Activation of CD3/TCR negative human thymocytes via CD28 molecule.

We have observed that the CD28 molecule was present on the cell surface of a large fraction of resting CD3- thymocytes (40 to 100%). Interestingly, the majority (greater than 90%) of surface CD3-CD28-cells reacted in the cytoplasm with anti-CD28 (CK248, 9.3) and anti-CD3 epsilon chain mAbs (Leu4, OKT3). Along this line, we found that CD28 surface expression could be induced within 18 hr on CD3-CD28- thymocytes using very low doses of phorbol-13-myristate-12-acetate (PMA). This event was accompanied by the appearance of CD25 and CD69 activation antigens but not of CD3/TCR complex. These results were further confirmed by immunoprecipitation studies. It is noteworthy that the T-cell activation pathway initiated via the CD28 molecule is functional in resting CD3- thymocytes in the presence of PMA and/or IL2. Finally, stimulation of CD3- immature thymocytes via CD28 gave rise to a large fraction (about one-third) of CD3-CD8+ cells.     

Signaling through T lymphocyte surface proteins, TCR/CD3 and CD28, activates the HIV-1 long terminal repeat

The state of T cell activation and proliferation controls HIV-1 replication and gene expression. Previously, we demonstrated that the administration of PHA and PMA to the human T cell line Jurkat activates the HIV-1 enhancer, which is composed of two nuclear factor kappa B (NF kappa B) binding sites. Here, we show that PMA alone is sufficient for this effect. In addition, activation of T cells through the surface proteins TCR/CD3 and CD28 increased gene expression directed by the HIV-1 long terminal repeat (LTR) to the same extent as PMA. Analysis of 5' deletions in the LTR revealed that the NF kappa B binding sites and sequences in the upstream U3 region are required for this response. Whereas cyclosporin A did not inhibit the effect of PMA, it reduced the effects of agonists to TCR/CD3 and CD28 on the LTR. H7, an inhibitor of protein kinase C (PKC), blocked the effects of all stimuli. Thus, PMA activates the NF kappa B sites through a PKC-dependent pathway while ligands to TCR/CD3 and CD28 activate the LTR through a cyclosporin A-sensitive, PKC-dependent pathway of T cell activation. We conclude that mechanisms involved in the expression of IL-2 and the alpha-chain of the IL-2R alpha genes also play a role in the regulation of HIV-1. Physiologic stimuli can activate HIV-1 gene expression; agents that block T cell activation also inhibit activation of the LTR. These observations might serve as a model for the regulation of HIV-1 gene expression in peripheral blood T cells.     

NSOM/QD-Based Direct Visualization of CD3-Induced and CD28-Enhanced Nanospatial Coclustering of TCR and Coreceptor in Nanodomains in T Cell Activation

Direct molecular imaging of nano-spatial relationship between T cell receptor (TCR)/CD3 and CD4 or CD8 co-receptor before and after activation of a primary T cell has not been reported. We have recently innovated application of near-field scanning optical microscopy (NSOM) and immune-labeling quantum dots (QD) to image Ag-specific TCR response during in vivo clonal expansion, and now up-graded the NSOM/QD-based nanotechnology through dipole-polarization and dual-color imaging. Using this imaging system scanning cell-membrane molecules at a best-optical lateral resolution, we demonstrated that CD3, CD4 or CD8 molecules were distinctly distributed as single QD-bound molecules or nano-clusters equivalent to 2–4 QD fluorescence-intensity/size on cell-membrane of un-stimulated primary T cells, and ∼6–10% of CD3 were co-clustering with CD4 or CD8 as 70–110 nm nano-clusters without forming nano-domains. The ligation of TCR/CD3 on CD4 or CD8 T cells led to CD3 nanoscale co-clustering or interaction with CD4 or CD8 co-receptors forming 200–500 nm nano-domains or >500 nm micro-domains. Such nano-spatial co-clustering of CD3 and CD4 or CD3 and CD8 appeared to be an intrinsic event of TCR/CD3 ligation, not purely limited to MHC engagement, and be driven by Lck phosphorylation. Importantly, CD28 co-stimulation remarkably enhanced TCR/CD3 nanoscale co-clustering or interaction with CD4 co-receptor within nano- or micro-domains on the membrane. In contrast, CD28 co-stimulation did not enhance CD8 clustering or CD3–CD8 co-clustering in nano-domains although it increased molecular number and density of CD3 clustering in the enlarged nano-domains. These nanoscale findings provide new insights into TCR/CD3 interaction with CD4 or CD8 co-receptor in T-cell activation.     

