Autoregulation of MARCH1 expression by dimerization and autoubiquitination

Some members of the membrane-associated RING-CH family of E3 ubiquitin ligases (MARCHs) are membrane-bound and target major players of the immune response. MARCH1 ubiquitinates and downregulates MHC class II expression in APCs. It is induced by IL-10 and despite a strong increase in mRNA expression in human primary monocytes, the protein remains hardly detectable. To gain insights into the posttranslational regulation of MARCH1, we investigated whether its expression is itself regulated by ubiquitination. Our results demonstrate that MARCH1 is ubiquitinated in transfected human cell lines. Polyubiquitin chain-specific Abs revealed the presence of K48-linked polyubiquitin chains. A mutant devoid of lysine residues in the N- and C-terminal regions was less ubiquitinated and had a prolonged half-life. Reduced ubiquitination was also observed for an inactive mutated form of the molecule (M1WI), suggesting that MARCH1 is capable of autoubiquitination. Immunoprecipitation and energy transfer experiments demonstrated that MARCH1 homodimerizes and also forms heterodimers with others family members. Coexpression of MARCH1 decreased the protein levels of the inactive M1WI, suggesting a transubiquitination process. Taken together, our results suggest that MARCH1 may regulate its own expression through dimerization and autoubiquitination.     

支气管哮喘病儿外周血树突状细胞功能变化

目的:观察支气管哮喘病儿外周血单个核细胞(PBMC)来源树突状细胞(DC)功能变化。方法:以18例健康儿童为对照,选择16例支气管哮喘发作期病儿为研究对象,分离PBMC并经rhGM-CSF诱生成熟DC。采用流式细胞仪(FACS)检测DC表面共刺激分子CD80(B7-1)、CD86(B7-2)和CD83的表达率;ELISA法检测培养上清液中IL-10和IL-12的变化。结果:①哮喘组DC表面CD86的表达率明显高于健康对照组(t=2.27,P<0.05),CD80、CD83的表达率与健康对照组比较均无显著性差异(t=1.17,1.34;P>0.05)。②哮喘组DC分泌IL-10、IL-12水平均明显低于健康对照组(t’=3.31,3.39;P<0.01)。③哮喘组DC分泌IL-10与IL-12成正相关(r=0.740,P<0.01),而健康对照组IL-10与IL-12无相关性(r=0.232,P>0.05)。结论:支气管哮喘病儿DC存在功能缺陷,主要表现在CD86表达升高、IL-10、IL-12分泌减少。     

Short-term lipopolysaccharide stimulation induces differentiation of murine bone marrow-derived dendritic cells into a tolerogenic phenotype

Dendritic cells (DCs) are professional, antigen-presenting cells, which induce and regulate T cell reactivity. DCs are crucial in innate and adaptive immune responses, and are also involved in central and peripheral tolerance induction. Tolerance can be mediated by immature and semi-mature DCs expressing low levels of co-stimulator and major histocompatibility complex (MHC) molecules. The aim of this study was to investigate the ability of short-term lipopolysaccharide (LPS) stimulation to modulate the stage of differentiation of bone marrow-derived DCs. For this purpose, DCs obtained from DBA1/lacJ mice were stimulated for four (4hLPS/DCs) or 24 (24hLPS/DCs) hours with LPS, using DCs without stimulation (0hLPS/DCs) as a control. Flow cytometry analysis of 4hLPS/DCs showed intermediate CD40 and MHC class II expression, lower than that of 24hLPS/DCs (fully mature), and greater than that of 0hLPS/DCs (immature). A functional assay showed that 4hLPS/DCs displayed increased endocytotic ability compared to 24hLPS/DCs, indicating a semi-mature state. 4hLPS/DCs were greater producers of IL-10 protein and TGFbeta1 mRNA than 24hLPS/DCs and immature DCs, displaying a cytokine production pattern that is characteristic of tolerogenic DCs. An assay for antigen-presenting capacity demonstrated that 4hLPS/DCs induced secretion of IL-2 from an OTH4 T cell hybridoma, indicating a functional presenting activity. Finally, the tolerogenic phenotype of 4hLPS/DCs was demonstrated by their ability to interfere with the progression of bovine type II collagen (bII)-induced arthritis (CIA) when they were loaded with bCII antigen and injected into mice with established CIA. We conclude that the stimulation of murine bone marrow-derived DCs with LPS for four hours generates semi-mature DCs with tolerogenic capability.     

