小脑间位核对淋巴细胞功能的调节作用

目的:研究小脑深部核团之一间位核对淋巴细胞功能的调节作用,以拓宽对小脑功能的认识进而增加神经免疫学的知识.方法:在大鼠双侧小脑间位核内注射海人酸(KA)以损毁间位核内神经元的胞体,并设对照组,于小脑间位核内注入等量生理盐水.在手术后的第8、16、32 d分别用血细胞计数法检测动物外周血中淋巴细胞的数量;用四甲基偶氮唑(MTT)比色法检测动物肠系膜淋巴结细胞对刀豆蛋白A(Con A)刺激的增殖反应;用ELISA法检测动物血清中抗绵羊红细胞(SRBC)特异性IgM抗体的生成能力;用流式细胞术测定脾脏自然杀伤(NK)细胞的活性.结果:小脑间位核损毁后的第8、16、32 d,动物外周血中淋巴细胞数都明显低于损毁手术前的淋巴细胞数,也显著低于生理盐水对照组相应时间段的淋巴细胞数.在小脑间位核注射KA后的第8、16、32 d,动物的肠系膜淋巴结细胞由Con A诱导的增殖反应、血清中特异性抗SRBC IgM抗体的生成能力和脾脏NK细胞杀伤靶细胞YAC-1的活性均明显低于生理盐水对照组,但比较损毁后不同时间段的T、B和NK细胞功能的变化,没有发现显著的差异.结论:小脑双侧间位核损毁可导致总淋巴细胞数以及T、B和NK细胞功能均发生不可逆的降低,充分说明小脑间位核可调节淋巴细胞的功能,并提示在正常体内,小脑间位核对淋巴细胞功能具有增强效应.     

小脑-下丘脑投射在小脑顶核调节淋巴细胞数量与功能中的介导作用

目的:探讨小脑顶核对淋巴细胞功能的调节作用及其作用途径。方法:用海人酸(KA)损毁大鼠双侧小脑顶核,术后第8d用血细胞计数法和酶联免疫吸附试验(ELISA)分别检测动物外周血中淋巴细胞数和血清中抗绵羊红细胞(SRBC)特异性IgM抗体水平。用电损毁小脑上脚交叉中顶核投射至下丘脑的神经纤维,检测动物淋巴细胞数和抗SRBC特异性IgM抗体水平的变化。结果:KA注入双侧小脑顶核后第8d,在Nissl染色的小脑切片,呈现双侧顶核内神经元胞体破坏。作为对照,在生理盐水注入顶核的动物脑片上,可见正常的Nissl小体。小脑顶核损毁后第8d,动物外周血中淋巴细胞数占白细胞总数的百分比以及血清中抗SRBC特异性IgM抗体水平均明显高于顶核注射生理盐水的对照动物。电损毁小脑上脚交叉处顶核投射至下丘脑的神经纤维后第8d,外周血中淋巴细胞的百分比及抗SRBC特异性IgM抗体水平均明显高于假损毁小脑上脚交叉的对照动物。结论:小脑顶核的神经元胞体损毁导致淋巴细胞功能增强,小脑顶核投射至下丘脑的神经纤维损毁同样引起淋巴细胞功能增强,这些结果提示小脑顶核至下丘脑的神经投射参与介导小脑顶核对淋巴细胞功能的调节作用。     

黄芪含药血清对NK细胞活性及KLRK1 表达的影响

目的：探讨黄芪含药血清对自然杀伤（NK）细胞活性及杀伤细胞凝集素样受体K1（KLRK1）表达的影响。方法：SD大鼠灌胃 不同剂量的黄芪水煎剂制备黄芪含药血清。NK92MI细胞与不同剂量黄芪含药血清及对照血清孵育12 h后,采用乳酸脱氢酶释 放测定法检测NK 细胞对靶细胞YAC-1 的杀伤活性,采用qPCR和western blot 检测KLRK1 mRNA 和蛋白表达。结果：不同浓度 黄芪含药血清刺激12 h后NK 细胞杀伤活性明显增强,KLRK1 表达显著升高。结论：黄芪含药血清能活化NK 细胞,其机制可能 与其激活KLRK1 有关。     

