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1.
4-1BB ligation co-stimulates T cell activation, and agonistic antibodies have entered clinical trials. Natural killer (NK) cells also express 4-1BB following activation and are implicated in the anti-tumour efficacy of 4-1BB stimulation in mice; however, the response of human NK cells to 4-1BB stimulation is not clearly defined. Stimulation of non-adherent PBMC with OVCAR-3 cells expressing 4-1BB ligand (4-1BBL) or IL-12 resulted in preferential expansion of the NK cell population, while the combination 4-1BBL + IL-12 was superior for the activation and proliferation of functional NK cells from healthy donors and patients with renal cell or ovarian carcinoma, supporting long-term (21 day) NK cell proliferation. The expanded NK cells are predominantly CD56bright, and we show that isolated CD56dimCD16+ NK cells can switch to a CD56brightCD16 phenotype and proliferate in response to 4-1BBL + IL-12. Whereas 4-1BB upregulation on NK cells in response to 4-1BBL required ‘help’ from other PBMC, it could be induced on isolated NK cells by IL-12, but only in the presence of target (OVCAR-3) cells. Following primary stimulation with OVCAR-3 cells expressing 4-1BBL + IL-12 and subsequent resting until day 21, NK cells remained predominantly CD56bright and retained both high cytotoxic capability against K562 targets and enhanced ability to produce IFNγ relative to NK cells in PBMC. These data support the concept that NK cells could contribute to anti-tumour activity of 4-1BB agonists in humans and suggest that combining 4-1BB-stimulation with IL-12 could be beneficial for ex vivo or in vivo expansion and activation of NK cells for cancer immunotherapy.  相似文献   

2.
NK cells are pivotal sentinels of the innate immune system and distinct subpopulations in peripheral blood have been described. A number of studies addressed HIV-induced alterations of NK cell phenotype and functionality mainly focusing on CD56dimCD16+ and CD56CD16+ NK cells. However, the impact of HIV-infection on CD56bright NK cells is less well understood. Here we report a rise of CD56bright NK cells in HIV-infected individuals, which lack CCR7-expression and strongly correlate with HIV viral load. CCR7CD56bright NK cells were characterized by increased cytolytic potential, higher activation states and a more differentiated phenotype. These cells thus acquired a number of features of CD56dimCD16+ NK cells. Furthermore, CD56bright NK cells from HIV patients exhibited higher degranulation levels compared to uninfected individuals. Thus, chronic HIV-infection is associated with a phenotypic and functional shift of CD56bright NK cells, which provides a novel aspect of HIV-associated pathogenesis within the NK cell compartment.  相似文献   

3.
Human natural killer (NK) cells are considered professional cytotoxic cells that are integrated into the effector branch of innate immunity during antiviral and antitumoral responses. The purpose of this study was to examine the peripheral distribution and expression of NK cell activation receptors from the fresh peripheral blood mononuclear cells of 30 breast cancer patients prior to any form of treatment (including surgery, chemotherapy, and radiotherapy), 10 benign breast pathology patients, and 24 control individuals. CD3CD56dimCD16bright NK cells (CD56dim NK) and CD3CD56brightCD16dim/− NK cells (CD56bright NK) were identified using flow cytometry. The circulating counts of CD56dim and CD56bright NK cells were not significantly different between the groups evaluated, nor were the counts of other leukocyte subsets between the breast cancer patients and benign breast pathology patients. However, in CD56dim NK cells, NKp44 expression was higher in breast cancer patients (P = .0302), whereas NKp30 (P = .0005), NKp46 (P = .0298), and NKG2D (P = .0005) expression was lower with respect to healthy donors. In CD56bright NK cells, NKp30 (P = .0007), NKp46 (P = .0012), and NKG2D (P = .0069) expression was lower in breast cancer patients compared with control group. Only NKG2D in CD56bright NK cells (P = .0208) and CD56dim NK cells (P = .0439) showed difference between benign breast pathology and breast cancer patients. Collectively, the current study showed phenotypic alterations in activation receptors on CD56dim and CD56bright NK cells, suggesting that breast cancer patients have decreased NK cell cytotoxicity.  相似文献   

4.

Background  

Natural killer (NK) cells are cytotoxic lymphocytes that lack CD3 and express variable levels of CD16, CD56 and CD57. In recent years NK cells have been categorised into two major groups based on the level of CD56 expression. This phenotypic classification correlates with functional activity as CD56bright NK cells are the major cytokine producing subset whereas CD56dim NK cells exhibit greater cytotoxic activity. Previous studies have revealed a reduction in total NK cell numbers in association with ageing and this study sought to determine the potential influence of ageing on the number of NK cell subsets within peripheral blood.  相似文献   

