雌激素对天然杀伤细胞的作用

为探讨雌激素对NK细胞的作用,在不同时间把不同剂量的雌激素加入培养体系中,分析雌激素对无和有外来刺激原刺激NK细胞的影响。结果显示培养开始加入生理剂量、低于生理剂量和超生理剂量的雌激素均可明显抑制NK细胞的增殖;培养48 h后加入相同剂量的雌激素,生理剂量和低于生理剂量雌激素仍可明显抑制NK细胞的增殖,超生理剂量雌激素非但不能抑制反而使NK细胞的数量增加。     

Adoptively transferred dendritic cells restore primary cell-mediated inflammatory competence to acutely malnourished weanling mice

Immune depression associated with prepubescent malnutrition underlies a staggering burden of infection-related morbidity. This investigation centered on dendritic cells as potentially decisive in this phenomenon. C57BL/6J mice, initially 19 days old, had free access for 14 days to a complete diet or to a low-protein formulation that induced wasting deficits of protein and energy. Mice were sensitized by i.p. injection of sheep red blood cells on day 9, at which time one-half of the animals in each dietary group received a simultaneous injection of 10(6) syngeneic dendritic cells (JAWS II). All mice were challenged with the immunizing antigen in the right hind footpad on day 13, and the 24-hour delayed hypersensitivity response was assessed as percentage increase in footpad thickness. The low-protein diet reduced the inflammatory immune response, but JAWS cells, which exhibited immature phenotypic and functional characteristics, increased the response of both the malnourished group and the controls. By contrast, i.p. injection of 10(6) syngeneic T cells did not influence the inflammatory immune response of mice subjected to the low-protein protocol. Antigen-presenting cell numbers limited primary inflammatory cell-mediated competence in this model of wasting malnutrition, an outcome that challenges the prevailing multifactorial model of malnutrition-associated immune depression. Thus, a new dendritic cell-centered perspective emerges regarding the cellular mechanism underlying immune depression in acute pediatric protein and energy deficit.     

Functional activity of natural killer cells and killer T cells in mice after ovarian transplantation

Tashkent Postgraduate Medical Institute, Ministry of Health of the USSR. (Presented by Academician of the Academy of Medical Sciences of the USSR N. A. Lopatkin). Translated from Byulleten' Éksperimental'noi Biologii i Meditsiny, Vol. 112, No. 9, pp. 273–275, September, 1991.     

TLR3 ligand-induced accumulation of activated splenic natural killer cells into liver

It has been revealed that poly I：C is a potent stimulator for NK cells, which can induce NK cell rapid activation and preferential accumulation into liver. However, the process mediating the influx of NK cells remains obscure. In this study, we found that poly I：C administration increased the portion and absolute number of NK cells in liver, but largely decreased those in spleen. There were no obvious changes of these lymphocytes in other immune organs. The results from splenic adoptive transfer and splenectomy showed that the recruited spleen NK cells contributed to the accumulation of NK cells in liver, and this process was regulated by the production of chemokines and the presence of T cells. This investigation will help to understand the enhanced immune cell recruitment in liver upon viral infection. Cellular ＆ Molecular Immunology. 2005;2（6）：449-453.     

Natural killer cells in murine muscular dystrophy. IV. Characterization of Percoll fractionated splenic and thymic natural killer cells and natural killer-sensitive thymocyte targets