黄芪含药血清对NK细胞活性及KLRK1表达的影响

目的：探讨黄芪含药血清对自然杀伤（NK）细胞活性及杀伤细胞凝集素样受体K1（KLRK1）表达的影响。方法：SD大鼠灌胃不同剂量的黄芪水煎剂制备黄芪含药血清。NK92MI细胞与不同剂量黄芪含药血清及对照血清孵育12h后,采用乳酸脱氢酶释放测定法检测NK细胞对靶细胞YAC-1的杀伤活性,采用qPCR和western blot检测KLRK1 mRNA和蛋白表达。结果：不同浓度黄芪含药血清刺激12h后NK细胞杀伤活性明显增强,KLRK1表达显著升高。结论：黄芪含药血清能活化NK细胞,其机制可能与其激活KLRK1有关。     

小鼠腹腔巨噬细胞的抗肿瘤作用和免疫抑制效应的体外调变

巯基乙酸盐(Thioglycollate)诱发的小鼠腹腔激活巨噬细胞显示了天然的抑制活性,即对Con A,PHA,PWM和LPS致分裂原诱导的T,B淋巴细胞的增殖能产生显著的抑制效应,同时也能抑制脾脏NK细胞对YAC-1肿瘤靶细胞的杀伤功能。但是这些巨噬细胞却同时具有明显的抗肿瘤的细胞静止效应。在体外用脂多糖(LPS,10微克/毫升)处理粘附性激活巨噬细胞明显地降低了对NK活性和T,B淋巴细胞增殖功能的抑制,然而这些免疫调变巨噬细胞仍然保持了显著的抗肿瘤的细胞静止效应。实验还表明,这类激活巨噬细胞的抑制功能不为前列腺素合成酶的抑制剂In-dom所阻断,从而提示了它们的免疫抑制效应似乎不是前列腺素介导的。本实验结果提示,体外用脂多糖处理后的免疫调变巨噬细胞是一类具有抗肿瘤功能和低免疫抑制性的巨噬细胞亚群,这为进一步研究它们的产生以及作用机理准备了条件。     

NK细胞和NKT细胞发育的转录调控

自然杀伤（natural killer,NK）细胞和自然杀伤T（natural killer T,NKT）细胞是参与机体抗病毒免疫和肿瘤免疫的两群淋巴细胞亚群,是介导先天性免疫（innate immunity）应答和调节适应性免疫（adaptive immunity）应答的重要效应细胞。近年来,随着对NK细胞和NKT细胞及其转录调控因子研究的不断深入,NK细胞和NKT细胞的发育机制逐步被阐明,这将为提高NK细胞和NKT细胞的抗病毒和肿瘤免疫疗效提供新的策略。     

生物肽SP对NK细胞NKG2D/NKG2A受体表达的影响

选择NK92-MI细胞为研究体系,研究SP对NK细胞的杀伤活性及功能性受体NKG2D/NKG2A表达的影响,以探讨SP对NK细胞功能的调节作用机制。采用MTT法测定NK92-MI细胞对K562细胞的杀伤活性;采用Real-Time PCR和流式细胞术检测NK92-MI细胞活化性受体NKG2D和抑制性受体NKG2A的基因表达和膜表达。10-14～10-8 mol/L的SP在体外可明显增强NK92-MI细胞的杀伤活性。该浓度范围的SP均可上调NKG2D/NKG2A的mRNA水平;10-14～10-8 mol/L的SP均上调NKG2D/NKG2A的膜表达,较低浓度（10-14 mol/L）的SP仅使NKG2D表达上调,而NKG2A表达无明显变化;SP刺激NKG2D膜表达增加的程度高于NKG2A。生物肽SP调节NK细胞功能性受体NKG2D/NKG2A的表达,可能是SP增强NK细胞杀伤活性的一种原因。     