5.
Two populations of human natural killer (NK) cells can be identified in peripheral blood. The majority are CD3CD56dim cells while the minority exhibits a CD3CD56bright phenotype. In vitro evidence indicates that CD56bright cells are precursors of CD56dim cells, but in vivo evidence is lacking. Here, we studied NK cells from a patient that suffered from a melanoma and opportunistic fungal infection during childhood. The patient exhibited a stable phenotype characterized by a reduction in the frequency of peripheral blood CD3CD56dim NK cells, accompanied by an overt increase in the frequency and absolute number of CD3CD56bright cells. These NK cells exhibited similar expression of perforin, CD57 and CD158, the major activating receptors CD16, NKp46, NKG2D, DNAM-1, and 2B4, as well as the inhibitory receptor CD94/NKG2A, on both CD56bright and CD56dim NK cells as healthy controls. Also, both NK cell subpopulations produced IFN-γ upon stimulation with cytokines, and CD3CD56dim NK cells degranulated in response to cytokines or K562 cells. However, upon stimulation with cytokines, a substantial fraction of CD56dim cells failed to up-regulate CD57 and CD158, showed a reduction in the percentage of CD16+ cells, and CD56bright cells did not down-regulate CD62L, suggesting that CD56dim cells could not acquire a terminally differentiated phenotype and that CD56bright cells exhibit a maturation defect that might result in a potential altered migration pattern. These observations, support the notion that NK cells of this patient display a maturation/activation defect that precludes the generation of mature NK cells at a normal rate accompanied by CD56dim NK cells that cannot completely acquire a terminally differentiated phenotype. Thus, our results provide evidence that support the concept that in vivo CD56bright NK cells differentiate into CD56dim NK cells, and contribute to further understand human NK cell ontogeny.  相似文献   

6.
Human NK cells are classified into two populations according to the intensity of CD56 surface expression, as well as possession of CD16, FcRIII. CD56dimCD16bright make up 90% circulating NK cells, whereas CD56brightCD16-/dim comprises the remaining 10%. Here we report that peripheral NK cells upon CD16 cross-linking up-regulates the expression of activating markers and receptors such as CD25, CD69, NKp44, NKp30, CD40L and the intensity of CD56 expression. Additionally, co-culturing immature DCs with CD16 activated NK cells was found to significantly increase the expression of maturation markers on DCs. These results suggest that CD16 cross-linking on resting peripheral blood NK cells triggers the activation of these cells and induces the appearance of CD56bright NK cells. The latter were found capable of producing pro-inflammatory cytokines, IFN-γ and TNF-α and notably IL-12.  相似文献   

7.
In a recent clinical trial, a patient exhibited regression of several pancreatic cancer metastases following the administration of the immune modulator Ipilimumab (anti-CTLA-4 antibody). We sought to characterize the immune cells responsible for this regression. Tumor infiltrating lymphocytes (TIL-2742) and an autologous tumor line (TC-2742) were expanded from a regressing metastatic lesion excised from this patient. Natural killer (NK) cells predominated in the TIL (92% CD56+) with few T cells (12% CD3+). A majority (88%) of the NK cells were CD56brightCD16. TIL-2742 secreted IFN-γ and GM-CSF following co-culture with TC-2742 and major histocompatibility complex mismatched pancreatic tumor lines. After sorting TIL-2742, the purified CD56+CD16CD3 subset showed reactivity similar to TIL-2742 while the CD56CD16CD3+ cells exhibited no tumor recognition. In co-culture assays, TIL-2742 and the NK subset expressed high reactivity to several pancreatic and prostate cancer cell lines and could lyse the autologous tumor as well as pancreas and prostate cancer lines. Reactivity was partially abrogated by blockade of TRAIL. We thus identified a unique subset of NK cells (CD56brightCD16dim) isolated from a regressing metastatic pancreatic cancer in a patient responding to Ipilimumab. This represents the first report of CD56+CD16 NK cells with apparent specificity for pancreatic and prostate cancer cell lines and associated with tumor regression following the treatment with an immune modulating agent.  相似文献   