The Natural Killer (NK) activity in the thymus and NK-sensitive thymocyte targets of dystrophic mice was investigated. Dystrophic and normal mouse thymocytes or spleen cells were layered on discontinuous Percoll gradients (5 or 10% increments, respectively) between 40 and 70% and centrifuged at 1700 g for 30 min. All fractions were tested for either NK activity or used a 51Cr-labeled NK-sensitive targets in a 6-hr 51Cr release assay. The density interface between the 50% (1.060 g/ml) and 60% (1.075 g/ml) Percoll fractions of either dystrophic or normal mouse spleen cells and the 40% (1.050 g/ml) and 50% (1.060 g/ml) Percoll fractions of either dystrophic or normal mouse thymocytes were found to contain the largest proportion of NK activity using YAC-1 lymphoma tumor cells as targets. In addition, the NK activity in dystrophic mouse spleen cells and thymocytes was significantly greater when compared with normal mouse controls. Target binding cell studies revealed that these Percoll fractions of dystrophic mouse spleen cells and thymocytes had greater numbers of conjugate-forming cells when compared with normal control groups. Cell depletion experiments using either anti-Thy 1.2, anti-asialo-GM 1 or anti-NK-1 plus complement treatment revealed that the cell responsible for NK activity in the 50% Percoll fraction interface of dystrophic mouse spleen cells was asialo-GM 1 positive. NK-1 positive, and partially Thy 1.2 positive. However, the cells displaying NK-activity in the thymus of normal or dystrophic mice were found to be highly Thy-1.2 positive and peanut agglutinin (PNA) negative. The density interface between the 60% (1.075 g/ml) and 65% (1.081 g/ml) Percoll fractions of either normal or dystrophic mouse thymocytes contained the largest proportion of NK-sensitive target cells. Interestingly, the 60% Percoll fraction of dystrophic mouse thymocyte targets was significantly more susceptible to NK-mediated lysis than that of the normal mouse thymocyte population. Cell depletion experiments revealed that the NK-sensitive thymocyte population was similar in both mice, that is, Thy-1.2 positive, cortisone sensitive, PNA positive, Dolichos biflorus (DBA) negative and asialo GM-1 negative. The results indicate that there are density differences between splenic and thymic NK cells. In addition, there are density and phenotypic differences between thymic NK cells and thymic NK-sensitive target cells. The findings support the hypothesis that there are different populations of NK cells.     

Interaction between dendritic cells and natural killer cells during pregnancy in mice

A complex regulation of innate and adaptive immune responses at the maternal fetal interface promotes tolerance of trophoblast cells carrying paternally derived antigens. Such regulatory functions involve uterine dendritic cells (uDC) and natural killer (uNK) cells. The existence of a NK and DC "cross talk" has been revealed in various experimental settings; its biological significance ranging from cooperative stimulation to cell lysis. Little is known about the presence or role of NK and DC cross talk at the maternal fetal interface. The present study shows that mouse NK and DC interactions are subject to modulation by trophoblast cells in vitro. This interaction promotes a tolerogenic microenvironment characterized by downregulation of the expression of activation markers on uNK cells and uDC and dominance of Th2 cytokines. NK and DC interactions would also influence uterine cell proliferation and this process would be strongly modulated by trophoblast-derived signals. Indeed; while low proliferation rates were observed upon regular coculture allowing direct contact between uterine cells and trophoblasts, incubation in a transwell culture system markedly increased uterine cell proliferation suggesting that soluble factors are key mediators in the molecular "dialog" between the mother and the conceptus during the establishment of mouse pregnancy. Our data further reveal that the regulatory functions of trophoblast cells associated with tolerance induction are impaired in high abortion murine matings. Interestingly, we observed that secretion of interleukin-12p70 by uDC is dramatically abrogated in the presence of uNK cells. Taken together, our results provide the first evidence that a delicate balance of interactions involving NK cells, DC, and trophoblasts at the mouse maternal fetal interface supports a successful pregnancy outcome.     

子痫前期小鼠动物模型的NK细胞和细胞因子的变化

目的:探讨磷脂酰丝氨酸(PS)/磷脂酰胆碱(PC)诱导的先兆子痫模型小鼠中自然杀伤(NK)细胞在外周血、脾脏及子宫的数量及其表面受体的变化,同时了解外周血中的细胞因子(TGF-β、TNF-α和IFN-γ)的水平.方法:用磷脂酰丝氨酸(PS)/磷脂酰胆碱(PC)诱导小鼠出现先兆子痫(PE)样症状,流式细胞仪检测自然杀伤(NK)细胞在外周血、脾脏及子宫的数量和表面受体,酶联免疫法检测外周血中TGF-β、TNF-α和IFN-γ.结果:我们建立的PE样小鼠模型是成功的;与对照组相比,gd17.5时PS/PC组外周血和脾脏中NK细胞数目增加.gd11.5时子宫中NK细胞数目突然增加,随后逐渐降低,且在gd14.5和gd17.5时PS/PC组比对照组NK细胞数目明显减少.PS/PC组脾脏中表面受体CD122表达显著降低,而CD244、CD94及NKG2D均显著增加;子宫中所有表面受体显著降低.在gd11.5、gd14.5及gd17.5时,与对照组相比,PS/PC组外周血中TGF-β的表达水平显著增加;而TNF-α和IFN-γ表达的水平大多不发生明显变化.结论:PE可能与母胎界面处NK细胞的数量及表面受体改变有关.外周血中TGF-β的增加可能抑制子宫处NKG2D等NK细胞表面受体的表达.关于TNF-α和IFN-γ在PE样小鼠模型中的作用还需进一步研究.     