白介素-6保护小脑颗粒神经元抗谷氨酸的神经毒性作用

目的：探讨白介素-6（IL-6）对谷氨酸诱导的神经元损伤的防治作用及其作用机制。方法：用IL-6慢性预处理培养的小脑颗粒神经元,然后后用谷氨酸急性刺激小脑颗粒神经元。用噻唑兰（MTT）比色法和末端脱氧核苷酸转移酶介导的原位缺口末端标记（TUNEL）法分别观察神经元的功能和凋亡的变化;用激光扫描共聚焦显微镜（LSCM）和逆转录聚合酶链式反应（RT—PCR）法分别检测神经元内Ca^2＋浓度的动态变化和IL-6信号转导蛋白gp130 mRNA的表达。结果：IL-6（2．5、5和10ng／ml）慢性预处理培养的小脑颗粒神经元,可浓度依赖性地改善谷氨酸诱导的神经元活性降低;并可明显减少谷氨酸诱导的神经元凋亡;还可显著抑制谷氨酸激发的神经元内Ca^2＋超载。此外。经IL-6慢性预处理的小脑颗粒神经元表达gp130mRNA明显低于未经IL-6预处理的神经元。结论：IL-6能保护神经元抵抗由谷氨酸诱导的兴奋毒性作用,IL-6的这种神经保护机制可能与它抑制神经元内Ca^2＋超载密切相关,而且可能由gp130细胞内信号转导途径介导。     

5-HT1B受体亚型对小脑顶核介导的运动行为的影响

目的：探讨5-羟色胺（5-HT）能神经系统在经小脑顶核介导的运动行为中的作用。方法：采用大鼠离体脑片膜片钳及大鼠走步机的行为学测试方法。结果：阻断5-HT_1B受体能够增强小脑顶核兴奋性突触传递,行为学试验中给予5-HT及5-HT_1B受体阻断剂SB224289,发现注射5-HT到小脑顶核后,大鼠在Rota-rod走步机上的持续时间显著延长,而给予其阻断剂SB224289后,能够反转此作用。结论：5-HT很可能通过5-HT_1B受体抑制顶核神经元的兴奋性突触传递从而调节小脑核团神经元环路的活动,继而影响小脑的最终输出,实现对小脑顶核介导的运动平衡和协调能力的调控。     

小鼠惊厥时孕烯醇酮及其硫酸盐对GABAA受体的调制作用

在建立稳定的红藻氨酸（KA）诱发小鼠惊厥模型的基础上，用放射配体受体结合分析法，研究孕烯醇酮（Pe）及其拮抗剂孕烯醇酮硫酸盐（Pes）对小鼠下丘脑、大脑皮层、海马和小脑四个脑区-－氨基丁酸A（GABAA）受体的调制作用。结果显示，Pe能增加某些脑区^3H－GABA与GABAA受体的结合量，下丘脑、海马和小脑差异显著（P＜0．05或P＜0．001），而大脑皮层差异不显著（P＞0．05）。Pe对GABAA受体的调制作用能被印防已毒素（Pic）阻断，对KA的致惊效应具有抑制作用。Pes能显著降低各脑区GABAA受体的结合量（P＜0．01或P＜0．001），对陈词滥调厥有促进作用。实验结果提示：孕烯醇酮具有明显的镇静和抗厥效应，并且可能是通过GABAA受体介导的。     

Rat natural killer cells synthesize fibronectin. Possible involvement in the cytotoxic function

The ability of NK cells to synthesize and secrete fibronectin (FN), an extracellular matrix glycoprotein which plays a key role in many biologic processes including cellular adhesion, morphology, cytoskeletal organization, cell migration, and invasiveness, was studied. By using affinity-purified polyclonal antibodies directed against human cellular or plasma FN, the presence of FN was evidentiated on Percoll-purified rat large granular lymphocyte or on a large granular lymphocyte tumor cell line (CRC) by flow cytometry and immunoelectron microscopy. Its expression increased after NK cell activation by poly I:C administration. Biochemical analysis by immunoprecipitation and SDS-PAGE indicated that FN was associated to cell surface and secreted in the supernatant in a molecular form similar to that of FN from L929 fibroblasts. In an attempt to understand the role of FN in the NK cell function, we found that an antibody against human plasma FN and its F(ab')2 fragment inhibited NK cytotoxicity against YAC-1 target at the effector cell level. Inhibition occurred at the postbinding level, because F(ab')2 anti-FN inhibited induction of phosphatidylinositol hydrolysis by YAC-1 target cells, whereas binding to target cells was not affected. The possible role of FN in the NK cytotoxic function is suggested.     