8.
HIV-1 infection is characterized by loss of CD56dim CD16+ NK cells and increased terminal differentiation on various lymphocyte subsets. We identified a decrease of CD57 and CD57dim cells but not of CD57bright cells on CD56dim CD16+ NK cells in chronic HIV infection. Increasing CD57 expression was strongly associated with increasing frequencies of killer immunoglobulin-like receptors (KIRs) and granzyme B-expressing cells but decreasing percentages of cells expressing CD27+, HLA-DR+, Ki-67+, and CD107a. Our data indicate that HIV leads to a decline of less-differentiated cells and suggest that CD57 is a useful marker for terminal differentiation on NK cells.NK cells are effector cells of innate immunity which are pivotal as first-line defense against viral infections, such as HIV infection (14). Large genotypic studies demonstrated a delayed onset of AIDS in HIV-seropositive individuals carrying the activating receptor KIR3DS1 and/or alleles of the inhibiting receptor KIR3DL1 in conjunction with HLA-Bw4-80I (18, 19). Development of NK cells mainly takes place in the bone marrow, from which mature NK cells move out to reside and circulate in peripheral sites (13). Mature NK cells are characterized by granules which harbor granzymes and perforin. These NK cells are fully armed, “ready-to-go” effector cells (17).A number of NK cell abnormalities have been reported in HIV infection (9), including high activation status (2, 10), increased turnover (16), differential expression of activating and inhibitory receptors (20), impaired interaction with dendritic cells (12), and loss of CD56dim CD16+ NK cells (23). CD56dim CD16+ NK cells represent the largest NK cell subset in peripheral blood in healthy individuals. The expression of killer immunoglobulin-like receptors (KIRs) and CD57 are predominant features of this subpopulation (8, 15). CD57 expression on NK cells has been previously associated with replicative senescence on T and NK cells (4), raising the question of how HIV-1 infection alters CD57 expression on CD56dim CD16+ NK cells.To the best of our knowledge, no one has addressed the phenotypic and functional properties of CD56dim CD16+ NK cells that are preferentially lost during HIV infection. Here, we provide evidence that increasing CD57 expression indicates terminal differentiation in healthy individuals, as well in as HIV-infected subjects. We furthermore show that HIV infection is associated with preferential loss of less-differentiated cells, which are characterized by high activation status and turnover.In this study, blood samples from 37 HIV-seropositive individuals and 15 healthy subjects were analyzed; all HIV-infected patients were either antiretroviral therapy naïve or untreated for more than one year. The HIV-positive study cohort comprised 10 patients with a viral load of less than 2,000 copies/ml, 14 patients with a viral load ranging from 2,000/ml to 20,000 copies/ml, and 13 patients with a viral load above 20,000 copies/ml. CD4 T cell counts ranged from 180/μl to 1,355/μl, the average being 457.3/μl.The study was approved by the local ethics commission (Ethikkommission der Medizinischen Hochschule Hannover, Votum No. 3150), and all study participants gave informed written consent for their participation.Flow cytometric analysis was performed on cryopreserved peripheral blood mononuclear cells (PBMCs) as previously described (21, 22). A list of monoclonal antibodies employed in this study is available upon request. For intracellular analysis of granzyme B, perforin, and Ki-67, we used a fixation and permeabilization kit (Invitrogen). At least 1 million events were acquired for each sample, using either a FACSAria or LSR II flow cytometer (BD Biosciences). Data were analyzed with FlowJo (TreeStar). Lymphocytes were defined by forward and side scatter. CD3+, CD14+, CD19+, dead cells, and cell aggregates were removed from analysis based on peridinin chlorophyll protein and Viaprobe staining and gating on a plot of forward-scatter area versus forward-scatter height (Fig. (Fig.1A).1A). NK cells and their distinctive subpopulations were defined based on their CD56 and/or CD16 expression. Fluorescence-minus-one (FMO) staining was used to determine threshold values for the expression of specific markers.Open in a separate windowFIG. 1.HIV infection is associated with loss of CD57 and CD57dim but not CD57bright CD56dim CD16+ NK cells. (A) Representative gating scheme for identification of NK cells. NK cells were defined as CD3 CD14 CD19 lymphocytes expressing either CD56 or CD16 or both. We divided CD56dim CD16+ NK cells into three subsets based on their level of CD57 expression: CD57, CD57dim, and CD57bright cells. Numbers on FACS plots indicate frequency of gated population. SSC-A, side scatter area; FSC-A, forward scatter area; FSC-W, forward scatter width. (B) Comparison of percentages of the CD57, CD57dim, and CD57bright subpopulations in control subjects (n = 14) and HIV-seropositive individuals (n = 34) on CD56dim CD16+ NK cells. ns, not significant (P > 0.05); **, P < 0.01; ***, P < 0.001. (C) Frequencies of CD57, CD57dim, and CD57bright expressing CD56dim CD16+ NK cells in relation to total NK cells in control subjects (n = 14) and HIV-seropositive individuals (n = 34). (D) Mean frequency of CD56dim CD16+ NK cells in 14 control individuals and in 34 HIV-infected people and the distribution of CD57, CD57dim, and CD57bright cells within CD56dim CD16+ NK cells is shown. (E) Relationship between percentage of CD57dim CD56dim CD16+NK cells and percentage of CD56neg CD16+ NK cells on total NK cells. Horizontal bars in dot plots show the means.NK cells as defined above were sorted from cryopreserved PBMCs on a FACSAria (purities ranged from 91% to 99%). An amount of 105 NK cells was plated per well and stimulated with 10 ng/ml interleukin-15 (IL-15), 100 ng/ml IL-12, and 5 × 104 K562 cells. A CD107a degranulation assay was performed as described previously (1, 12). GraphPad Prism (version 5.0) software was used for statistical evaluation of data. Correlation analysis was performed using the Pearson test. The