Augmentation of antigen-presenting and Th1-promoting functions of dendritic cells by WSX-1(IL-27R) deficiency

WSX-1 is the alpha subunit of the IL-27R complex expressed by T, B, NK/NKT cells, as well as macrophages and dendritic cells (DCs). Although it has been shown that IL-27 has both stimulatory and inhibitory effects on T cells, little is known on the role of IL-27/WSX-1 on DCs. LPS stimulation of splenic DCs in vivo resulted in prolonged CD80/CD86 expression on WSX-1-deficient DCs over wild-type DCs. Upon LPS stimulation in vitro, WSX-1-deficient DCs expressed Th1-promoting molecules higher than wild-type DCs. In an allogeneic MLR assay, WSX-1-deficient DCs were more potent than wild-type DCs in the induction of proliferation of and IFN-gamma production by responder cell proliferation. When cocultured with purified NK cells, WSX-1-deficient DCs induced higher IFN-gamma production and killing activity of NK cells than wild-type DCs. As such, Ag-pulsed WSX-1-deficient DCs induced Th1-biased strong immune responses over wild-type DCs when transferred in vivo. WSX-1-deficient DCs were hyperreactive to LPS stimulation as compared with wild-type DCs by cytokine production. IL-27 suppressed LPS-induced CD80/86 expression and cytokine production by DCs in vitro. Thus, our study demonstrated that IL-27/WSX-1 signaling potently down-regulates APC function and Th1-promoting function of DCs to modulate overall immune responses.     

Over-expression of a RhoA-specific guanine nucleotide exchange factor, p190RhoGEF, in mouse dendritic cells negatively regulates cellular responses to bacterial lipopolysaccharide

We studied the role of a RhoA-specific guanine nucleotide exchange factor (p190RhoGEF) in dendritic cells (DCs), using transgenic (TG) mice that over-express a full gene of p190RhoGEF under the control of an invariant chain promoter. TG mice lacked localization of activated DCs to the T cell zone in the spleen and had reduced serum levels of IL-6 in response to lipopolysaccharide (LPS) injection. DCs from these mice also showed reduced surface expression of CD86, CD40, and CD205, but not MHCII, as well as a reduced capability to uptake antigen. Moreover, chemokine-driven migration and secretion of IL-6, but not of IL-12, were impaired after LPS-stimulation of TG DCs. Collectively, these results suggest that over-expressing p190RhoGEF negatively regulates conventional DC function in response to bacterial LPS infection.     

双歧杆菌对哮喘儿童DC表达CD86和HLA-DR的影响

目的研究双歧杆菌对过敏性哮喘儿童外周血单个核细胞来源的树突状细胞（DC）表面表达CD86和HLA-DR的影响。方法从12例过敏性哮喘儿童和10例对照组儿童的外周血单个核细胞诱导生成未成熟DC,分别经双歧杆菌或细菌脂多糖（LPS）处理,用流式细胞仪检测各组DC表面CD86和HLA-DR分子表达。结果双歧杆菌刺激后,哮喘儿童DC表面CD86表达明显增高（P〈0．05）,HLA-DR表达无明显变化（P〉0．05）,对照组儿童CD86和HLA-DR表达无明显影响;LPS刺激可明显增加哮喘儿童和对照组儿童CD86和HLA-DR的表达。结论过敏性哮喘儿童DC表面CD86的表达可能存在缺陷,双歧杆菌能适度上调其表达,在DC的成熟过程中可能起调节作用。     

小鼠骨髓源性树突状细胞体外诱导培养方法的比较研究

目的探讨最佳体外诱导培养小鼠成熟树突状细胞（dendritic cells,DC）的方法。方法分离、纯化6周龄C57BL／6小鼠骨髓单核细胞,以含10％胎牛血清、20ng／ml重组小鼠粒细胞-巨噬细胞集落刺激因子（GM—CSF）和10ng／ml重组小鼠白细胞介素-4（IL-4）的RPMI-1640培养基培养7d,然后将细胞分成对照未刺激组、肿瘤坏死因子-α（TNF-α）刺激组和TNF-α＋脂多糖（lipopolysaccharides,LPS）刺激组。继续培养48h后,观察各组细胞形态,检测IL-12、IL-6浓度及细胞表面标志CD11c、CD80、CD86和MHC II。结果培养9d后,两刺激组培养的细胞经相差显微镜观察有DC生长。TNF—α刺激组细胞培养上清液中IL-6、IL-12含量显著高于对照组（P〈0．01）,但显著低于TNF—α＋LPS刺激组（P〈0．05）。3组均高表达CD11c,各组间无显著差异;而CD80、CD86和MHC II表达阳性率TNF-α刺激组显著高于对照组（P〈0．01）,TNF-α＋LPS刺激组显著高于单纯TNF—α刺激组（P〈0．05）。结论联合使用TNF-α与LPS刺激可使DC成熟度提高,分泌IL-6、IL-12增加。     