Enhancement of natural immunity seen after voluntary exercise in rats. Role of central opioid receptors

Chronic voluntary exercise in wheels for 5 weeks in spontaneously hypertensive rats (SHR) augments in vivo natural killer (NK) cell cytotoxicity. Endogenous beta-endorphin is increased in cerebrospinal fluid after voluntary exercise in rats and we have recently shown that beta-endorphin administered i.c.v. augments NK cell mediated cytotoxicity in vivo in a similar way as chronic voluntary exercise. We have now further investigated the involvement of central opioid systems in the exercise-induced augmentation in natural immunity. Exercise consisted of voluntary running in wheels for 5 weeks. In vivo cytotoxicity was measured as clearance of injected 51Cr-labeled YAC-1 lymphoma cells from the lungs. The clearance of YAC-1 cells in vivo was significantly increased in runners as compared to sedentary controls. Selective delta, kappa, or mu-opioid receptor antagonists were administered i.c.v. with osmotic minipumps during the last 6 days of the 5 weeks of running. The delta-receptor antagonist naltrindole (40-50 microg/day) significantly but not completely inhibited the enhanced NK-cell cytotoxicity seen after 5 weeks of exercise. Neither the kappa-receptor antagonist nor-BNI or the mu-receptor antagonist beta-FNA influenced the augmentation in NK cell cytotoxicity. Nor-BNI per se significantly augments in vivo cytotoxicity, indicating some inhibiting effect on natural immunity that could be mediated through the kappa-opioid receptor. Our data suggest the involvement of central delta-opioid receptors in the enhancement of natural cytotoxicity seen after chronic voluntary exercise.     

Immunostimulatory Activities of the Sulfated Polysaccharide Ascophyllan from Ascophyllum nodosum in in Vivo and in Vitro Systems

Splenic natural killer (NK) cell activity against YAC-1 cells increased in mice intraperitoneally injected with ascophyllan. Ascophyllan enhanced the cytotoxicity of RAW264.7 cells toward YAC-1 cells in a concentration-dependent manner. The cytotoxicity of ascophyllan-stimulated RAW264.7 cells as to YAC-1 cells was suppressed with N(G)-nitro-L-arginine methyl ester hydrochloride (L-NAME), an inhibitor of nitric oxide (NO) synthase, suggesting the involvement of NO in the cytotoxicity of ascophyllan-stimulated RAW264.7 cells.     

YAC-1 MHC class I variants reveal an association between decreased NK sensitivity and increased H-2 expression after interferon treatment or in vivo passage

Two H-2 negative variants of the YAC-1 lymphoma were selected by mutagenization and sequential in vitro selections and compared with wild-type cells for changes in NK sensitivity and H-2 expression after interferon treatment or in vivo passage. The H-2 negative variants and the low H-2 expressor YAC-1 wild-type cells had similar NK sensitivity. However, IFN-beta or recombinant IFN-gamma pretreatments increased the H-2 expression of YAC-1 and protected them from NK lysis, whereas the H-2 variants, which remained H-2 negative, were not protected and often more sensitive to NK lysis. The H-2 variants were similarly susceptible as wild-type cells to three other cellular effects of interferon: protection from virus infection, modulation of Con A capping, and inhibition of cell proliferation. Thus, the only interferon-mediated effect that distinguished the H-2 negative variants from wild-type cells was the inability of the former to increase their H-2 expression and decrease their NK sensitivity. The wild-type YAC-1 line showed increased H-2 expression and decreased NK sensitivity after in vivo passage. In contrast, in vivo passaged H-2 variants showed no reexpression of H-2, and remained NK sensitive. The altered responses to interferon and in vivo passage were specific for loss or down-regulation of H-2, because Thy-1 loss (H-2 positive) YAC-1 variants behaved as the wild-type cells in all respects. This study supports the hypothesis that NK cells may function in vivo to eliminate host cells that fail to express H-2 after interferon stimulation during an immune response; such cells are a potential threat because they may escape recognition by T lymphocytes despite the expression of viral or tumor-associated antigens.     

