转录因子Sp1抑制K562细胞红系分化

 目的 研究转录因子Sp1在K562细胞诱导向红系分化过程中的表达变化,并确定其对于红系分化及珠蛋白表达的影响。方法 用定量PCR及Western blot的方法确定Sp1在红系分化过程中的表达情况。通过RNAi的方法抑制Sp1的表达,并通过联苯胺染色确定K562细胞中血红蛋白的表达情况,同时定量PCR的方法分析红系分化相关基因的表达,流式细胞技术检测红系分化过程中表面标志蛋白的表达情况。结果 在hemin诱导的K562细胞以及促红细胞生成素EPO诱导的造血干细胞向红系分化过程中,Sp1的mRNA及蛋白水平均呈明显下降,提示其可能负调节红系分化过程。在K562细胞中抑制Sp1的表达则可明显提高K562细胞中的血红蛋白含量,促进γ-,ε-珠蛋白,CD71,CD235a基因的表达,同时CD71,CD235a阳性细胞比例明显增加。结论 以上结果说明转录因子Sp1负调节红系分化过程,抑制Sp1的表达可提高K562细胞中珠蛋白的表达,并促进K562细胞向红系分化。     

Natural killer cell receptor expression reflects the role of human cytomegalovirus in the pathogenesis of a subset of CD4+ T-cell large granular lymphocytosis

A high frequency of CD4(+) T-cell large granular lymphocyte (T-LGL) lymphocytosis occurs in human leukocyte antigen (HLA) -DRB1*0701 individuals displaying monoclonal expansions of Vβ13.1+ CD4(+) T-cell clones, which specifically respond to human cytomegalovirus (HCMV) antigens. We previously reported the expression of natural killer (NK)-cell associated receptors (NKR) by HCMV-specific cytolytic CD4(+) T cells from healthy donors. In the present study a high expression of different NKR (i.e., NKG2D, killer Ig-like receptors (KIR), CD94, ILT2) was observed in CD4(+) T cells from both Vβ13.1- and Vβ13.1+ CD4(+) T-LGL cases. Remarkably, elevated numbers of CD94/NKG2C+ NK cells, previously shown to expand in association to HCMV infection, were preferentially found in Vβ13.1+ T-LGL, further supporting its role in the pathogenesis of a subset of CD4(+) T-LGL.     

Sp3对β-catenin基因转录调控作用初探

 目的:观察转录因子Sp3对β-catenin启动子转录活性的影响,探讨Sp3与Wnt/β-catenin信号通路的关系。方法:采用脂质体法将Sp1和(或)Sp3转录因子表达质粒单独/共同与β-catenin启动子（-410/-1 bp）报告基因质粒瞬时转染HEK293T细胞;通过双萤光素酶报告基因实验检测报告基因转录活性的变化。结果:（1）Sp1表达质粒在0.4 μg剂量时能提高启动子的活性2.4倍,Sp3表达质粒在0.4 μg剂量时能显著提高启动子的活性5.3倍。（2）0.4 μg总量的Sp1与Sp3表达质粒共转染293T细胞,随着Sp3/Sp1比例的递增,β-catenin启动子转录活性无明显变化。（3）共同转染Sp1 0.3 μg与Sp3 0.1 μg时,启动子活性提高3.5倍,比单独转染的转录活性强。结论: Sp3能促进β-catenin基因启动子（-410/-1 bp）的转录,Sp1的转录激活作用则较弱;在转录过程中Sp1和Sp3可能存在协同作用;Sp3可能在转录水平调控β-catenin的表达从而影响Wnt/β-catenin信号通路。     

NK细胞和NKT细胞在病毒性肝炎中的作用

NK细胞(Natural killer cells)和NKT细胞(Natural killer T cells)参与机体的天然免疫反应。NK细胞在肝炎病毒感染的早期免疫反应中起到重要作用,而慢性病毒性肝炎患者NK细胞功能降低。另外,动物实验显示NKT细胞可致肝组织损伤并能抑制肝炎病毒的复制。因此通过调节NK细胞和NKT细胞的功能治疗病毒性肝炎将有可能成为一种新的策略。     

Natural killer T-cell characterization through gene expression profiling: an account of versatility bridging T helper type 1 (Th1), Th2 and Th17 immune responses

Natural killer T (NKT) cells constitute a distinct lymphocyte lineage at the interface between innate and adaptive immunity, yet their role in the immune response remains elusive. Whilst NKT cells share features with other conventional T lymphocytes, they are unique in their rapid, concomitant production of T helper type 1 (Th1) and Th2 cytokines upon T-cell receptor (TCR) ligation. In order to characterize the gene expression of NKT cells, we performed comparative microarray analyses of murine resting NKT cells, natural killer (NK) cells and naïve conventional CD4⁺ T helper (Th) and regulatory T cells (Treg). We then compared the gene expression profiles of resting and alpha-galactosylceramide (αGalCer)-activated NKT cells to elucidate the gene expression signature upon activation. We describe here profound differences in gene expression among the various cell types and the identification of a unique NKT cell gene expression profile. In addition to known NKT cell-specific markers, many genes were expressed in NKT cells that had not been attributed to this population before. NKT cells share features not only with Th1 and Th2 cells but also with Th17 cells. Our data provide new insights into the functional competence of NKT cells which will facilitate a better understanding of their versatile role during immune responses.     