CTGF Increases IL-6 Expression in Human Synovial Fibroblasts through Integrin-Dependent Signaling Pathway

Background

Connective tissue growth factor (CTGF; also known as CCN2) is an inflammatory mediator, and shows elevated levels in regions of severe injury and inflammatory diseases. CTGF is abundantly expressed in osteoarthritis (OA). However, the relationship between CTGF and IL-6 in OA synovial fibroblasts (OASFs) is mostly unknown.

Methodology/Principal Findings

OASFs showed significant expression of CTGF, and expression was higher than in normal SFs. OASFs stimulation with CTGF induced concentration-dependent increases in IL-6 expression. CTGF mediated IL-6 production was attenuated by αvβ5 integrin neutralized antibody and apoptosis signal-regulating kinase 1 (ASK1) shRNA. Pretreatment with p38 inhibitor (SB203580), JNK inhibitor (SP600125), AP-1 inhibitors (Curcumin and Tanshinone IIA), and NF-κB inhibitors (PDTC and TPCK) also inhibited the potentiating action of CTGF. CTGF-mediated increase of NF-κB and AP-1 luciferase activity was inhibited by SB203580 and SP600125 or ASK1 shRNA or p38 and JNK mutant.

Conclusions/Significance

Our results suggest that CTGF increased IL-6 production in OASFs via the αvβ5 integrin, ASK1, p38/JNK, and AP-1/NF-κB signaling pathways.     

Regulation of TRPM7 Function by IL-6 through the JAK2-STAT3 Signaling Pathway

Aims

Previous studies have demonstrated that expression of the TRPM7 channel, which may induce delayed cell death by mediating calcium influx, is precisely regulated. However, functional regulation of TRPM7 channels by endogenous molecules has not been elucidated. The proinflammatory cytokine IL-6 contributes to regulation of Ca²⁺ influx in cerebral ischemia, but the role of IL-6 in regulating TRPM7 functioning is unknown. Thus, we here investigated the interaction between IL-6 and TRPM7 channels and the relevant mechanisms.

Materials and Methods

Using whole-cell patch-clamping, we first investigated the effect of IL-6 on TRPM7-like currents in primary cultured cortical neurons. Next, TRPM7-overexpressing HEK293 cells were used to confirm the effect of IL-6/sIL-6R on TRPM7. Finally, we used specific signaling pathway inhibitors to investigate the signaling pathways involved.

Results

IL-6 or IL-6/sIL-6R dose-dependently inhibited inward TRPM7 currents, in both primary cultured neurons and HEK293 cells overexpressing TRPM7. In intracellular Mg²⁺-free conditions, extracellular Ca²⁺ or the α-kinase domain of TRPM7 did not participate in this regulation. The inhibitory effect of IL-6 on TRPM7 could be blocked by specific inhibitors of the JAK2−STAT3 pathway, but not of the PI3K, ERK1/2, or PLC pathways.

Conclusions

IL-6 inhibits the inward TRPM7 current via the JAK2−STAT3 signaling pathway.     

Prolonged TCR/CD28 engagement drives IL-2-independent T cell clonal expansion through signaling mediated by the mammalian target of rapamycin

Proliferation of Ag-specific T cells is central to the development of protective immunity. The concomitant stimulation of the TCR and CD28 programs resting T cells to IL-2-driven clonal expansion. We report that a prolonged occupancy of the TCR and CD28 bypasses the need for autocrine IL-2 secretion and sustains IL-2-independent lymphocyte proliferation. In contrast, a short engagement of the TCR and CD28 only drives the expansion of cells capable of IL-2 production. TCR/CD28- and IL-2-driven proliferation revealed a different requirement for PI3K and for the mammalian target of rapamycin (mTOR). Thus, both PI3K and mTOR activities were needed for T cells to proliferate to TCR/CD28-initiated stimuli and for optimal cyclin E expression. In contrast, either PI3K or mTOR were sufficient for IL-2-driven cell proliferation as they independently mediated cyclin E induction. Interestingly, rapamycin delayed cell cycle entry of IL-2-sufficient T cells, but did not prevent their expansion. Together, our findings indicate that the TCR, CD28, and IL-2 independently control T cell proliferation via distinct signaling pathways involving PI3K and mTOR. These data suggest that Ag persistence and the availability of costimulatory signals and of autocrine and paracrine growth factors individually shape T lymphocyte expansion in vivo.     