Enrichment of murine splenic natural killer (NK) cells by the sequential elimination of non-NK cells

A simple and reliable three-step procedure to enrich for murine endogenous splenic NK cells is described. The method is based on the sequential elimination of non-NK cell subsets by standard and inexpensive techniques executed in a specific order. First, macrophages and other adherent cells are eliminated by incubation on plastic surface. Secondly, the T cells are excluded from the multicellular aggregates formed by agglutination of the remaining cells with wheat germ lectin. Thirdly, after dissociation of the aggregates with N-acetyl-D-glucosamine and osmotic lysis of erythrocytes, NK cells are separated from other nucleated cells by nylon wool filtration. C57BL/6 spleen cells were used to establish the enrichment procedure. Usually their NK cell activity is intermediate but occasionally either low or high NK cell activity was observed in input cell suspensions. The NK cell activity recovery and the degree of enrichment varied inversely with the initial NK cell activity level of the input cell suspension. When initial NK cell activity was intermediate, it was enriched 10-30-fold. Experiments were done to establish if suppressor cells, and nylon wool-adherent, naturally activated NK cells, putatively present in input cells, could have been responsible for the abnormal initial NK cell activity detected in some C57BL/6 spleen cell suspensions and for the variations in the degree of enrichment achieved by the method here described. Either no or negligeable suppressor cell activity was noted in the cell fractions normally discarded at each step of the procedure. On the other hand, nylon wool-adherent NK cells were eliminated during the fractionation of spleen cells with higher than average initial NK cell activity and would account for the lower NK cell enrichment obtained in these conditions.     

Lymphokine-activated killer cells, natural killer cells and cytokines

In the past year, natural killer cells have been the subject of much active investigation. The analysis of the effect of cytokines on the generation, proliferation and function of natural killer cells, and the definition of the lymphokines that they produce, have been particularly important areas of research in view of their possible application in adaptive immunotherapy, combined with biological response modifiers.     

Clearance of Giardia muris infection in mice deficient in natural killer cells.

Immunocompetent C57BL/6J mice and beige mice (which are deficient in natural killer cells) were infected with Giardia muris. Both types of mice cleared G. muris infection at similar rates. This observation suggests that clearance of G. muris parasites from the mouse intestine is not mediated by natural killer cells.     

Correlation of natural killer cell activity and clearance of Cryptococcus neoformans from mice after adoptive transfer of splenic nylon wool-nonadherent cells.

Previous reports demonstrate that natural killer (NK) cells inhibit the growth of Cryptococcus neoformans in vitro, but conclusive evidence supporting the effectiveness of NK cells in host resistance to cryptococci is not available. The objective of these studies was to assess the ability of NK cells to clear C. neoformans from the lungs, livers, and spleens of infected mice. CBA/J mice were depleted of NK cells, as well as other natural effector cells, by an intraperitoneal injection of cyclophosphamide (Cy), 240 mg/kg of body weight. One day later, 7.5 X 10(7) nylon wool-nonadherent (NWN) spleen cells, either untreated or treated with anti-asialo GM1 and complement to remove NK cells, were adoptively transferred to Cy-pretreated mice. On day 2 after Cy treatment, the mice were injected intravenously with 2 X 10(4) cryptococci. At 4 and 6 days after Cy treatment, tissues were assayed for NK reactivity, using a 4-h 51Cr-release assay, and for in vivo clearance of cryptococci as reflected by mean log10 CFU per organ. We observed that Cy treatment depleted NK activity against YAC-1 targets and reduced in vivo clearance of C. neoformans from the tissues of infected mice. Additionally, Cy treatment depleted the total lung and spleen cellularity and the total number of peripheral blood lymphocytes when compared with those in normal untreated control mice. Also, spleen weights were significantly decreased in comparison with those of untreated animals 4 days after Cy treatment. Adoptive transfer of untreated NWN spleen cells into Cy-depressed mice restored the NK cell activity which correlated with enhanced clearance of cryptococci from lungs, livers, and spleens. In contrast, treatment of NWN spleen cells with anti-asialo GM1 and complement before adoptive transfer abrogated the ability of these cells to restore NK activity or reduce the numbers of cryptococci present in tissues of infected mice. Taken together, these data indicate that NK cells are the cells effective in diminishing the numbers of cryptococci in tissues of infected mice. Consequently, NK cells may play a role in first-line host resistance against C. neoformans.     