Inhibition of microRNA let-7i depresses maturation and functional state of dendritic cells in response to lipopolysaccharide stimulation via targeting suppressor of cytokine signaling 1

Dendritic cells (DCs) can initiate immune responses or confer immune tolerance depending on functional status. LPS-induced DC maturation is defined by enhanced surface expression of CD80 and CD86. MicroRNAs are critical for the regulation of DC function and immunity, and the microRNA let-7i was upregulated during LPS-induced DC maturation. Downregulation of let-7i significantly impeded DC maturation as evidenced by reduced CD80 and CD86 expression. DCs stimulated by LPS promoted T cell proliferation in coculture, whereas LPS-stimulated DCs with downregulated let-7i were not effective at stimulating T cell proliferation but promoted expansion of the regulatory T cell (Treg) population. There were two subpopulations of LPS-stimulated DCs with downregulated let-7i, CD86(-) and CD86(+), and it was the CD86(-) DCs that were more effective in inducing T cell hyporesponsiveness and enhancing Treg numbers, indicating that this DC population had tolerogenic properties. Furthermore, Tregs with upregulated IL-10 underscored the tolerogenic effect of CD86(-) DCs. Suppressor of cytokine signaling 1 (SOCS1), a crucial mediator of DC maturation, was confirmed as a let-7i target gene by luciferase construct assay. Suppression or overexpression of let-7i caused reciprocal alterations in SOCS1 protein expression, but had no significant effects on SOCS1 mRNA levels, indicating that let-7i regulated SOCS1 expression by translational suppression. The modulation of SOCS1 protein by let-7i was mainly restricted to CD86(-) DCs. Our study demonstrates that let-7i regulation of SOCS1 is critical for LPS-induced DC maturation and immune function. Dynamic regulation of let-7i may fine-tune immune responses by inducing Ag-specific immune tolerance.     

Elevated level of pro inflammatory cytokine and chemokine expression in chicken bone marrow and monocyte derived dendritic cells following LPS induced maturation

The study was designed to characterize and compare chicken bone marrow and peripheral blood monocyte derived dendritic cells (chBM-DC and chMoDC) and to evaluate inflammatory cytokine and chemokine alterations in response upon LPS stimulation. Typical morphology was observed in DCs from 48 h of culture using recombinant chicken GM-CSF and IL-4. Maturation of DCs with LPS (1 μg/ml) showed significant up regulation of mRNA of surface markers (CD40, CD80, CD83, CD86, MHC-II and DC-LAMP (CD208)), pro-inflammatory cytokines (IL-1β, IL-6, TNF-α (LITAF)), iNOS, chemokine CXCli2 and TLRs4 and 15. Basal level of TLR1 mRNA expression was higher followed by TLR15 in both DCs irrespective of their origin. Expression of iNOS and CXCLi2 mRNA in mature DCs of both origins were higher than other surface molecules and cytokines studied. Hence, its level of expression can also be used as an additional maturation marker for LPS induced chicken dendritic cell maturation along with CD83 and CD40. LPS matured DCs of both origins upregulated IL-12 and IFN-γ. Based on CD40 and CD83 mRNA expression, it was observed that LPS induced the maturation in both DCs, but chMoDCs responded better in expression of surface markers and inflammatory mediator genes.     

