MID2 can substitute for MID1 and control exocytosis of lytic granules in cytotoxic T cells

We have recently shown that the E3 ubiquitin ligase midline 1 (MID1) is upregulated in murine cytotoxic lymphocytes (CTL), where it controls exocytosis of lytic granules and the killing capacity. Accordingly, CTL from MID1 knock‐out (MID1^?/?) mice have a 25–30% reduction in exocytosis of lytic granules and cytotoxicity compared to CTL from wild‐type (WT) mice. We wondered why the MID1 gene knock‐out did not affect exocytosis and cytotoxicity more severely and speculated whether MID2, a close homologue of MID1, might partially compensate for the loss of MID1 in MID1^?/? CTL. Here, we showed that MID2, like MID1, is upregulated in activated murine T cells. Furthermore, MID1^?/? CTL upregulated MID2 two–twenty‐fold stronger than CTL from WT mice, suggesting that MID2 might compensate for MID1. In agreement, transfection of MID2 into MID1^?/? CTL completely rescued exocytosis of lytic granules in MID1^?/? CTL, and vice versa, knock‐down of MID2 inhibited exocytosis of lytic granules in both WT and MID1^?/? CTL, demonstrating that both MID1 and MID2 play a central role in the regulation of granule exocytosis and that functional redundancy exists between MID1 and MID2 in CTL.     

T-AK细胞的细胞毒活性研究

探讨抗ＣＤ３单抗和ｒＩＬ－２共同激活诱生的Ｔ－ＡＫ细胞的细胞毒活性本质。方法：采用ＭＴＴ法分别检测Ｔ－ＡＫ细胞杀伤白血病细胞的活性及其构成。结论Ｔ－ＡＫ细胞为异质性细胞群体,其杀伤活性主体为ＣＤ３ＡＫ活性和ＬＡＫ活性。     

Calcium influx and signaling in cytotoxic T-lymphocyte lytic granule exocytosis

Summary:  Cytotoxic T lymphocytes (CTLs) kill targets by releasing cytotoxic agents from lytic granules. Killing is a multi-step process. The CTL adheres to a target, allowing its T-cell receptors to recognize antigen. This triggers a signal transduction cascade that leads to the polarization of the microtubule cytoskeleton and granules towards the target, followed by exocytosis that occurs specifically at the site of contact. As with cytokine production by helper T cells (Th cells), target cell killing is absolutely dependent on Ca²⁺ influx, which is involved in regulating both reorientation and release. Current evidence suggests that Ca²⁺ influx in CTLs, as in Th cells, occurs via depletion-activated channels. The molecules that couple increases in Ca²⁺ to reorientation are unknown. The Ca²⁺/calmodulin-dependent phosphatase calcineurin, which plays a critical role in cytokine production by Th cells, is also involved in lytic granule exocytosis, although the relevant substrates remain to be identified and calcineurin activation is only one Ca²⁺ -dependent step involved. There are thus striking similarities and important differences between Ca²⁺ signals in Th cells and CTLs, illustrating how cells can use similar signal transduction pathways to generate different functional outcomes.     

Lipophilic statins suppress cytotoxicity by freshly isolated natural killer cells through modulation of granule exocytosis

NK cells, a component of the innate immune system, provide a first line of defense against viral infections and malignancies, interact with the adaptive immune system and have a role in rejection of allogeneic bone marrow transplants and solid allo- and xenotransplants. Immunoregulatory activity by the anti-hypercholesterolemia agents, 3-hydroxy-3-methyl-glutaryl Coenzyme A (HMG-CoA) reductase inhibitors, known as statins, has recently been reported. We analyzed the effects of three statins on human NK cell cytotoxicity. Two lipophilic statins (simvastatin and fluvastatin) suppressed the cytotoxic activity of fresh and IL-2-stimulated NK cells, while pravastatin, a hydrophilic statin, did not. Suppression was not associated with changes in intracellular perforin, granzyme A or granzyme B levels, or with changes in expression of leukocyte function-associated antigen-1, an integrin known to regulate NK activity and reported to be altered by statin treatment. Decreased cytotoxicity was associated with decreased CD107a surface expression, indicating that the exocytosis pathway was compromised by simvastatin and fluvastatin but not by pravastatin. Mevalonate, the immediate downstream product of HMG-CoA reductase, partially reversed the effect of lipophilic statins on cytotoxicity and CD107a expression. Lipophilic statins also suppressed the release of the granule component, granzyme B, by IL-2-activated NK cells following stimulation with K562. That lipophilic statins suppress NK cell activity through inhibition of the exocytosis pathway suggest an additional potential role for statins in inhibition of transplantation responses.     