Functions of natural killer cells

Natural killer (NK) cells are effector lymphocytes of the innate immune system that control several types of tumors and microbial infections by limiting their spread and subsequent tissue damage. Recent research highlights the fact that NK cells are also regulatory cells engaged in reciprocal interactions with dendritic cells, macrophages, T cells and endothelial cells. NK cells can thus limit or exacerbate immune responses. Although NK cells might appear to be redundant in several conditions of immune challenge in humans, NK cell manipulation seems to hold promise in efforts to improve hematopoietic and solid organ transplantation, promote antitumor immunotherapy and control inflammatory and autoimmune disorders.     

Interferon-γ Expression in Natural Killer Cells and Natural Killer T Cells Is Suppressed in Early Pregnancy

Recent study has suggested that innate immune system might play an important role in pregnancy progression. In this study, to investigate whether NK cells and NKT cells, instead of T cells, are the dominant populations of peripheral blood in early pregnancy, flow cytometry was used to detect the percentage and intracellular cytokine expressions of T cells, NK cells, NKT cdls in peripheral blood of non-pregnant women and early pregnant women. In our result, the percentages of NK calls and NKT calls were significantly increased in pregnancy compared to non-pregnancy. However, the percentage of T cells was not changed. We did not detect the Th2-dominance of total lymphocytes or T cells in peripheral blood of early pregnant women and there were also no significant changes of type 1 and type 2 cytokines in T cells, but IFN-γ production in both NK and NKT cells was decreased in early pregnancy. These results suggest that the innate immune system including NK cells and NKT cells should play a pivotal role in pregnancy progression. Type 1/type 2 shift mechanisms in innate immune system during the human early pregnancy should be paid more attention.     

Analysis of roles of natural killer cells in defense against Plasmodium chabaudi in mice

 Mice that have recovered from a primary infection with Plasmodium chabaudi have been shown to resist a secondary infection. In the present study the authors investigated how natural killer (NK) cells were involved in this resistance. Spleen cells from P. chabaudi-primed C57BL/6 mice could transfer protection against P. chabaudi infection into naive syngeneic mice, but spleen cells from unprimed mice could not. T-enriched cells purified from primed spleen cells could also transfer such protection. Transfer of NK cells from primed spleen cells failed to protect against challenge infection. However, depletion of NK cells in host mice by injection of an anti-NK1.1 monoclonal antibody resulted in higher mortality relative to controls. The possible protective roles of NK cells in P. chabaudi infection are discussed. Received: 27 July 1995 / Accepted: 27 October 1995     

Enrichment of mouse splenic natural killer cells using discontinuous polyvinylpyrrolidone silica (Percoll) gradients.

A simple and rapid method is reported here for enriching murine spleen cells with natural killer (NK) function as assessed by short-term cytolysis assay of 51Cr-labelled YAC-1 lymphoma target cells. The established method used for the enrichment of NK reactive cells, including large granular lymphocytes (LGL) from human and rat peripheral blood lymphocytes, does not substantially enrich for mouse splenic NK cell activity. A reproducible procedure for enriching mouse splenic NK cells has been developed using a four- or five-step discontinuous Percoll gradient in the density range of 1.062 g/ml (top) to 1.092 g/ml (bottom) and osmolarity (310-340 mOsm/kg) nearer to that of mouse blood and tissue. A four- to 25-fold (usually about nine-fold) increase in NK cell activity, consisting of 50-100% of the recovered lytic unit activity, is found in which are the cells forming band 3, approximately 10% of the recovered cell number. This cell population with enriched NK cell activity has a characteristic density less than or equal to 1.077 g/ml, but more than 1.070 g/ml when centrifuged under appropriate conditions. Similar enrichment was obtained with a four-step gradient at an uniform osmolarity of 320 mOsm/kg throughout. Although the lymphocytes in band 3 show relatively little heterogeneity in appearance, only a minor population of the cells contain granules.     