unpaired t test was performed when two groups were compared, and all t tests were two tailed. Comparison of more than two groups was performed using one-way analysis of variance followed by Tukey''s post-hoc test. P values of less than 0.05 were considered significant.We found that CD57 on NK cells was predominantly expressed on the CD56dim CD16+ population (Fig. (Fig.1A).1A). The expression patterns of CD57 allowed us to differentiate between three subfractions within CD56dim CD16+ NK cells, namely, CD57, CD57dim, and CD57bright cells. The frequency of the CD57bright subpopulation on CD56dim CD16+ NK cells was increased compared to the frequency of the CD57dim subpopulation on CD56dim CD16+ NK cells in HIV-seropositive patients but not in HIV-seronegative control subjects (Fig. (Fig.1B).1B). This relative increase was associated with substantial reductions of the CD57 CD56dim and the CD57dim CD56dim NK cell subpopulations of total NK cells in our HIV-seropositive cohort compared to these subpopulations in healthy control subjects (means, 36.6% versus 24.8% [P = 0.0002] and 22.4% versus 15.4% [P = 0.0001]), but the frequencies of CD57bright CD56dim NK cells within total NK cells were similar between HIV-infected patients and HIV-seronegative individuals (Fig. (Fig.1C).1C). In accordance with previously published data (3, 23), we could confirm that there is a relative loss of CD56dim CD16+ NK cells in HIV infection (mean, 84.3% versus 67.0%, P = 0.0004) (Fig. (Fig.1D).1D). Our data indicate that this loss is predominantly due to decreased numbers of CD57 CD56dim and CD57dim CD56dim NK cells, leading to a relative overrepresentation of CD57bright cells within CD56dim CD16+ NK cells in HIV infection (Fig. (Fig.1C).1C). There was no significant correlation between the relative loss of CD57 and CD57dim NK cells and absolute numbers of CD56dim CD16+ NK cells, but there was a significant inverse correlation between loss of CD57dim NK cells and increasing percentages of CD56 CD16+ cells (Pearson r = −0.54, P = 0.001) (Fig. (Fig.1E1E).To determine whether the relative decrease of CD57 and CD57dim NK cells was associated with parameters of HIV disease progression, we performed correlation analysis of the percentages of CD57 or CD57dim cells with viral load and CD4 T cell counts. We found no such correlations (Pearson r < 0.2 and P > 0.05 for all) (data not shown). A recent cross-sectional and longitudinal study demonstrated that changes in the NK cell compartment, as shown by down-modulation of Siglec-7 on CD56dim NK cells, are associated with HIV viremia (5). The longitudinal data in the study indicated that the full restoration of NK cell pathologies required 24 months of antiviral treatment. This suggests that alterations in the NK cell compartment can be driven by HIV viral load but that these changes seem to require a significant amount of time.We next investigated the phenotypic and functional properties of the CD57, CD57dim, and CD57bright subpopulations on CD56dim CD16+ NK cells. For KIR2DL2/DL3/DS2, we detected increasing prevalences of KIR-expressing NK cells with increasing expression of CD57 in both healthy control subjects and HIV-infected blood donors (Fig. (Fig.2A).2A). As for KIR3DS1/DL1, we found an increase of KIR+-expressing NK cells between CD57 and CD57bright cells in control individuals and significant differences in percentages of KIR3DS1/DL1-expressing NK cells between CD57 and CD57dim, as well as between CD57 and CD57bright, NK cells in our HIV-positive cohort (Fig. (Fig.2A).2A). These results suggest that increasing CD57 expression is associated with higher numbers of KIR-expressing NK cells in control subjects and HIV-infected subjects.Open in a separate windowFIG. 2.Phenotypic characterization of the CD57, CD57dim, and CD57bright subpopulations of CD56dim CD16+ NK cells. Representative flow cytometry plots for one control and one HIV-infected subject and summary data for all individuals whose PBMCs were analyzed are shown. CD57, CD57dim, and CD57bright NK cells are concatenated to visualize them in a single dot plot. Numbers in contour plots indicate percentages of gated events of the respective subset. (A) Percentages of KIR2DL2/DL3/DS2 and KIR3DS1/DL1-expressing CD57, CD57dim, and CD57bright cells were analyzed in control individuals (n = 15) and HIV-infected subjects (n = 37). (B) Numbers of HLA-DR-expressing and CD27-expressing CD57, CD57dim, and CD57bright cells in control individuals'' (n = 15) and HIV-infected subjects'' (n = 37) PBMCs were analyzed. Horizontal bars in dot plots show the means. ns, not significant (P > 0.05); *, P < 0.05; **, P < 0.01; ***, P < 0.001.We next addressed the question of whether increasing CD57 expression is linked to differential phenotypic properties of NK cells and analyzed the HLA-DR and CD27 expression of the CD57, CD57dim, and CD57bright subpopulations on CD56dim CD16+ NK cells. A significantly higher fraction of NK cells expressed HLA-DR in the CD57 than in the CD57bright subset in both healthy control individuals and HIV-infected subjects (Fig. (Fig.2B).2B). A considerably higher portion of NK cells was positive for HLA-DR in HIV-infected individuals than in control subjects (means, 3.2% versus 13.2% [P < 0.0001], 1.8% versus 10.4% [P = 0.001], and 0.9% versus 6.5% [P = 0.005] for CD57, CD57dim, and CD57bright subpopulations, respectively). We furthermore detected marked differences in frequencies of cells expressing CD27, a member of the tumor necrosis factor (TNF) receptor family (24). CD57 NK cells displayed the highest percentages of CD27+ cells, whereas CD57bright cells were almost all negative for CD27, in both control individuals and HIV-seropositive subjects (Fig. (Fig.2B).2B). We thus show that increasing expression of CD57 is associated with differential activation status and differential phenotype.Next, we sought to determine whether CD57 is linked to differential functional phenotypes by assessing the intracellular expression of granzyme B, perforin, and Ki-67. The frequencies of perforin-expressing NK cells did not vary within the different CD57 subsets of CD56dim CD16+ NK cells (Fig. (Fig.3A).3A). However, we found that CD57bright cells displayed the highest frequencies of granzyme B+ in both control and HIV-seropositive subjects, whereas CD57 cells exhibited the lowest percentages for granzyme B+ cells (Fig. (Fig.3A).3A). Conversely, when we studied the expression of Ki-67, we identified the opposite trend: less than 5% of CD57bright cells in control individuals and less than 10% of CD57bright cells in HIV-infected study subjects expressed Ki-67 (Fig. (Fig.3B).3B). The highest numbers of Ki-67+ cells were found in the CD57 population.Open in a separate windowFIG. 