Neurotransmitters regulate the migration and cytotoxicity in natural killer cells

Natural killer (NK) cells and cytotoxic T lymphocytes (CTL), the functional coordination of which are governed by various signal substances, are crucial in the body’s defense of tumor and virus-infected cells. We investigated the role of various neurotransmitters and hormones on the regulation of functional parameters, including NK cell cytotoxicity, and the migration of NK cells and CTL within a three-dimensional collagen lattice. Using peripheral blood CTL and NK cells, we show that the neurotransmitters endorphin, histamine and substance P increase NK cell cytotoxicity, while norepinephrine inhibits cytotoxicity. Moreover, substance P reduces migratory activity, while norepinephrine increases NK cell and CTL migration. Furthermore, all three steroid hormones which were investigated, namely cortisone, testosterone, and estradiol, had regulatory influence on both cytotoxicity and migration of NK cells. These results further specify the functional basis of the complex interconnection between the immune and neuro-endocrine systems.     

In vivo activation of invariant V alpha 14 natural killer T cells by alpha-galactosylceramide sequentially induces Fas-dependent and -independent cytotoxicity

The present study was designed to clarify the cytotoxic capacities of invariant V alpha 14 natural killer T (iNKT) cells activated in vivo. We found that as early as 2 h after a single injection of alpha-galactosylceramide (alpha-GalCer), sorted iNKT splenocytes from treated mice kill Fas-transfected target cells. The implication of the Fas pathway in this lysis was strengthened by both the blockage of cytotoxicity in the presence of anti-Fas ligand (FasL) monoclonal antibody (mAb) and the up-regulation of FasL expression on iNKT cells. Sorted NK cells did not participate in the lytic activity at this time point. Yet, they became cytotoxic later on, 24 h post-treatment, when target cell lysis was mainly independent of the Fas pathway. This type of cell killing was predominant at this later time point, even though iNKT cells conserved a slight Fas-dependent cytotoxicity. NK cells failed to acquire the ability to kill target cells when IFN-gamma production in alpha-GalCer-injected mice was blocked by anti-IFN-gamma mAb, underscoring the major role of this cytokine. In conclusion, our findings provide the first direct evidence that iNKT cells can exert Fas-dependent cytotoxicity very shortly after in vivo alpha-GalCer activation and later, through IFN-gamma secretion, enable NK cells to kill target cells in a Fas-independent pathway.     

9.1C3分子对人NK细胞和T细胞细胞毒作用的抑制效应

目的探讨9.1C3分子是否作为抑制型受体调节NK细胞和T细胞的杀伤功能。方法用抗CD56抗体和羊抗鼠IgG免疫磁珠分离混合淋巴细胞培养中活化的淋巴细胞 ,分选CD56 细胞和CD56 -细胞分别作为效应细胞。采用重导向杀伤实验(redirectedkillingassay,RKA)观察抗9.1C3抗体对效应细胞杀伤小鼠肥大细胞瘤细胞P815作用的影响。结果发现人NK细胞和T细胞对P815细胞均有一定的杀伤作用 ,在效靶比为4∶1 ,2∶1和1∶1时 ,NK细胞和T细胞的杀伤率分别为:6.4% ,3.4% ,1.1%和21.2 % ,16.7 % ,6.5 %。用抗CD16和抗CD3抗体分别刺激NK细胞和T细胞时 ,它们对P815细胞的细胞毒作用显著增强 ;在相同的效靶比例 ,它们对P815的杀伤率分别为:47.1 % ,32.2% ,19.1 %和64.4 % ,50.3% ,39.5 %。但用抗9.1C3抗体刺激效应细胞时 ,不仅NK细胞的杀伤作用完全被抑制 ,CD16介导的NK细胞的杀伤作用也被明显下调 ,其杀伤率仅为18.5 % ,9.7 %和7.0 % ;但对CD3介导的T细胞的杀伤作用只轻度被抑制。结论9.1C3分子可能是一种新的抑制型杀伤细胞受体 ,对NK细胞和T细胞细胞毒作用的负调节可能有所不同。     