Regulatory T cells decrease invariant natural killer T cell-mediated pregnancy loss in mice

Pregnancy loss is the commonest complication of pregnancy. The causes of pregnancy loss are poorly understood. It has been reported that stimulation of invariant natural killer T (iNKT) cells using α-galactosylceramide (αGC) induces pregnancy loss in mice. Here we investigated the mechanisms, especially the role of regulatory T (Treg) cells, in iNKT cell-mediated pregnancy loss. We found that injection of αGC rapidly induced fetal resorption, activated decidual iNKT cells, decreased the percentage of decidual Treg cells and their interleukin (IL)-10 and transforming growth factor (TGF)-β production, and upregulated the levels of interferon (IFN)-γ, tumor necrosis factor-α, IL-4, and IL-10 in serum. Adoptive transfer of iNKT cells from wild-type (WT) and IL-4^−/− mice but not IFN-γ^−/− mice into αGC-treated iNKT cell-deficient Jα18^−/− mice restored αGC-induced pregnancy loss. Adoptive transfer of Treg cells downregulated α-GC-induced pregnancy loss in WT mice. Finally, co-culture with αGC-stimulated decidual iNKT cells decreased the production of IL-10 and TGF-β in decidual Treg cells and inhibited their suppressive activity. These findings suggest that activation of iNKT cells induces pregnancy loss in mice in an IFN-γ-dependent manner. In addition, inhibition of the function of decidual Treg cells has an important role in iNKT cell-mediated pregnancy loss.     

Role of natural killer cells in resistance to Cryptococcus neoformans infections in mice.

Previous studies have suggested a possible role for natural killer (NK) cells in resistance to some fungal infections, including Cryptococcus neoformans infections. The role of NK cells in early clearance of C neoformans from tissues and in long-term survival was studied in mice following intravenous inoculations of the organism. Mice treated with anti-asialo GM1 antiserum to temporarily reduce NK activity demonstrated an increase in colony-forming units (CFU) of C neoformans in the lung 24 hours after an intravenous inoculation of the organism. CFU in liver, spleen, kidney, and brain were not different in anti-asialo GM1 antiserum-treated versus control mice. An NK-specific reagent, anti-NK 1.1 monoclonal antibody, was used to deplete mice of NK cells in vivo for at least 14 days without affecting other natural defenses. The number of C neoformans retained in the lungs 24 hours after inoculation of the organism was significantly greater in NK cell-depleted mice than in controls, although CFU in other organs were unaffected. Following the intravenous inoculation of C neoformans, the survival of anti-NK 1.1-treated mice was not different from control mice. The effect of NK cell activity on resistance to C neoformans was also determined after an intratracheal inoculation of the organism. Mice pretreated with anti-NK 1.1 demonstrated no increases in CFU in the lungs, spleen, or brain as compared with controls. These data indicate that NK cells can play a role in vivo in early resistance against C neoformans if the organism is delivered via the intravenous route. However, NK cells do not play a role in either determining survival after an intravenous inoculation nor in resistance during an infection acquired via the respiratory tract.     

Characterization of age-related changes in natural killer cells during primary influenza infection in mice

The current investigation examined the importance of natural killer (NK) cells during the innate immune response to primary influenza infection in young and aged mice. Young (6-8 weeks) and aged (22 months) C57BL/6 mice were infected intranasally with influenza A virus, and NK cell-mediated cytotoxicity was determined in lung and spleen during the first 4 days of infection. Aged mice demonstrated both a decrease in influenza-inducible NK activity and a reduction in the percentage and number of NK1.1+ cells in response to primary influenza infection, relative to young mice. In order to further establish a role for NK cells in controlling influenza infection, young mice were depleted of NK cells in vivo by injecting rabbit anit-NK1.1 antibody 2 days and 1 day prior to influenza infection. Young mice depleted of NK cells exhibited increased weight loss and lung virus titers during the course of infection, compared to young mice infected with influenza virus. These data indicate that NK cell function is impaired in response to primary influenza infection in aged mice. More importantly, these results underscore the essential role of NK cells in controlling virus titers in lung during the early course of influenza infection, regardless of age.