pulsed (5 min-1 hour) and non-pulsed lymphocytes from both young and old mice after one or three days of culture. The efficacy of the pulsing procedure was evident in both endogenous and IL-2-induced NK cytotoxicity. The mRNA encoding perforin and granzyme B were markedly and similarly enhanced in both IL-12-pulsed and non-pulsed lymphocytes in comparison with control cells. The results demonstrate the effectiveness of IL-12 pulsing in inducing antitumor cytotoxic cells, suggesting the possibility of using IL-12 pulsing, alone or in combination with IL-2, in the immunotherapy of both young and old subjects.     

Comparative evaluation of stress-induced depression of normal killer activity in old and young animals and its elimination by interferon

The data are presented on the comparative evaluation of a poststress decrease in the activity of normal killer cells, determined in the test of the release of 41Cr from target cells YAC-1 in young and old CBA mice after 6-hour immobilization. The use of mouse leukocyte interferon and poly I . poly C acid has been shown to be highly effective for the restoration of the activity of normal killer cells in young animals after its stress-induced suppression, while in old animals these immunomodulators have proved to be considerably less effective in restoring the activity of natural killer cells at the period following the stress. The probable role of disturbances, affecting the functional properties of the normal killer cell population in old animals, in the mechanism of the poststress decrease of natural cell-mediated immunity is discussed.     

Altered production and renewal of natural killer cells in B-lymphocyte-deficient CBA/N mice

The present study was designed to measure by quantitative and kinetic methods the production and renewal of natural killer (NK) cells in congenitally B-lymphocyte-deficient (CBA/N) mice. The total NK activity (percent specific lysis corrected for changes in whole organ cellularity) of the bone marrow and spleen of immunologically normal (CBA/CaJ) and CBA/N mice was assayed prior to and immediately after 48 h treatment (2 X/day, i.p.) with the cell cycle poison hydroxyurea (HU) and at various intervals throughout the subsequent post-HU recovery period. The total NK activity (TNKA) of untreated CBA/N bone marrow was 154% of that of CBA/CaJ bone marrow while the TNKA of CBA/N spleen was not significantly different (112%) from that of CBA/CaJ spleen. At the conclusion of 48 h HU, bone marrow TNKA of CBA/N and CBA/CaJ mice fell to 60 and 49%, respectively, of their saline-injected (2 X/day, i.p.) control levels, while spleen TNKA fell to 42 and 61%, respectively, of their saline-injected control levels. In the bone marrow, NK cell depletion in response to HU was more rapid in CBA/N mice (day 0.5 after HU) than in CBA/CaJ mice (day 2 after HU). TNKA of the spleen also decreased more rapidly in CBA/N mice (day 2 after HU) than in CBA/CaJ mice (day 3 after HU). The data indicate an enhanced production and turnover of NK cells in CBA/N mice relative to CBA/CaJ mice. Moreover, increased production and renewal of NK cells in CBA/N mice together with virtually unchanged levels of NK activity (112% of CBA/CaJ mice) in CBA/N mouse spleens indicate that mature lytic NK cells in CBA/N spleen but not bone marrow have a significantly shorter post-mitotic life span than do NK cells in the spleens of immunologically normal (CBA/CaJ) mice.     

Effect of differential housing in mice on natural killer cell activity, tumor growth, and plasma corticosterone.