Adipose invariant natural killer T cells

Adipose tissue is a dynamic organ that makes up a substantial proportion of the body; in severe obesity it can account for 50% of body mass. Details of the unique immune system resident in human and murine adipose tissue are only recently emerging, and so it has remained a largely unexplored and unappreciated immune site until now. Adipose tissue harbours a unique collection of immune cells, which often display unusual functions compared with their counterparts elsewhere in the body. These resident immune cells are key to maintaining tissue and immune homeostasis, yet in obesity their chronic aberrant stimulation can contribute to the inflammation and pathogenesis associated with obesity. Anti‐inflammatory adipose‐resident lymphocytes are often depleted in obesity, whereas pro‐inflammatory immune cells accumulate, leading to an overall inflammatory state, which is a key step in the development of obesity‐induced metabolic disease. A good example is invariant natural killer T (iNKT) cells, which make up a large proportion of lymphocytes in human and murine adipose tissue. Here, they are unusually poised to produce anti‐inflammatory or regulatory cytokines, however in obesity, iNKT cells are greatly reduced. As iNKT cells are potent transactivaors of other immune cells, and can act as a bridge between innate and adaptive immunity, their loss in obesity represents the loss of a major regulatory population. Restoring iNKT cells, or activating them in obese mice leads to improved glucose handling, insulin sensitivity, and even weight loss, and hence represents an exciting therapeutic avenue to be explored for restoring homeostasis in obese adipose tissue.     

Alteration of T cells and natural killer cells during chickenpox in infancy

To determine the reasons for the low immune response and the mild morbidity of chickenpox in infancy, we investigated alteration of T cells and natural killer (NK) cells during chickenpox in children <1 year and 2 years old using flow cytometry. The CD4/CD8 ratio decreased only in the <1-year-old group from the acute to the convalescent phase (P<0.05). The CD3–CD16+CD56+ and CD57–CD16+ counts increased in the <1-year-old group, but those in the 2-year-old group did not increase from the acute to the convalescent phase. The CD3–CD16+CD56+ counts and the CD57-CD16+ counts and percentage were larger in the <1-year-old group than those in the 2-year-old group (P=0.001,P=0.002, andP<0.05) in the convalescent phase. These results seem to indicate that the low immune response in infancy after chickenpox are related to the small number of CD8 in contrast with CD4 and that increased subsets of NK cells during chickenpox may correlate to the mild morbidity of chickenpox in infancy.     

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.     

卵巢癌细胞株冻融抗原负载的树突状细胞诱导CTL抗卵巢癌免疫应答的体外研究

目的研究卵巢癌冻融抗原负载的树突状细胞(dendriticcells,DC)诱导细胞毒性T淋巴细胞(CTL)体外杀伤卵巢癌细胞的细胞毒性效应。方法利用免疫磁珠分离法(MACS)分离纯化脐血CD34 细胞并在体外诱导分化为DC,用反复冻融法从卵巢癌细胞系SKOV3中提取的可溶性相关抗原负载DC。流式细胞学检测负载抗原后DC表面各种分化相关抗原的表达,ELISA法检测DC上清中IL12的表达,混合淋巴细胞反应(MLR)测定DC体外刺激T细胞增殖的能力,MTT法检测抗原负载DC激活的抗原特异性CTL对卵巢癌细胞的杀伤作用。结果与未经抗原负载的DC相比,经卵巢癌抗原负载的DC不仅能更高地表达各种DC分化相关抗原CD1α(73.35%±2.94%vs34.1%±2.35%)、CD83(73.9%±8.46%vs54.68%±3.26%)、CD80(91.95%±2.48%vs52.53%±3.18%)、HLADR(70.05%±2.35%vs48.7%±2.07%)以及CD54(88.9%±5.52%vs71.45%±2.29%),同时具有更强的刺激同种异体T淋巴细胞增殖和IL12分泌的能力(P均<0.05)。此外,卵巢癌细胞SKOV3冻融抗原负载DC激活的CTL在体外对SKOV3的杀伤率为77.35%,显著高于未经抗原负载的DC(P=0.0001)。结论经卵巢癌细胞冻融抗原负载DC激活的CTL在体外具有更强的增殖能力和杀伤卵巢癌细胞的作用。     

Group 1 CD1-restricted T cells take center stage

The recognition of lipid antigens by T cells is a complex and fascinating phenomenon. The MHC-like molecules of the CD1 family have evolved to present a wide variety of both self and foreign lipids for recognition by T-cell receptors. While much progress has been made in our understanding of the NKT cells that recognize lipids presented by CD1d molecules, our knowledge of the T-cell populations directed at the related group 1 CD1 molecules, i.e. CD1a, CD1b and CD1c, has lagged behind. In this issue of the European Journal of Immunology, a study identifies a surprisingly large portion of human peripheral blood T cells as being autoreactive to the group 1 CD1 proteins. This work and other recent developments highlight the presence of a substantial number of unconventional T cells as part of our normal T-cell repertoire. This interesting finding is discussed in details in this commentary.     