Sulforaphane Suppresses Hepatitis C Virus Replication by Up-Regulating Heme Oxygenase-1 Expression through PI3K/Nrf2 Pathway

Hepatitis C virus (HCV) infection-induced oxidative stress is a major risk factor for the development of HCV-associated liver disease. Sulforaphane (SFN) is an antioxidant phytocompound that acts against cellular oxidative stress and tumorigenesis. However, there is little known about its anti-viral activity. In this study, we demonstrated that SFN significantly suppressed HCV protein and RNA levels in HCV replicon cells and infectious system, with an IC₅₀ value of 5.7 ± 0.2 μM. Moreover, combination of SFN with anti-viral drugs displayed synergistic effects in the suppression of HCV replication. In addition, we found nuclear factor erythroid 2-related factor 2 (Nrf2)/HO-1 induction in response to SFN and determined the signaling pathways involved in this process, including inhibition of NS3 protease activity and induction of IFN response. In contrast, the anti-viral activities were attenuated by knockdown of HO-1 with specific inhibitor (SnPP) and shRNA, suggesting that anti-HCV activity of SFN is dependent on HO-1 expression. Otherwise, SFN stimulated the phosphorylation of phosphoinositide 3-kinase (PI3K) leading Nrf2-mediated HO-1 expression against HCV replication. Overall, our results indicated that HO-1 is essential in SFN-mediated anti-HCV activity and provide new insights in the molecular mechanism of SFN in HCV replication.     

芍药苷通过IL-10-STAT3信号通路抑制脂多糖诱导BV2细胞炎症与吞噬作用

小胶质细胞是中枢神经系统中重要免疫细胞,也是炎症反应中的主要效应细胞。芍药苷被证实能有效抑制炎症反应,在调节免疫方面具有巨大药用价值。本文旨在阐明BV2细胞炎症反应中芍药苷对细胞炎症及吞噬的抑制作用,并探索其中潜在机制。体外实验利用脂多糖（lipopolysaccharide,LPS）诱导BV2细胞发生炎症反应,芍药苷能有效抑制BV2细胞TNF-α和NO的产生以及BV2细胞异常增加的吞噬功能,并且在此过程中IL-10-STAT3信号通路被激活;芍药苷的抑制作用在我们使用STAT3抑制剂JSI-124后显著降低,TNF-α和NO的表达量增加、BV2细胞的吞噬功能增强。上述结果表明,芍药苷能有效抑制BV2细胞炎症作用及吞噬作用,这一过程中依赖IL-10-STAT3信号通路的激活。这将加深我们对芍药苷抑制小胶质细胞炎症作用机制的认识。     

Full CD3/TCR activation through cholesterol-depleted lipid rafts

Exogenous bacterial sphingomyelinase (SMase) and C6-Ceramides (C6-Cer) considerably lower buoyant cholesterol on sucrose density-gradient (at least 55% less cholesterol). In opposition, short C2-Cer fails to displace buoyant cholesterol. Note that neither SMase nor C6-Cer delocalize raft markers (Lck, LAT, CD55, and GM1). They are still anchored in ceramides-rich/cholesterol-poor domains, demonstrating that cholesterol is not necessary for their buoyancy. SMase-treated cells, i.e. cells exhibiting cholesterol-depleted rafts, optimally transmit CD3-induced phosphorylations (tyrosine, threonine, and serine). SMase, that extracts and partially displaces buoyant cholesterol, does not inhibit PLCgamma1-LAT interaction, Vav 1 phosphorylation, the actin polymerization, IL-2 and NF-kappaB (EMSA and luciferase assays) activation, and CD25 up-regulation (RT-PCR and cytometry) at all. Nevertheless, Ca(2+) influx and diacylglycerol (palmitoyl-DAG and arachidonoy-DAG) production are lowered. The drop of CD3-induced Ca(2+) influx is due to a strong plasma membrane depolarization because of Cer. The decreased DAG level is a consequence of the drop of intracellular Ca(2+) that is a cofactor for the PLCgamma1. In conclusion, our study challenges the real role of cholesterol-rich rafts in CD3/TCR signaling and suggests that other membrane domains than cholesterol-rich rafts can optimally transmit CD3/TCR signals.     

NEAT1通过PI3K/AKT/Bcl-2信号通路抑制骨质疏松

为探讨NEAT1在骨质疏松症中的作用以及可能的病理机制,本研究通过建立卵巢去势和鼠尾悬挂2种骨质疏松的小鼠模型,将C57BL/6分为假手术组(Sham组)、OVX组和TS组;经过PCR测定小鼠NEAT1的表达;Elisa法检测小鼠E2、ALP和TRACP水平;Western blotting检测细胞凋亡因子PI3K/AKT/Bcl-2的蛋白水平。结果显示,建模4周后,3组小鼠体重没有显著变化;与Sham组相比,OVX组和TS组小鼠的骨密度值显著降低,骨生化指标ALP和TRACR水平明显升高;OVX组小鼠的E2水平与Sham组相比明显降低;与Sham组相比,OVX组和TS组小鼠的NEAT1表达显著下调;与Sham组相比,OVX组和TS组小鼠p-AKT和Bcl-2蛋白水平明显降低。本研究结果表明,NEAT1可能通过抑制PI3K/AKT/Bcl-2细胞凋亡途径诱导骨质疏松。     

Stimulation through the TCR/CD3 complex up-regulates the CD2 surface expression on human T lymphocytes.