Various forms of stress have been shown to alter natural killer (NK) cell activity and tumorigenesis; however, few studies have measured these two variables simultaneously. Isolation of mice was utilized as a model of stress by which to study NK cell activity and pulmonary metastatic response following a tumor challenge. Male C3H mice were group or individually housed for 3 weeks, after which CIRAS 3 fibrosarcoma tumor cells or the tumor vehicle was injected intravenously (tail vein), NK cell activity, pulmonary metastasis, and plasma corticosterone were measured 1, 7, and 21 days following tumor cell inoculation. Individually housed mice, irrespective of tumor or vehicle condition, had a higher NK response on Day 1 relative to group-housed animals (P less than 0.001). By Day 21, tumor condition, rather than housing, was the major significant factor affecting NK activity (P less than 0.001). Nevertheless, individually housed, tumor-injected mice still had higher NK activity compared with the other treatment groups on Day 21. No effect of housing condition was present for the incidence of pulmonary metastases or frequency of metastases in affected animals. Plasma corticosterone levels generally increased over the study period, with no housing or injection effects at Days 1 and 7. Individually housed, vehicle-injected mice had higher corticosterone levels at Day 21 (P less than 0.01). These data suggest that in response to housing condition, NK cell activity differs in tumor-bearing mice and vehicle controls. Furthermore, CIRAS 3 pulmonary tumor formation is not affected by differences in NK activity consequent to housing condition. Plasma corticosterone does not appear to be a major in vivo regulator of NK activity in this experimental tumor system. Finally, the interpretation of housing effects on NK activity and plasma corticosterone levels depends on the temporal window in which sampling occurs.     

Neuropeptide Y effects on murine natural killer activity: changes with ageing and cAMP involvement

Changes in the bidirectional interaction between the nervous and the immune systems have been proposed as a cause of ageing. Neuropeptides, such as neuropeptide Y (NPY), could show different effects on immune function with age. In the present work, we have studied the in vitro action of a wide range of NPY concentrations, i.e. from 10(-13) to 10(-7) M, on natural killer (NK) activity, a function which decreases with age. Spleen, axillary nodes, thymus and peritoneum leukocytes from mice of different ages: young (12+/-2 weeks), adult (24+/-2 weeks), mature (50+/-2 weeks) and old (72+/-2 weeks) were used. Stimulation by NPY of NK activity was observed in adult and mature animals in axillary nodes and thymus, and an inhibition in the spleen from young mice. The specificity of the NPY effect on cytotoxic activity was confirmed using a C-terminal fragment of NPY. Furthermore, cAMP levels in leukocytes were found to be decreased by NPY in adult mice, suggesting an involvement of this messenger system in the NK modulation by this neuropeptide.     

Influence of dietary restriction and aging on natural killer cell activity in mice

Natural killer cells (NK) are believed to defend against tumor growth. Because rodents subjected to dietary restriction without malnutrition live longer and develop spontaneous tumors less often or later in life than unrestricted controls, we measured NK activity in restricted and in unrestricted mice. An age-related decline in NK responses to YAC-1 tumor target cells was detected in both groups. NK responses for control mice were highest in 2- to 3-mo-old mice, sharply reduced in middle-age mice (14 to 15 mo), and slightly reduced further in old mice (30 to 33 mo). At all ages the response of restricted mice was less than that of controls. However, after injection with Poly I:C (which increases NK activity), old restricted mice showed NK cytolysis not different from young mice on either diet, and substantially higher responses than old unrestricted mice. In addition, restricted mice showed increased in vitro generation of cytotoxic T lymphocytes (CTL) to YAC-1 and P815 compared with age-matched controls. Restricted mice may better resist cancer via an NK system very responsive to induction signals coupled with a CTL system more effective than that of unrestricted controls.     

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).     

Cell lines from old immunodeficient donors give normal responses in young recipients.

Two different immune responses were compared in spleen cells obtained from old and young CBA/HT6J mice. Spleen cells from old mice (23 to 33 months) responded about half as well as did spleen cells from young mice (4 to 10 months) in the adoptive transfer anti-sheep red blood cell (SRBC) plague-forming assay, and caused slightly less than half the uptake of tritiated thymidine in response to phytohemagglutinin (PHA) in vitro. Marrow stem cell from some of the old and young mice whose splenic immune responses were tested were transplanted into irradiated young CBA/CaJ recipients. Seven to 17 weeks later these same immune responses were tested in the spleen cells of these young recipients, and the T6 chromosome marker was used to identify donor cells. Old animals' responses varied greatly, perhaps due to suppressing cells or factors in some individuals. Therefore, cells were never pooled and the responses of receipients were compared to the responses of the donor whose marrow had populated them. The response for a particular old donor, or for the recipients of its stem cells, was divided by the response for the young control used with that donor, or for its stem cell recipients. This was called the old/young ratio. With original donors with an old/young ratio for the SRBC response of (mean +/- S.D.) 0.35 +/- 0.14, The old/young ratio for that same response in the recipients was significantly improved to 1.26 +/- 0.71. In original donors with an old/young ratio for the PHA response of 0.44 +/- 0.17, the old/young ratio in the recipients improved significantly to 0.86 +/- 0.27. Thus, little or none of the decline with age in these immune responses was intrinsic to the old lymphoid stem cells.     