Redundancy in the immune system restricts the spread of HSV-1 in the central nervous system (CNS) of C57BL/6 mice

Resistance to lethal encephalitis in mice infected with HSV-1 via the oral mucosa is mouse strain dependent. In susceptible BALB/c, HSV-1 spreads throughout the CNS but in resistant BL/6 mice, virus is restricted to the brainstem. To examine the contribution of cellular immunity in restricting viral spread, we used a combination of antibody depleted and KO mice. Individually, NK/NKT, iNKT, CD4⁺, CD8⁺, and γδ T-cells do not restrict HSV-1 spread. In contrast, virus spreads throughout the CNS of BL/6 CL I KO mice and BL/6 mice treated with either anti-asialoGM1 Ab or both anti-CD8 and anti-NK1.1 mAbs. The results highlight the importance of redundancy in the immune system in restricting viral spread in the CNS, argue for a role of NK/NKT and CD8⁺ T-cells in mediating the restriction, and provide a hierarchical order of the individual elements in controlling virus in BL/6 mice infected with HSV-1 via the oral mucosa.     

T‐bet is essential for Th1‐mediated,but not Th17‐mediated,CNS autoimmune disease

T cells that produce both IL‐17 and IFN‐γ, and co‐express ROR‐γt and T‐bet, are often found at sites of autoimmune inflammation. However, it is unknown whether this co‐expression of T‐bet with ROR‐γt is a prerequisite for immunopathology. We show here that T‐bet is not required for the development of Th17‐driven experimental autoimmune encephalomyelitis (EAE). The disease was not impaired in T‐bet^?/? mice and was associated with low IFN‐γ production and elevated IL‐17 production among central nervous system (CNS) infiltrating CD4⁺ T cells. T‐bet^?/? Th17 cells generated in the presence of IL‐6/TGF‐β/IL‐1 and IL‐23 produced GM‐CSF and high levels of IL‐17 and induced disease upon transfer to naïve mice. Unlike their WT counterparts, these T‐bet^?/– Th17 cells did not exhibit an IL‐17→IFN‐γ switch upon reencounter with antigen in the CNS, indicating that this functional change is not critical to disease development. In contrast, T‐bet was absolutely required for the pathogenicity of myelin‐responsive Th1 cells. T‐bet‐deficient Th1 cells failed to accumulate in the CNS upon transfer, despite being able to produce GM‐CSF. Therefore, T‐bet is essential for establishing Th1‐mediated inflammation but is not required to drive IL‐23‐induced GM‐CSF production, or Th17‐mediated autoimmune inflammation.     

The transient nature of the Th17 phenotype

CD4(+) Th lymphocytes represent a heterogeneous population of cells that play an essential role in adaptive immunity. In addition to type 1 (Th1) and type 2 (Th2) cells, a third subset of CD4(+) Th effector cells has recently been discovered, named type 17 (Th17) because of its unique ability to produce interleukin (IL)-17. Initial studies in mice suggested that Th17 cells are the pathogenic cells in autoimmune disorders, whereas Th1 cells are protective. Studies in humans have demonstrated the plasticity of Th17 cells and their ability to convert to Th1 cells. This Th17 to Th1 cell plasticity has also been confirmed in mice and, furthermore, it was found that Th17 cells appear to be pathogenic only when they shift to Th1 cells. A study in this issue of the European Journal of Immunology uses an IL-17 fate mapping mouse strain, which permits the identification of the cells that have been IL-17 producers, to provide definitive evidence that Th17 cells, either generated in vitro or in vivo, represent a transient phenotype that tend to convert into IFN-γ-producing cells. Our Commentary discusses this interesting point in light of previous data suggesting the same concept.     

Perforin: structure,function, and role in human immunopathology

Summary: The secretory granule-mediated cell death pathway is the key mechanism for elimination of virus-infected and transformed target cells by cytotoxic lymphocytes. The formation of the immunological synapse between an effector and a target cell leads to exocytic trafficking of the secretory granules and the release of their contents, which include pro-apoptotic serine proteases, granzymes, and pore-forming perforin into the synapse. There, perforin polymerizes and forms a transmembrane pore that allows the delivery of granzymes into the cytosol, where they initiate various apoptotic death pathways. Unlike relatively redundant individual granzymes, functional perforin is absolutely essential for cytotoxic lymphocyte function and immune regulation in the host. Nevertheless, perforin is still the least studied and understood cytotoxic molecule in the immune system. In this review, we discuss the current state of affairs in the perforin field: the protein’s structure and function as well as its role in immune-mediated diseases.     