3.Functional characterization of CD57, CD57dim, and CD57bright cells within the CD56dim CD16+ NK cell population. (A) Representative staining results for granzyme B and perforin and summary data for control (n = 14) and HIV-seropositive subjects (n = 36). Numbers in the concatenated contour plots indicate percentages of gated events of the respective subset. B cells were defined as the negative control for granzyme and perforin staining. (B) Percentages of Ki-67+ and CD107a+ cells on CD57, CD57dim, and CD57bright cells within the CD56dim NK cell population in control (n = 14 and n = 9, respectively) and HIV-seropositive (n = 36 and n = 21, respectively) subjects'' PBMCs were analyzed. Horizontal bars in dot plots show the means. NC, negative control; ns, not significant (P > 0.05); *, P < 0.05; **, P < 0.01; ***, P < 0.001.We also assessed the presence of the degranulation marker CD107a on CD57, CD57dim, and CD57bright subpopulations of CD56dim CD16+ NK cells after stimulation with IL-12 and IL-15 and exposure to K562 cells. Similarly to what we had observed for Ki-67 expression, CD57 cells were the most efficient at degranulation when compared with CD57dim and CD57bright cells in HIV-infected individuals. Comparison to healthy controls revealed that there was a higher expression of CD107a in HIV-seropositive subjects for each CD57 subset. However, the most effective degranulation occurred in the CD57 and CD57dim subsets, which are preferentially depleted in HIV infection.We focused our analysis on CD56dim CD16+ NK cells because they constitute the largest NK cell subset in peripheral blood, they are the major NK cell subset expressing CD57 and KIRs, and they are the most prominent subpopulation for cytolytic activity. CD56dim CD16+ cells but not CD56bright CD16 NK cells were reported to be decreased in HIV-infected subjects (23), which we could confirm in our experiments (data not shown). We did not find CD57 on CD56bright CD16 NK cells either in healthy or in HIV-infected individuals. CD57 has been described as a marker for replicative senescence, and its expression has been associated with shorter telomeres and diminished proliferative capacities on T and NK cells (4). The presence of this marker on CD56dim CD16+ but not on CD56bright CD16+ NK cells might explain why the latter subset was shown to proliferate more efficiently upon cytokine stimulation (6). We demonstrated that increasing CD57 expression on NK cells was associated with lower numbers of CD27-expressing cells, a marker which is mainly expressed by CD56bright CD16 NK cells (24). CD56bright CD16 cells were suggested to be early NK cells, which differentiate from CD34dim CD45RA+ hematopoietic precursor cells with high expression of integrin α4β7 (11). These cells can furthermore give rise to CD56dim CD16+ NK cells (7). Our data support this hypothesis, as we show that CD57 can be found on CD56dim CD16+ NK cells but not on CD56bright NK cells, whereas the opposite is observed for CD27.We demonstrate that differential CD57 expression is associated with distinct functional characteristics. We show for the first time that increasing expression of CD57 on CD56dim CD16+ NK cells is associated with increasing prevalence of KIR+ and granzyme B+ cells. These cells appear to be more mature and differentiated in terms of KIR and granzyme B expression but less functionally active, as shown by decreased expression of Ki-67 and CD107a. We therefore propose that CD57 is not only a marker for replicative senescence but, in addition, a marker for terminal differentiation on NK cells, which is characterized by increased expression of KIR and higher granzyme B content and “counterbalanced” by decreased degranulation (CD107a) and decreased proliferation (Ki-67).Notably, we observed consistently higher frequencies of granzyme B+ cells in all three subsets within CD56dim CD16+ NK cells from HIV-seropositive individuals than in healthy control subjects (means, 52.9% versus 78.7% [P < 0.0001], 65.3% versus 89.6% [P < 0.0001], and 76.5% versus 95.0% [P < 0.0001]for CD57, CD57dim, and CD57bright subpopulations, respectively) (Fig. (Fig.1C).1C). Furthermore, HIV infection was associated with higher numbers of Ki-67-expressing NK cells (means, 8.4% versus 16.1% [P = 0.0005], 5.3% versus 11.6% [P = 0.0016], and 4.1% versus 6.2% [P = 0.04]) (Fig. (Fig.1C).1C). These changes, including the strong increase in HLA-DR-expressing NK cells, probably reflect the systemic immune activation in HIV-infected individuals.In summary, these findings support a view of a differential regulation of NK function and are in concordance with maturation of NK cells with high expression of CD57 on NK cells with a more terminally differentiated phenotype. Our data indicate that high turnover; activation status; and active degranulation as characterized by the expression of Ki-67, HLA-DR, and CD107a are mainly features of CD57 and much less of CD57dim NK cells. HIV infection is associated with increased activation, proliferation, and cytotoxicity during “early” stages of CD56dim CD16+ NK cell differentiation compared to their occurrence in healthy controls, but those are the very cells that are significantly decreased in chronic HIV infection. A loss of these functionally more active NK cells may be a yet-unappreciated factor in overall NK cell pathology and a further possible explanation for the impairment of NK cells in their contribution to viral control in HIV infection.  相似文献   