Influence of aging and poly IC treatment on xenobiotic metabolism in mice

Cytochrome P-450-dependent and independent metabolism of xenobiotics in the liver of C57BL/10ScSn male mice was investigated in relation to age and the age-related differences in response to treatment with polyriboinosinic-polyribocytidylic acid (poly IC), an interferon inducing agent. Young (3 months), middle-aged (15 months) and old (27 months) animals were studied. Mean survival time of males of this strain is 30-33 months. Age-related changes in the metabolism of xenobiotics included significant decreases between middle and old age in activities of the microsomal P-450-dependent mixed function oxidases (MFO), aryl hydrocarbon hydroxylase (AHH) and p-nitroanisole (p-NA) O-demethylase, but not 7-ethoxycoumarin (7-Ec) O-deethylase. Analysis of P-450-independent enzymes revealed a significant decrease in the epoxide hydrolase activity in the microsomes and cytosol from old compared to middle-aged or young mice. Glutathione S-transferase activity towards 1-chloro-2,4-dinitrobenzene (CDNB) was lower in cytosols of middle-aged and old than young mice. Carboxylesterase activity was not altered by age. Hepatic microsomal protein content was significantly higher in middle-aged and old than in young mice. Intraperitoneal treatment with a single dose of 5 mg/kg poly IC 24 hours before sacrifice resulted, for mice of all age groups, in a marked inhibition of activities of all 3 microsomal cytochrome P-450-dependent enzymes, without any changes in activities of the P-450-independent enzymes. The inhibition of AHH by poly IC was much higher in old and middle-aged than in young mice, averaging 87.1%, 74.5%, and 41.9%, respectively, in the 3 age groups. Poly IC treatment increased lipid peroxidation in liver homogenates of all groups of mice. Body and liver weights were not altered in animals of the 3 age groups by poly IC treatment, but hepatic microsomal protein contents were significantly decreased.     

Lipid-DNA complexes induce potent activation of innate immune responses and antitumor activity when administered intravenously.

Cationic lipid-DNA complexes (CLDC) are reported to be safe and effective for systemic gene delivery, particularly to the lungs. However, we observed that i.v. injection of CLDC induced immunologic effects not previously reported. We found that even very low doses of CLDC administered i.v. induced marked systemic immune activation. This response included strong up-regulation of CD69 expression on multiple cell types and systemic release of high levels of Th1 cytokines, from both lung and spleen mononuclear cells. CLDC were much more potent immune activators on a per weight basis than either LPS or poly(I:C). The remarkable potency of CLDC appeared to result from enhancement of the immune stimulatory properties of DNA, since cationic lipids alone were without immune stimulatory activity. Systemic treatment with CLDC controlled tumor growth and significantly prolonged survival times in mice with metastatic pulmonary tumors. NK cells accumulated to high levels in the lungs of CLDC-treated mice, were functionally activated, and released high levels of IFN-gamma. The antitumor activity induced by CLDC injection was dependent on both NK cells and IFN-gamma. Thus, DNA complexed to cationic liposomes becomes highly immunostimulatory and capable of inducing strong antitumor activity when administered systemically.     