Despite the well known interrelationship between the CD2- and CD3-mediated signal transduction pathways, it is not well established whether the CD2 surface expression can be regulated by triggering of TCR/CD3 complex. In this study we show that the stimulation of human PBMC with the Cris-7 (CD3) mAb, both in soluble and particulate form, results in hyperexpression of the CD2 surface Ag, as assessed by immunofluorescence and semi-quantitative immunoprecipitation assays. Similar effects on CD2 surface expression were obtained when different CD3 mAb (OKT3, RW2-8C8 and Leu-4) were tested. The CD3-mediated CD2 up-regulation was suppressed by cycloheximide and actinomycin D, indicating that it requires de novo protein and RNA synthesis. In agreement with this, increased CD2 RNA levels were observed after 3 h of stimulation, reaching a plateau at 24 h that was maintained for 72 h. The CD2 up-regulation was concomitant to other CD3-induced activation-related events such as induction of surface CD25 and CD71 and high RNA levels for c-myc, IL-2R alpha- and beta-chains, CD71, and IFN-gamma. CD2 up-regulation appeared to be elicited by a protein kinase C-dependent mechanism because it was abrogated by staurosporine, a potent protein kinase C inhibitor. Moreover, IL-2-dependent events may also help in enhancing CD2 hyper-expression because it was only partially inhibitable by cyclosporine, dexamethasone, or Mar-108 (CD25) mAb. In conclusion, our data suggest that CD2 up-regulation can be a relevant event in T cell activation triggered by the physiologic engagement of the TCR/CD3 complex.     

Epstein-Barr Virus BGLF4 Kinase Suppresses the Interferon Regulatory Factor 3 Signaling Pathway

The BGLF4 protein kinase of Epstein-Barr virus (EBV) is a member of the conserved family of herpesvirus protein kinases which, to some extent, have a function similar to that of the cellular cyclin-dependent kinase in regulating multiple cellular and viral substrates. In a yeast two-hybrid screening assay, a splicing variant of interferon (IFN) regulatory factor 3 (IRF3) was found to interact with the BGLF4 protein. This interaction was defined further by coimmunoprecipitation in transfected cells and glutathione S-transferase (GST) pull-down in vitro. Using reporter assays, we show that BGLF4 effectively suppresses the activities of the poly(I:C)-stimulated IFN-β promoter and IRF3-responsive element. Moreover, BGLF4 represses the poly(I:C)-stimulated expression of endogenous IFN-β mRNA and the phosphorylation of STAT1 at Tyr701. In searching for a possible mechanism, BGLF4 was shown not to affect the dimerization, nuclear translocation, or CBP recruitment of IRF3 upon poly(I:C) treatment. Notably, BGLF4 reduces the amount of active IRF3 recruited to the IRF3-responsive element containing the IFN-β promoter region in a chromatin immunoprecipitation assay. BGLF4 phosphorylates GST-IRF3 in vitro, but Ser339-Pro340 phosphorylation-dependent, Pin1-mediated downregulation is not responsible for the repression. Most importantly, we found that three proline-dependent phosphorylation sites at Ser123, Ser173, and Thr180, which cluster in a region between the DNA binding and IRF association domains of IRF3, contribute additively to the BGLF4-mediated repression of IRF3(5D) transactivation activity. IRF3 signaling is activated in reactivated EBV-positive NA cells, and the knockdown of BGLF4 further stimulates IRF3-responsive reporter activity. The data presented here thus suggest a novel mechanism by which herpesviral protein kinases suppress host innate immune responses and facilitate virus replication.     

IL-6/STAT3信号途径介导肉芽肿性乳腺炎的作用研究

目的:探讨IL-6/STAT3信号途径介导肉芽肿性乳腺炎的机制研究及临床意义。方法:收集我院2017年1月至2017年6月收治入住的30例肉芽肿性乳腺炎患者及30例普通患者的血清样本,对肉芽肿性乳腺炎患者同时采集炎性肿块组织样本及距离炎性肿块边缘大于等于3 cm且镜检为正常乳腺组织的样本。采用ELISA法检测血清样本中的IL-6的表达水平,同时采用Western blot检测组织样本中IL-6和pSTAT3蛋白的表达水平并分析二者的相关性。结果:与普通患者血清样本相比,肉芽肿性乳腺炎患者血清中IL-6的表达水平明显增高(P0.05),肉芽肿性乳腺炎组织样本中IL-6和pSTAT3蛋白的表达水平明显高于毗邻的正常乳腺组织(P0.01),IL-6表达与组织STAT3磷酸化水平具有明显的正相关性(r=0.353,P0.05)。结论:IL-6/STAT3信号途径可能介导肉芽肿性乳腺炎的发生发展。