9.

Background

Natural cytotoxicity, mediated by natural killer (NK) cells plays an important role in the inhibition and elimination of malignant tumor cells. To investigate the immunoregulatory role of NK cells and their potential as diagnostic markers, NK cell activity (NKA) was analyzed in prostate cancer (PCa) patients with particular focus on NK cell subset distribution.

Methods

Prospective data of NKA and NK cell subset distribution patterns were measured from 51 patients initially diagnosed with PCa and 54 healthy controls. NKA was represented by IFN-γ levels after stimulation of the peripheral blood with Promoca®. To determine the distribution of NK cell subsets, PBMCs were stained with fluorochrome-conjugated monoclonal antibodies. Then, CD16+CD56dim and CD16CD56bright cells gated on CD56+CD3 cells were analyzed using a flow-cytometer.

Results

NKA and the proportion of CD56bright cells were significantly lower in PCa patients compared to controls (430.9 pg/ml vs. 975.2 pg/ml and 2.3% vs. 3.8%, respectively; p<0.001). Both tended to gradually decrease according to cancer stage progression (p for trend = 0.001). A significantly higher CD56dim-to-CD56bright cell ratio was observed in PCa patients (41.8 vs. 30.3; p<0.001) along with a gradual increase according to cancer stage progression (p for trend = 0.001), implying a significant reduction of CD56bright cells in relation to the alteration of CD56dim cells. The sensitivity and the specificity of NKA regarding PCa detection were 72% and 74%, respectively (best cut-off value at 530.9 pg/ml, AUC = 0.786).

Conclusions

Reduction of CD56bright cells may precede NK cell dysfunction, leading to impaired cytotoxicity against PCa cells. These observations may explain one of the mechanisms behind NK cell dysfunction observed in PCa microenvironment and lend support to the development of future cancer immunotherapeutic strategies.  相似文献   

10.
Our previous results have demonstrated that both nitric oxide (NO) and hydrogen peroxide (H2O2) are involved in the promotion of adventitious root development in marigold (Tagetes erecta L.). However, not much is known about the intricate molecular network of adventitious root development triggered by NO and H2O2. In this study, the involvement of calcium (Ca2+) and calmodulin (CaM) in NO- and H2O2-induced adventitious rooting in marigold was investigated. Exogenous Ca2+ was capable of promoting adventitious rooting, with a maximal biological response at 50 μM CaCl2. Ca2+ chelators and CaM antagonists prevented NO- and H2O2-induced adventitious rooting, indicating that both endogenous Ca2+ and CaM may play crucial roles in the adventitious rooting induced by NO and H2O2. NO and H2O2 treatments increased the endogenous content of Ca2+ and CaM, suggesting that NO and H2O2 enhanced adventitious rooting by stimulating the endogenous Ca2+ and CaM levels. Moreover, treatment with Ca2+ enhanced the endogenous levels of NO and H2O2. Additionally, Ca2+ might be involved as an upstream signaling molecule for CaM during NO- and H2O2-induced rooting. Altogether, the results suggest that both Ca2+ and CaM are two downstream signaling molecules in adventitious rooting induced by NO and H2O2.  相似文献   

11.

Background

Terminal differentiation of NK cells is crucial in maintaining broad responsiveness to pathogens and discriminating normal cells from cells in distress. Although it is well established that KIRs, in conjunction with NKG2A, play a major role in the NK cell education that determines whether cells will end up competent or hyporesponsive, the events underlying the differentiation are still debated.

Methodology/Principal Findings

A combination of complementary approaches to assess the kinetics of the appearance of each subset during development allowed us to obtain new insights into these terminal stages of differentiation, characterising their gene expression profiles at a pan-genomic level, their distinct surface receptor patterns and their prototypic effector functions. The present study supports the hypothesis that CD56dim cells derive from the CD56bright subset and suggests that NK cell responsiveness is determined by persistent inhibitory signals received during their education. We report here the inverse correlation of NKG2A expression with KIR expression and explore whether this correlation bestows functional competence on NK cells. We show that CD56dimNKG2AKIR+ cells display the most differentiated phenotype associated to their unique ability to respond against HLA-E+ target cells. Importantly, after IL-12 + IL-18 stimulation, reacquisition of NKG2A strongly correlates with IFN-γ production in CD56dimNKG2A NK cells.

Conclusions/Significance

Together, these findings call for the reclassification of mature human NK cells into distinct subsets and support a new model, in which the NK cell differentiation and functional fate are based on a stepwise decrease of NKG2A and acquisition of KIRs.  相似文献   

12.
The SARS-CoV-2 infection causes severe respiratory involvement (COVID-19) in 5–20% of patients through initial immune derangement, followed by intense cytokine production and vascular leakage. Evidence of immune involvement point to the participation of T, B, and NK cells in the lack of control of virus replication leading to COVID-19. NK cells contribute to early phases of virus control and to the regulation of adaptive responses. The precise mechanism of NK cell dysregulation is poorly understood, with little information on tissue margination or turnover. We investigated these aspects by multiparameter flow cytometry in a cohort of 28 patients hospitalized with early COVID-19.Relevant decreases in CD56brightCD16+/- NK subsets were detected, with a shift of circulating NK cells toward more mature CD56dimCD16+KIR+NKG2A+ and “memory” KIR+CD57+CD85j+ cells with increased inhibitory NKG2A and KIR molecules. Impaired cytotoxicity and IFN-γ production were associated with conserved expression of natural cytotoxicity receptors and perforin. Moreover, intense NK cell activation with increased HLA-DR and CD69 expression was associated with the circulation of CD69+CD103+ CXCR6+ tissue-resident NK cells and of CD34+DNAM-1brightCXCR4+ inflammatory precursors to mature functional NK cells. Severe disease trajectories were directly associated with the proportion of CD34+DNAM-1brightCXCR4+ precursors and inversely associated with the proportion of NKG2D+ and of CD103+ NK cells.Intense NK cell activation and trafficking to and from tissues occurs early in COVID-19, and is associated with subsequent disease progression, providing an insight into the mechanism of clinical deterioration. Strategies to positively manipulate tissue-resident NK cell responses may provide advantages to future therapeutic and vaccine approaches.  相似文献   