In vivo role of natural killer cells: involvement of large granular lymphocytes in the clearance of tumor cells in anti-asialo GM1-treated rats

The present study was performed to further evaluate the possible in vivo involvement of natural killer (NK) cells in host resistance against tumors. Selective depression of NK activity in Wistar Furth rats was induced by i.p. or i.v. injection of rabbit anti-asialo GM1. This antiserum has previously been shown to produce a decrease in NK activity and a parallel increase in tumor growth in mice. In the present study, rats treated with this antibody showed a parallel decrease in NK activity and in the frequency of large granular lymphocytes (LGL) in the spleen and peripheral blood, indicating that the antiserum-induced depression of NK activity in these sites was probably caused by an elimination of most effector cells. To further determine the possible role of rat LGL in tumor rejection in vivo, we studied LGL involvement in the rapid clearance of radiolabeled tumor cells from the lungs, an assay previously shown to correlate well with in vitro NK activity. Animals treated with anti-asialo GM1 antiserum were found to have a substantial decrease in the in vivo rate of clearance of tumor cells from the lungs. Furthermore, the adoptive transfer of a highly enriched population of LGL into NK-depressed animals 2 hr before tumor challenge, partially restored their cytotoxic activity against established cell lines in vitro and their ability to eliminate radiolabeled cells from the lungs. These results provide direct support for the hypothesis that NK cells are involved in in vivo resistance to tumors, particularly in the elimination of potentially metastatic tumor cells from the circulation and capillary beds.     

Changes in the host natural killer cell population in mice during tumor development. 2. The mechanism of suppression of NK activity

Our earlier studies revealed that a rapid and progressive loss of splenic NK activity in mice during the development of a number of transplanted tumors as well as of spontaneous tumors was due to an inactivation of natural killer (NK) lineage cells rather than to their disappearance. The mechanism of this inactivation have now been explored in CBA/J mice receiving transplanted Ehrlich ascites tumors and in C3H/HeJ mice bearing spontaneous mammary tumors or receiving transplants of syngeneic mammary tumor lines of recent origin. A poor activation state or maturation arrest of NK lineage cells due to a low interferon level in vivo was ruled out, since the host NK activity could not be restored after administration of either an interferon inducer poly(I:C) or interferon-alpha, although such treatments enhanced the activity in tumor-free mice by four- to eightfold. Possible presence of host suppressor cells acting on the effector or preeffector stage of NK cells was explored by mixing spleen cells from tumor bearers with normal spleen cells either during the NK assay, or for a 20-hr period of in vitro short-term culture prior to the NK assay. Mixing during the NK assay led to a reduction of NK activity explicable by a simple dilution of active NK cell concentration rather a suppression of active NK cells. On the other hand, a 20-hr coculture of the mixed population at various ratios led to a complete abrogation of the NK activity, indicating that the suppressor cells acted on the preeffector stage of the NK Lineage. A further characterization of suppressor cells revealed that they were (1) contained in the adherent fraction of the spleen of tumor bearers, (2) of monocyte/macrophage morphology, (3) capable of phagocytosing latex particles, and (4) positive for surface Mac-1 antigen, as noted from a radioautographic binding of 125I-labeled monoclonal anti-Mac-1 antibody. The mechanism of the suppression was identified, at least in part, as being mediated by prostaglandin-like molecules, since the presence of indomethacin, a prostaglandin-inhibitor, during the 20-hr coculture period completely abrogated the suppression. Indomethacin exerted no direct effect on the recruitment or killer activity of NK lineage cells in vitro. NK cell suppression may be another normal immunoregulatory mechanism which alters the host-tumor balance in favor of the tumor rather than the host.     

Effects of a low-pathogen environment on natural killer cells of normal and B lymphocyte-deficient mice.