Tumor-selective cytolysis is executed exclusively by CD45R+ CTL whereas allo-specific cytotoxicity can be executed also by CD45R- CTL

Naive and memory CD4+ T helper cells can be distinguished on the basis of expression of the CD45R molecule. Whether this dichotomy applies also to CD8+ T cells has not yet been established. In the present investigation the cytolytic activity of peritoneal CD8+CD45R+ and CD8+CD45R- T cells from tumor- and allo-immunized rats has been studied. More than 90% of the CD8+ peripheral blood T lymphocytes expressed the CD45R molecule, whereas in the peritoneal cavity about 60% of the CD8+ T cells displayed the CD45R+ phenotype. Analysis of cytotoxicity of sorted peritoneal cells of W439 tumor-immunized donors demonstrated selective cytolytic activity of the CD5+CD4-CD8+CD45R+ subpopulation to W439 lymphoma target cells but no effect of CD5+CD4-CD8+CD45R- lymphocytes. None of these lymphocyte populations exhibited cytolytic activity to the NK-sensitive cell line YAC-1, whereas the CD5-CD45R+ population showed strong cytotoxicity to YAC-1 cells. In allo-immunized rats both CD5+CD4- CD8+CD45R+ and CD5+CD4-CD8+CD45R- peritoneal cells exhibited strong allo-specific cytolytic activity, but no activity to YAC-1 cells. Both CD5+CD4-CD8+CD45R+ and CD5+CD4-CD8+CD45R- cells from tumor-immunized rats proliferated in response to Con A and rIL-2. This is the first study demonstrating that tumor-selective cytolytic CD8+ T cells express the CD45R molecule and that allo-specific cytolytic CD8+ T cells are found in both the CD45R+ and CD45R- populations.     

Natural cytotoxicity against mouse hepatitis virus-infected cells. II. A cytotoxic effector cell with a B lymphocyte phenotype

The effector cell in mouse spleen which mediates natural cytotoxicity against mouse hepatitis virus (MHV)-infected target cells was characterized. The target cells were MHV-infected BALB/c 3T3, and the assay time was 3 hr. The effector cell, designated virus killer (VK) cell for the purpose of discussion, had the following phenotype: lymphocyte morphology, plastic-nonadherent, nylon wool-adherent, nonphagocytic, cyclophosphamide-sensitive; by antibody plus complement (C) depletion studies, it was asialo GM1-, NK 1.2 alloantigen-negative, Thy-1.2-, Lyt-5-, and macrophage antigen-negative; by rosetting techniques, it was Fc receptor-positive and surface Fab+; by flow cytometry (FACS) analysis, it was Lyt-2-, MAC-1-, Ia+, IgG (gamma)+, IgM (mu)+, IgD (delta)+, and B cell lineage antibody B-220+. NK cells, measured for cytotoxicity on YAC-1 cells, were similarly tested and were found to differ from the VK cell in the following properties: nylon wool-nonadherent, asialo GM1+, NK alloantigen-positive, Lyt-5+, surface Fab-, MAC-1+, Ia-, IgG-, IgM-, IgD-, and B-220-. The VK effector cell had a phenotype highly distinguishable from NK cells, effectors most commonly associated with antiviral natural cytotoxicity. The VK cell had a phenotype identical to that of a B lymphocyte and was identified as such. Although the effector cells displayed cell surface antibody, the antibody did not appear to be involved in lysis, because lysis could not be blocked by F(ab)'2 directed against Fab, mu, or delta. Cytotoxicity was more likely associated with recognition of the B lymphocyte surface by the MHV glycoprotein E2, as shown in the accompanying companion paper. This is the first demonstration that natural cytotoxicity can be mediated by B lymphocytes.     