13.
14.
The leucocyte-specific phosphatase CD45 is present in two main isoforms: the large CD45RA and the short CD45RO. We have recently shown that distinctive expression of these isoforms distinguishes natural killer (NK) populations. For example, co-expression of both isoforms identifies in vivo the anti tumor NK cells in hematological cancer patients. Here we show that low CD45 expression associates with less mature, CD56bright, NK cells. Most NK cells in healthy human donors are CD45RA+CD45RO-. The CD45RA-RO+ phenotype, CD45RO cells, is extremely uncommon in B or NK cells, in contrast to T cells. However, healthy donors possess CD45RAdimRO- (CD45RAdim cells), which show immature markers and are largely expanded in hematopoietic stem cell transplant patients. Blood borne cancer patients also have more CD45RAdim cells that carry several features of immature NK cells. However, and in opposition to their association to NK cell progenitors, they do not proliferate and show low expression of the transferrin receptor protein 1/CD71, suggesting low metabolic activity. Moreover, CD45RAdim cells properly respond to in vitro encounter with target cells by degranulating or gaining CD69 expression. In summary, they are quiescent NK cells, with low metabolic status that can, however, respond after encounter with target cells.  相似文献   

15.
Immunotherapeutic strategies are increasingly being explored as a method of enhancing anti-tumour immune responses in patients with acute myeloid leukaemia (AML). Regulatory CD4+ T cells (Tregs) suppress effector T and natural killer (NK) cells and therefore pose a potential challenge to the efficacy of immunotherapy. AML cells transduced with a lentivirus expressing CD80 (B7.1) and IL2 (LV-CD80/IL2) are capable of stimulating T and NK cell cytotoxicity in vitro. This study examines the effect of CD80/IL2 modified AML cells on Treg number and function. We report a significant increase in the number of CD8+ T cells (P = 0.046) CD3CD56+ NK cells (P = 0.028) and CD3+CD4+CD25highFoxp3+ Tregs (P = 0.043) following stimulation for 7 days with allogeneic LV-CD80/IL2 AMLs. In contrast, autologous LV-CD80/IL2 AML cell cultures provide a weaker stimulation with a lower number of CD8+ T cells (P = 0.011) and no change in NK cell or Treg numbers. However, an increase in cytotoxic CD8+ T cells and NK cells are detected following both allogeneic and autologous LV-CD80/IL2 stimulation as demonstrated by an increase in IFN-γ and CD107a expression. Despite the presence of increased numbers of Tregs with suppressive activity in a subset of cultures, increased lysis of unmodified AMLs was still achieved following allogeneic (day 0, 2.2%; day 7, 20.4%) and more importantly, autologous LV-CD80/IL2 culture in which AML patients had recently received intensive chemotherapy (day 0, 0%; day 7, 16%). Vaccination with LV-CD80/IL2 therefore provides a potential strategy to enhance anti-leukaemia immune responses without a concomitant stimulation of Treg-mediated inhibition of cytotoxic immunological responses.  相似文献   

16.
Propofol (2,6-diisopropylphenol) is a widely used general anesthetic with anti-oxidant activities. This study aims to investigate protective capacity of propofol against hydrogen peroxide (H2O2)-induced oxidative injury in neural cells and whether the anti-oxidative effects of propofol occur through a mechanism involving the modulation of NADPH oxidase (NOX) in a manner of calcium-dependent. The rat differentiated PC12 cell was subjected to H2O2 exposure for 24 h to mimic a neuronal in vitro model of oxidative injury. Our data demonstrated that pretreatment of PC12 cells with propofol significantly reversed the H2O2-induced decrease in cell viability, prevented H2O2-induced morphological changes, and reduced the ratio of apoptotic cells. We further found that propofol attenuated the accumulation of malondialdehyde (biomarker of oxidative stress), counteracted the overexpression of NOX core subunit gp91phox (NOX2) as well as the NOX activity following H2O2 exposure in PC12 cells. In addition, blocking of L-type Ca2+ channels with nimodipine reduced H2O2-induced overexpression of NOX2 and caspase-3 activation in PC12 cells. Moreover, NOX inhibitor apocynin alone or plus propofol neither induces a significant downregulation of NOX activity nor increases cell viability compared with propofol alone in the PC12 cells exposed to H2O2. These results demonstrate that the protective effects of propofol against oxidative injury in PC12 cells are mediated, at least in part, through inhibition of Ca2+-dependent NADPH oxidase.  相似文献   