Cestode antigens induce a tolerogenic-like phenotype and inhibit LPS inflammatory responses in human dendritic cells

Pathogens have developed strategies to modify Dendritic Cells (DCs) phenotypes and impair their functions in order to create a safer environment for their survival. DCs responses to helminths and their derivatives vary among different studies. Here we show that excretory/secretory products of the cestode Taenia crassiceps (TcES) do not induce the maturation of human DCs judged by a lack of increment in the expression of CD83, HLA-DR, CD80 and CD86 molecules but enhanced the production of IL-10 and positively modulated the expression of the C-type lectin receptor MGL and negatively modulated the expression of DC-SIGN. Additionally, these antigens were capable of down-modulating the inflammatory response induced by LPS in these cells by reducing the expression of the maturation markers and the production of the inflammatory cytokines IL-1β, TNF, IL-12 and IL-6. The effects of TcES upon the DCs responses to LPS were stronger if cells were exposed during their differentiation to the helminth antigens. All together, these findings suggest the ability of TcES to induce the differentiation of human DCs into a tolerogenic-like phenotype and to inhibit the effects of inflammatory stimuli.     

Interferon-beta induces the development of type 2 dendritic cells

Suppression of interleukin 12 (IL-12) production by dendritic cells (DCs) has been hypothesized to be a principal mechanism underlying the biological action of interferon (IFN)-beta used for treatment of multiple sclerosis (MS), a chronic inflammatory disease of the central nervous system with possible autoimmune origin. How IFN-beta interacts with DCs to inhibit IL-12 production remains unclear. In this study, we found that DCs derived from human blood monocytes, upon culture in the presence of IFN-beta with granulocyte-macrophage colony- stimulating factor (GM-CSF) and IL-4, differentiated into a population expressing CD14- CD1a- HLA-DR+. This population expressed CD123 (IL-3Ralpha). IFN-beta dose-dependently increased IL-3Ralpha+ DCs and decreased CD1a+ DCs. After 7 days' culture with IFN-beta at a concentration of 10 000 U/ml, more than 40% of DCs expressed IL-3Ralpha. IFN-beta, together with GM-CSF and IL-4, also induced maturation of IL-3Ralpha-expressing cells, as reflected by upregulation of HLA-DR and of the costimulatory molecules CD40, CD80 and CD86. In contrast to control DCs, IFN-beta-treated DCs produced predominantly IL-10 but only low levels of IL-12p40. Correspondingly, IFN-beta-treated DCs strongly suppressed IFN-gamma production but enhanced IL-10 production by allogeneic blood mononuclear cells. Our data suggest that IFN-beta in vitro can induce the development of DC2, which provide a permissive environment for Th2 differentiation. This finding represents a novel mechanism for action of IFN-beta in MS.     

Butyrate inhibits functional differentiation of human monocyte-derived dendritic cells

Dendritic cells (DCs) play a key role in immune function through antigen presentation by MHC and CD1, as well as cytokine production that shapes the immune response. Here we report that butyrate, a histone deacetylase inhibitor, inhibits the functional differentiation of human monocyte-derived DCs. Mature DCs were generated from monocytes in the presence of granulocyte macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4), followed by 2 day LPS stimulation. Butyrate treatment throughout the culture period inhibited the expression of CD1 molecules, but not on CD83, CD86, and MHC molecules. The suppression was exerted at protein and mRNA levels. Butyrate-treated immature DCs also showed decreased expression of CD1 molecules. Moreover the butyrate-treated immature DCs showed lower production of IL-12 p40 and IL-6 in response to lipopolysaccharides and induced less Th1 cells in allogenic mixed lymphocyte reactions. Our results imply that histone acetylation is involved in regulating immune responses through regulating functional differentiation of DC. Thus HDAC may be one of the targets for controlling the immune response.     

Outer membrane protein A expression in Escherichia coli K1 is required to prevent the maturation of myeloid dendritic cells and the induction of IL-10 and TGF-beta

Dendritic cells (DCs) are professional APCs that direct both cellular and humoral immune responses. Escherichia coli K1 causes meningitis in neonates; however, the interactions between this pathogen and DCs have not been previously explored. In the present study, we observed that E. coli K1, expressing outer membrane protein A (OmpA), was able to enter, survive, and replicate inside DCs, whereas OmpA(-) E. coli was killed within a short period. Opsonization of OmpA(+) E. coli either with adult or cord serum did not affect its survival inside DCs. Exposure of DCs to live OmpA(+) E. coli K1 prevented DCs from progressing in their maturation process as indicated by failure to up-regulate costimulatory molecules, CD40, HLA-DR, and CD86. The distinct DC phenotype requires direct contact between live bacteria and DCs. The expression of costimulatory molecules was suppressed even after pretreatment of DCs with LPS or peptidoglycan. Furthermore, the suppressive effects of OmpA(+) E. coli on DCs were abrogated when the bacteria were incubated with anti-OmpA Ab. The inhibitory effect on DC maturation was associated with increased production of IL-10 as well as TGF-beta and decreased production of IL-6, TNF-alpha, IL-1beta, and IL-12p70 by DCs, a phenotype associated with tolerogenic DCs. These results suggest that the subversion of DC functions may be a novel strategy deployed by this pathogen to escape immune defense and persist in the infected host to reach a high degree of bacteremia, which is crucial for E. coli to cross the blood-brain barrier.     