Inhibition of human antibody-dependent cellular cytotoxicity, cell-mediated cytotoxicity, and natural killing by a xenogeneic antiserum prepared against "activated" alloimmune human lymphocytes

Xenogeneic antiserum (RH1) was prepared in Lewis rats by hyperimmunization with concanavalin A- (Con A) activated alloimmune human lymphocytes. The antiserum RH1 effectively inhibited human antibody-dependent cellular cytotoxicity (ADCC), cell-mediated cytotoxicity (CMC), and natural killing (NK) in the absence of complement (C). Inhibition by RH1 was dependent on the dilution of antiserum employed and the number of cytotoxic lymphocytes present during cytolysis. Pretreatment of lymphocytes with RH1 or the presence of RH1 in culture did not inhibit lymphocyte proliferation stimulated by Con A, phytohemagglutinin, or allogeneic cells; lymphokine production as measured by leukocyte-inhibiting factor production; antibody-dependent C lysis; or CMC mediated by murine cytotoxic T lymphocytes. Analysis of the mechanism of inhibition of cytotoxicity by RH1 revealed that 1) RH1 was not cytotoxic for human lymphocytes at 37 degrees C in the absence of C; 2) purified F(ab')2 fragments were equally inhibitory as whole serum; 3) pretreatment of lymphocytes with RH1 effectively inhibited their capacity to mediate ADCC, CMC, or NK, and this effect was reversible by culturing the cells overnight at 37 degrees C; 4) RH1 did not inhibit target cell binding by K cells, effector cells of ADCC, or alloimmune T cells, but did inhibit binding by NK cells; and finally, 5) the addition of RH1 to preformed lymphocyte-target conjugates in a single cell cytotoxicity assay inhibited killing of the bound target cells in all three systems without disrupting the conjugates. Collectively, these findings suggest that RH1 antiserum interacts with structures present on the surfaces of cytotoxic lymphocytes that are involved in the activation of the lytic mechanism(s) or with the actual lytic molecule or molecules themselves. Furthermore, the ability of RH1 to inhibit ADCC, CMC, and NK during the post-binding cytolytic phase of these reactions indicates that binding and cytolysis are distinct and separate events in all types of cell-mediated cytolysis.     

Regulation of T cell proliferation by cloned interferon-alpha mediated by Leu-11b-positive cells

The autologous T lymphocyte proliferative response (AMLR) induced by a B lymphocyte-enriched non-T, nonadherent cell population (NT, NAC) and by a macrophage-enriched population were both suppressed by the addition of a cloned interferon-alpha (IFN-alpha Con1) directly to the cultures. Preincubation of the stimulating NT, NAC with IFN-alpha Con1 resulted in comparable suppression. In contrast, preincubation of the macrophages with IFN-alpha Con1 resulted in significant augmentation of T cell proliferation. Depletion of Leu-11b-positive cells from the NT, NAC exposed to IFN-alpha Con1 restored the autologous T cell response. Addition of IFN-alpha Con1 activated Leu-11b-positive cells, isolated from the NT, NAC population, was suppressive of the AMLR. Although NK cytotoxicity was irradiation sensitive, suppression of the AMLR by IFN-alpha Con1-activated NT, NAC was resistant, suggesting that different subsets of cells or mechanisms by the same cells may have been responsible. These observations may offer insights into the potential role of cells with the NK phenotype, Leu-11b, and IFN in contributing to immuno-regulatory changes observed in clinical states associated with elevated concentrations of IFN.     

Suppression of natural killer cell cytotoxicity by splenocytes from Corynebacterium parvum-injected, bone marrow-tolerant, and infant mice.

Natural killer (NK) cell cytotoxicity to YAC-1 lymphoma was investigated in mice tolerant to bone marrow grafts (BM-tolerant), Corynebacterium parvum- (C. parvum) treated mice, and infant mice. Also the comparison was made between the NK cell and the hemopoietic-resistance effector (HR-E) cells. It was found that the BM-tolerant mice and C. parvum-treated mice showed either no or markedly decreased NK cell cytotoxicity. These mice were also nonresponders to bone marrow grafts in vivo. The lack of or decreased reactivity was apparently caused by the regulatory cell activities of the suppressor cell since the splenocytes from C. parvum-treated and BM-tolerant mice suppressed significantly the cytotoxic activities of otherwise fully functional NK cells. Similar suppressive effect on NK cells was mounted by splenocytes from infant mice, indicating again the suppressor cell regulation of NK cell cytotoxicity.