17.
A better understanding of human NK cell development in vivo is crucial to exploit NK cells for immunotherapy. Here, we identified seven distinctive NK cell developmental stages in bone marrow of single donors using 10-color flow cytometry and found that NK cell development is accompanied by early expression of stimulatory co-receptor CD244 in vivo. Further analysis of cord blood (CB), peripheral blood (PB), inguinal lymph node (inLN), liver lymph node (liLN) and spleen (SPL) samples showed diverse distributions of the NK cell developmental stages. In addition, distinctive expression profiles of early development marker CD33 and C-type lectin receptor NKG2A between the tissues, suggest that differential NK cell differentiation may take place at different anatomical locations. Differential expression of NKG2A and stimulatory receptors (e.g. NCR, NKG2D) within the different subsets of committed NK cells demonstrated the heterogeneity of the CD56brightCD16+/− and CD56dimCD16+ subsets within the different compartments and suggests that microenvironment may play a role in differential in situ development of the NK cell receptor repertoire of committed NK cells. Overall, differential in situ NK cell development and trafficking towards multiple tissues may give rise to a broad spectrum of mature NK cell subsets found within the human body.  相似文献   

18.
Three mouse killer immunoglobulin-like receptors (KIRs), namely, KIR3DL1, KIRL1, and KIRL2, have recently been identified in C56BL/6 (B6) mice. However, only two Kir genes are found in the B6 mouse genome sequence data base. To clarify this discrepancy, we cloned Kir cDNAs from multiple strains of mice. Sequencing of the cDNA clones showed that the Kir3dl1 gene is found in C3H/HeJ and CBA/J but not in B6 mice. Analysis of the single nucleotide polymorphism data base suggested that Kir3dl1 is the C3H/HeJ and CBA/J allele of Kirl1. We generated mAb to the recombinant KIRL1 protein to investigate its expression pattern. The anti-KIRL1 mAb bound to NK1.1+ T cells but only very weakly or at undetectable levels to other lymphocytes including natural killer (NK) cells and conventional T cells. Among NK1.1+ T cells, conventional NK T cells stained with CD1d tetramer did not significantly bind anti-KIRL1 mAb, whereas CD1d-tetramer-negative subset was KIRL1-positive. Furthermore, the expression of KIRL1 is readily detected on NK1.1+ T cells from β2-microglobulin-deficient B6 mice. Thus, KIRL1 is predominantly expressed on CD1d-independent NK1.1+ T cells.  相似文献   

19.

Objective

A prospective analysis of the distribution of NK subsets and natural cytotoxicity receptors (NKp30/NKp46) in HIV patients with long-term HAART use and sustained virological and immunological response.

Methods

The main inclusion criteria were: at least 3 years’ receipt of HAART; current CD4+ count ≥ 500 cells/mm3; undetectable viral load for at least 24 months; no hepatotropic virus co-infection. Percentages of CD56dim, CD56bright NK cells and CD56neg CD16+ cells were obtained. Expression of the NCRs, NKp30 and NKp46 was analysed in CD56+ cells. Thirty-nine infected patients and sixteen healthy donors were included in the study.

Results

The percentages of total CD56+ and CD56dim NK cells were significantly lower in HIV-infected patients than in healthy donors (70.4 vs. 50.3 and 80.9 vs. 66.1 respectively). The percentage of total CD56+ NK cells expressing NCR receptors was lower in HIV patients than in healthy donors (NKp30: 25.20 vs. 58.63; NKp46: 24.8 vs. 50.59). This was also observed for CD56dim and CD56bright NK cells. Length of time with undetectable HIV viral load was identified as an independent factor associated with higher expression of NKp30 and NKp46.

Conclusion

Despite the prolonged and effective use of HAART, HIV-infected patients do not fully reconstitute the distribution of NK cells. Length of time with an undetectable viral load was related to greater recovery of NKp30/NKp46 receptors.  相似文献   

20.
CD25+CD4+ regulatory T cells participate in the regulation of immune responses. We recently demonstrated the presence of CD25brightCD4+ regulatory T cells with a capacity to control T cell proliferation in the joints of patients with rheumatoid arthritis. Here, we investigate a possible accumulation of these regulatory T cells in the inflamed joint of different rheumatic diseases including rheumatoid arthritis. The studies are also extended to analyze whether cytokine production can be suppressed by the regulatory T cells. Synovial fluid and peripheral blood samples were obtained during relapse from 36 patients with spondyloarthropathies, 21 adults with juvenile idiopathic arthritis and 135 patients with rheumatoid arthritis, and the frequency of CD25brightCD4+ T cells was determined. Of 192 patients, 182 demonstrated a higher frequency of CD25brightCD4+ T cells in synovial fluid than in peripheral blood. In comparison with healthy subjects, the patients had significantly fewer CD25brightCD4+ T cells in peripheral blood. For functional studies, synovial fluid cells from eight patients were sorted by flow cytometry, and the suppressive capacity of the CD25brightCD4+ T cells was determined in in vitro cocultures. The CD25brightCD4+ T cells suppressed the production of both type 1 and 2 cytokines including interleukin-17, as well as proliferation, independently of diagnosis. Thus, irrespective of the inflammatory joint disease investigated, CD25brightCD4+ T cells were reduced in peripheral blood and enriched in the joint, suggesting an active recruitment of regulatory T cells to the affected joint. Their capacity to suppress both proliferation and cytokine secretion might contribute to a dampening of local inflammatory processes.  相似文献   

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