The effect of short-term exposure (1 month) to a low-pathogen environment (LPE) on NK cell levels in the bone marrow and spleen of immunologically normal CBA/CaJ and B-lymphocyte-deficient CBA/N mice was assessed using both functional (51Cr release) and histological methods. The total NK activity (TNKA), i.e. the percentage specific lysis corrected for changes in whole organ cellularity, of the spleens of LPE-exposed CBA/CaJ mice was not significantly different from that of conventionally reared control mice of that strain (112%), while TNKA of the bone marrow of LPE-exposed mice fell to 27% of that of the bone marrow of conventionally reared controls. TNKA of the spleen and bone marrow of LPE-exposed CBA/N mice was reduced (30%) and elevated (120%), respectively, relative to their conventionally reared counterparts. The numbers of asialo-GM-1-positive (ASGM-1+) lymphoid cells, putative NK cells, in CBA/CaJ spleens were more numerous in conventionally reared than in LPE-exposed mice (4.9 X 10(6) vs. 2.7 X 10(6), and were also more numerous in the bone marrow of conventionally reared mice than in LPE-exposed animals (8.0 X 10(4), vs. 3.0 X 10(4) cells). Similarly, in LPE-exposed CBA/N mice, the numbers of ASGM-1+ lymphoid cells in the spleens and bone marrow were lower (2.7 X 10(6) and 5.4 X 10(4), respectively) than those of the spleens and bone marrow of their conventionally reared counterparts (3.8 X 10(6) and 10.0 X 10(4), respectively). The results demonstrate that short-term maintenance in an LPE affected the NK cells of both the spleen and bone marrow of immunologically normal and B-lymphocyte-deficient mice in a strain-specific manner and suggest that the external environment may regulate NK cell production and turnover.     

Mononuclear phagocyte-derived IL-10 suppresses the innate IL-12/IFN-gamma axis in lung-challenged aged mice

Previously, we reported that IL-10-producing mononuclear phagocytes increase in lungs of aged mice, causing impaired innate cytokine expression. Since dendritic cells (DCs) contribute to innate NK cell and adaptive T cell immunity, we tested the hypothesis that age-related IL-10 might influence DC function with effects on NK and T cell activation. The results showed that DC recruitment to sites of lung inflammation was normal in aged mice (>20 mo). However, IFN-gamma-producing NK cells in LPS-challenged lungs were decreased in aged as compared with young mice, which was associated with increased IL-10(+)CD11b(+)Gr-1(low)CD11c(-) cells consistent with mononuclear phagocytes. In vivo or in vitro blockade of IL-10 signaling restored IFN-gamma-producing NK cells. This restoration was reversed by IL-12 neutralization, indicating that IL-10 suppressed sources of IL-12 in aged mice. To probe DC function in adaptive immunity, we transferred young naive OVA-specific TCR transgenic T cells to old mice. Following challenge with OVA plus LPS, Ag presentation in the context of MHC-I and MHC-II occurred with similar kinetics and intensity in draining lymph nodes of young and old recipients as measured by proliferation. Despite this, aged hosts displayed impaired induction of IFN-gamma(+)CD4(+), but not IFN-gamma(+)CD8(+), effector T cells. Blockade of IL-10 signaling reversed age-associated defects. These studies indicate that the innate IL-12/IFN-gamma axis is not intrinsically defective in lungs of aged mice, but is rather suppressed by enhanced production of mononuclear phagocyte-derived IL-10. Our data identify a novel mechanism of age-associated immune deficiency.     

NK cells rapidly remove B16F10 tumor cells in a perforin and interferon-gamma independent manner in vivo

Natural killer (NK) cells have been shown critical in reducing tumor lung metastasis in various murine cancer models. Effector molecules such as perforin and IFN-γ may play important roles in inhibition of metastasis. However, most of these conclusions were based on experiments that involved quantitation of metastatic colonies several weeks after tumor challenge. The roles of NK cells and their effector molecules (perforin and IFN-γ) in the initial immune responses against tumor metastasis in lungs are still unknown. By using the B16F10 melanoma tumor model combined with confocal microscopy, we observed an increase in numbers of B16F10 cells in NK-depleted mice at 60 min post tumor inoculation, but this effect was independent of perforin or IFN-γ. In addition, NK cell numbers in lungs after tumor injection rapidly increased suggesting a redistribution of NK cells in the lungs. However, NK cells were not found in contact with tumor cells until day 6 or later. Our data indicate that during early responses against B16F10 cells, NK cells use another mechanism(s) besides perforin and IFN-γ to prevent tumor metastasis.