TCR Valpha14 natural killer T cells function as effector T cells in mice with collagen-induced arthritis

Natural killer (NK) T cells are a unique, recently identified cell population and are suggested to act as regulatory cells in autoimmune disorders. In the present study, designed to investigate the role of NKT cells in arthritis development, we attempted to induce arthritis by immunization of type II collagen (CIA) in Jalpha281 knock out (NKT-KO) and CD1d knock out (CD1d-KO) mice, which are depleted of NKT cells. From the results, the incidence of arthritis (40%) and the arthritis score (1.5 +/- 2.2 and 2.0 +/- 2.7) were reduced in NKT-KO and CD1d-KO mice compared to those in respective wild type mice (90%, 5.4 +/- 3.2 and 2.0 +/- 2.7, P < 0.01). Anti-CII antibody levels in the sera of NKT-KO and CD1d-KO mice were significantly decreased compared to the controls (OD values; 0.32 +/- 0.16 and 0.29 +/- 0.06 versus 0.58 +/- 0.08 and 0.38 +/- 0.08, P < 0.01). These results suggest that NKT cells play a role as effector T cells in CIA. Although the cell proliferative response and cytokine production in NKT-KO mice after the primary immunization were comparable to those in wild type mice, the ratios of both activated T or B cells were lower in NKT-KO mice than wild type mice after secondary immunization (T cells: 9.9 +/- 1.8% versus 16.0 +/- 3.4%, P < 0.01, B cells: 4.1 +/- 0.5% versus 5.1 +/- 0.7%, P < 0.05), suggesting that inv-NKT cells contribute to the pathogenicity in the development phase of arthritis. In addition, IL-4 and IL-1beta mRNA expression levels in the spleen during the arthritis development phase were lower in NKT-KO mice, while the IFN-gamma mRNA expression level was temporarily higher. These results suggest that inv-NKT cells influence cytokine production in arthritis development. In conclusion, inv-NKT cells may promote the generation of arthritis, especially during the development rather than the initiation phase.     

Turned on by danger: activation of CD1d-restricted invariant natural killer T cells

CD1d-restricted invariant natural killer T (iNKT) cells bear characteristics of innate and adaptive lymphocytes, which allow them to bridge the two halves of the immune response and play roles in many disease settings. Recent work has characterized precisely how their activation is initiated and regulated. Novel antigens from important pathogens have been identified, as has an abundant self-antigen, β-glucopyranosylcaramide, capable of mediating an iNKT-cell response. Studies of the iNKT T-cell receptor (TCR)-antigen-CD1d complex show how docking between CD1d-antigen and iNKT TCR is highly conserved, and how small sequence differences in the TCR establish intrinsic variation in iNKT TCR affinity. The sequence of the TCR CDR3β loop determines iNKT TCR affinity for ligand-CD1d, independent of ligand identity. CD1d ligands can promote T helper type 1 (Th1) or Th2 biased cytokine responses, depending on the composition of their lipid tails. Ligands loaded into CD1d on the cell surface promote Th2 responses, whereas ligands with long hydrophobic tails are loaded endosomally and promote Th1 responses. This information is informing the design of synthetic iNKT-cell antigens. The iNKT cells may be activated by exogenous antigen, or by a combination of dendritic cell-derived interleukin-12 and iNKT TCR-self-antigen-CD1d engagement. The iNKT-cell activation is further modulated by recent foreign or self-antigen encounter. Activation of dendritic cells through pattern recognition receptors alters their antigen presentation and cytokine production, strongly influencing iNKT-cell activation. In a range of bacterial infections, dendritic cell-dependent innate activation of iNKT cells through interleukin-12 is the dominant influence on their activity.     

B cell helper T cells and type 1 diabetes

Type 1 diabetes is an autoimmune disease typically starting in childhood that culminates in the destruction of insulin-producing beta cells in the pancreas. Although type 1 diabetes is considered to be a primarily T cell–mediated disease, B cells clearly participate in the autoimmune process, as autoantibodies recognizing pancreatic islet antigen commonly appear in circulation before the onset of the disease. T cells providing helper functions to B cells have recently been shown to be involved in the pathogenesis of a wide range of antibody-associated immune disorders. These T cells include CXCR5-positive follicular T helper (Tfh) cells, and a recently described closely related CXCR5-negative subset coined peripheral T helper (Tph) cells. Here, we review the current state of knowledge on different B cell helper T cell subsets, focusing on their potential involvement in the development of type 1 diabetes.     