The pro‐Th2 cytokine IL‐33 directly interacts with invariant NKT and NK cells to induce IFN‐γ production

IL‐33 has recently been identified as a cytokine endowed with pro‐Th2 functions, raising the question of its effect on invariant natural killer T cell (iNKT), which are potent IL‐4 producers. Here, we report a two‐fold increase of iNKT‐cell counts in spleen and liver after a 7‐day treatment of mice with IL‐33, which results from a direct effect, given that purified iNKT cells express the T1/ST2 receptor constitutively and respond to IL‐33 by in vitro expansion and functional activation. Conversely to the expected pro‐Th2 effect, IL‐33 induced a preferential increase in IFN‐γ rather than IL‐4 production upon TCR engagement that depended on endogenous IL‐12. Moreover, in combination with the pro‐inflammatory cytokine IL‐12, IL‐33 enhanced IFN‐γ production by both iNKT and NK cells. Taken together these data support the conclusion that IL‐33 can contribute as a co‐stimulatory factor to innate cellular immune responses.     

The induction of baboon glycodelin expression by progesterone is not through Sp1

Glycodelin is a major secretory product of the uterine glandular epithelial cells of the human and non-human primate during the late luteal phase of the menstrual cycle and early pregnancy. Since progesterone levels are elevated during these periods we sought to determine how progesterone modulates glycodelin gene expression. Co-transfection of various deletions of the baboon glycodelin promoter with the progesterone receptor (PR) into Ishikawa cells, a human endometrial cell line, revealed that full progesterone responsiveness is retained within the region -119/+48. In COS-1 cells, a kidney cell line, progesterone failed to elevate luciferase levels when various deletion constructs and the PR were co-transfected. Mutation of the Sp1 site in the -67/+48 region lowered basal expression but did not affect the ability of progesterone to increase expression of the luciferase reporter in Ishikawa cells. These findings suggest that Sp1 sites are not involved in the progesterone regulation of the baboon glycodelin gene. We propose that progesterone induces a factor that regulates glycodelin gene expression in the uterus since we failed to obtain a similar response in a non-uterine cell line.     

Soluble flagellin, FliC, induces an Ag-specific Th2 response, yet promotes T-bet-regulated Th1 clearance of Salmonella typhimurium infection

Clearance of disseminated Salmonella infection requires bacterial-specific Th1 cells and IFN-γ production, and Th1-promoting vaccines are likely to help control these infections. Consequently, vaccine design has focused on developing Th1-polarizing adjuvants or Ag that naturally induce Th1 responses. In this study, we show that, in mice, immunization with soluble, recombinant FliC protein flagellin (sFliC) induces Th2 responses as evidenced by Ag-specific GATA-3, IL-4 mRNA, and protein induction in CD62L(lo) CD4(+) T cells without associated IFN-γ production. Despite these Th2 features, sFliC immunization can enhance the development of protective Th1 immunity during subsequent Salmonella infection in an Ab-independent, T-cell-dependent manner. Salmonella infection in sFliC-immunized mice resulted in augmented Th1 responses, with greater bacterial clearance and increased numbers of IFN-γ-producing CD4(+) T cells, despite the early induction of Th2 features to sFliC. The augmented Th1 immunity after sFliC immunization was regulated by T-bet although T-bet is dispensable for primary responses to sFliC. These findings show that there can be flexibility in T-cell responses to some subunit vaccines. These vaccines may induce Th2-type immunity during primary immunization yet promote Th1-dependent responses during later infection. This suggests that designing Th1-inducing subunit vaccines may not always be necessary since this can occur naturally during subsequent infection.     

The role of natural killer cells in autoimmune blistering diseases

The major focus of this paper is to describe and evaluate current information on the role of natural killer cells (NK cells) in the pathogenesis of blistering diseases. Until now, only pemphigus vulgaris (PV) has been studied. One co-culture study demonstrated that CD4⁺ T cells from the peripheral blood or perilesional skin of patients with active disease proliferate and secrete cytokines in the presence of major histocompatibility class II-expressing NK cells loaded with antigenic desmoglein self-peptides. Another study showed that NK cells can contribute to a T helper type 2-biased immune response through impaired interleukins (IL)-12 signaling and upregulation of IL, IL-10 and IL-5. Although significant data on other blistering diseases are unavailable at present, some studies implicate NK cells in disease progression. For instance, information on the role of NK cells in psoriasis and their production of tumor necrosis factor-α (TNF-α) will be provided since several TNF-α-inhibitors are used in its treatment. Studies on alopecia areata are also included in this paper because NK cells seem to play a key role in its pathogenesis. This review highlights the potential importance of NK cells and NKT cells as members of the large repertoire of cells and soluble mediators that play a critical role in pathogenesis of blistering diseases and other autoimmune diseases involving the skin. Therefore, the authors advocate a greater focus and interest on the study of the interaction of NK cells and the skin.