Interaction between natural killer cells and regulatory T cells: perspectives for immunotherapy

Regulatory T (Treg) cells and natural killer (NK) cells are key players in the immune system. The interaction between these two cell types has been reported to be beneficial in healthy conditions such as pregnancy. However, in the case of certain pathologies such as autoimmune diseases and cancer this interaction can become detrimental, as Treg cells have been described to suppress NK cells and in particular to impair NK cell effector functions. This review aims to discuss the recent information on the interaction between Treg cells and NK cells under healthy and pathologic conditions, to describe the specific conditions in which this interaction takes place, the effect of Treg cells on hematopoietic stem cell differentiation and the consequences of this interaction on the optimization of immunotherapeutic protocols.     

Regulation of immune responses by CD1d-restricted natural killer T cells

Natural killer T (NKT) cells are a unique subset of T lymphocytes that share receptor structures and properties with conventional T lymphocytes and natural killer (NK) cells. NKT cells are specific for glycolipid antigens such as the marine sponge-derived agent α-galactosylceramide (α-GalCer) presented by the major histocompatibility complex (MHC) class I-like molcule CD1d. My laboratory has evaluated the function of NKT cells by generating and analyzing CD1d-deficient mice. These studies showed that CD1d expression is required for NKT cell development, but not absolutely necessary for the generation of polarized T helper (Th) cell responses. Further, we have studied the in vivo response of NKT cells toα-GalCer stimulation and the capacity of α-GalCer to modulate innate and adaptive immune responses. Our results revealed that, quickly following administration of α-GalCer, NKT cells expand and produce cytokines, trans-activate a variety of innate and adaptive immune cells, and promote Th2 responses that are capable of suppressing Th1-dominant autoimmunity. Our findings indicate that NKT cells play a regulatory role in the immune response and that specific activation of these cells may be exploited for therapeutic purposes.     

白藜芦醇增强TRAIL对人髓系白血病KG-1a细胞的细胞毒作用

目的:观察白藜芦醇作用前后TRAIL对人髓系白血病KG-1a细胞的细胞毒作用的变化。方法:流式细胞仪检测KG-1a细胞表面CD34和CD38的表达,二甲氧唑黄(XTT)细胞增殖及细胞毒性检测试剂盒检测白藜芦醇作用前后TRAIL对KG-1a细胞增殖的影响,AnnexinV-FITC/PI染色流式细胞仪检测细胞凋亡变化。流式细胞仪检测白藜芦醇作用前后KG-1a细胞表面TRAIL死亡受体表达变化。结果:人髓系白血病KG-1a细胞CD34+CD38-占(58.67±2.87)%,10~1 000 ng/ml的TRAIL对KG-1a细胞增殖无明显影响,但对白藜芦醇作用后的KG-1a细胞的增殖有明显抑制作用,白藜芦醇能促进TRAIL诱导KG-1a细胞凋亡,并能上调KG-1a细胞表面TRAIL死亡受体DR5的表达。结论:白藜芦醇能增强TRAIL对人髓系白血病KG-1a细胞的细胞毒作用,其机制可能与白藜芦醇上调KG-1a细胞表面TRAIL死亡受体DR5的表达有关。     

Characterization of mouse CD4 T cell subsets defined by expression of KLRG1

The mouse killer cell lectin-like receptor G1 (KLRG1) is an inhibitory receptor known to be expressed on a subset of NK cells and antigen-experienced CD8 T cells. Here, we have characterized expression of KLRG1 on CD4+ T cells from normal mice. While a polyclonal TCR repertoire suggests thymic origin of KLRG1+ CD4+ cells, KLRG1 expression was found to be restricted to peripheral CD4+ T cells. Based on phenotypic analyses, a minority of KLRG1+ CD4+ cells are effector/memory cells with a proliferative history. The majority of KLRG1+ CD4+ cells are, however, bona fide Treg cells that depend on IL-2 and/or CD28 and express both FoxP3 and high levels of intracellular CD152. KLRG1-expressing Treg are contained within the CD38+ subset but are only partially overlapping with the CD25+ CD4+ Treg subset. In functional assays, KLRG1+ CD4+ cells were anergic to TCR stimulation with respect to proliferation, and sorted KLRG1+ CD25+ CD4+ cells were equal or superior to KLRG1+ CD25- CD4+ cells, which were more potent than KLRG1- CD25+ CD4+ cells in suppressing responder cell proliferation. Together, our results demonstrate that KLRG1 expression defines novel and distinctive subsets of senescent effector/memory and potent regulatory CD4+ T cells.