Extracellular ATP induces a distorted maturation of dendritic cells and inhibits their capacity to initiate Th1 responses

Dendritic cells (DCs) express functional purinergic receptors, but the effects of purine nucleotides on DC functions have been marginally investigated. In this study, we report on the ability of micromolar concentrations of ATP to affect the maturation and Ag-presenting function of monocyte-derived DCs in vitro. Chronic stimulation (24 h) of DCs with low, noncytotoxic ATP doses increased membrane expression of CD54, CD80, CD86, and CD83, slightly reduced the endocytic activity of DCs, and augmented their capacity to promote proliferation of allogeneic naive T lymphocytes. Moreover, ATP enhanced LPS- and soluble CD40 ligand-induced CD54, CD86, and CD83 expression. On the other hand, ATP markedly and dose-dependently inhibited LPS- and soluble CD40 ligand-dependent production of IL-1alpha, IL-1beta, TNF-alpha, IL-6, and IL-12, whereas IL-1 receptor antagonist and IL-10 production was not affected. As a result, T cell lines generated from allogeneic naive CD45RA(+) T cells primed with DCs matured in the presence of ATP produced lower amounts of IFN-gamma and higher levels of IL-4, IL-5, and IL-10 compared with T cell lines obtained with LPS-stimulated DCs. ATP inhibition of TNF-alpha and IL-12 production by mature DCs was not mediated by PGs or elevation of intracellular cAMP and did not require ATP degradation. The inability of UTP and the similar potency of ADP to reproduce ATP effects indicated that ATP could function through the P2X receptor family. These results suggest that extracellular ATP may serve as an important regulatory signal to dampen IL-12 production by DCs and thus prevent exaggerated and harmful immune responses.     

Honokiol inhibits LPS-induced maturation and inflammatory response of human monocyte-derived dendritic cells

Honokiol (HNK) is a phenolic compound isolated from the bark of houpu (Magnolia officinalis), a plant widely used in traditional Chinese and Japanese medicine. While substantial evidence indicates that HNK possesses anti-inflammatory activity, its effect on dendritic cells (DCs) during the inflammatory reaction remains unclear. The present study investigates how HNK affects lipopolysaccharide (LPS)-stimulated human monocyte-derived DCs. Our experimental results show that HNK inhibits the inflammatory response of LPS-induced DCs by (1) suppressing the expression of CD11c, CD40, CD80, CD83, CD86, and MHC-II on LPS-activated DCs, (2) reducing the production of TNF-α, IL-1β, IL-6, and IL-12p70 but increasing the production of IL-10 and TGF-β1 by LPS-activated DCs, (3) inhibiting the LPS-induced DC-elicited allogeneic T-cell proliferation, and (4) shifting the LPS-induced DC-driven Th1 response toward a Th2 response. Further, our results show that HNK inhibits the phosphorylation levels of ERK1/2, p38, JNK1/2, IKKα, and IκBα in LPS-activated DCs. Collectively, the findings show that the anti-inflammatory actions of HNK on LPS-induced DCs are associated with the NF-κB and mitogen-activated protein kinase (MAPK) signaling pathways.     

Downregulation of major histocompatibility complex class I by human ubiquitin ligases related to viral immune evasion proteins

Poxviruses and gamma-2 herpesviruses share the K3 family of viral immune evasion proteins that inhibit the surface expression of glycoproteins such as major histocompatibility complex class I (MHC-I), B7.2, ICAM-1, and CD95(Fas). K3 family proteins contain an amino-terminal PHD/LAP or RING-CH domain followed by two transmembrane domains. To examine whether human homologues are functionally related to the viral immunoevasins, we studied seven membrane-associated RING-CH (MARCH) proteins. All MARCH proteins located to subcellular membranes, and several MARCH proteins reduced surface levels of known substrates of the viral K3 family. Two closely related proteins, MARCH-IV and MARCH-IX, reduced surface expression of MHC-I molecules. In the presence of MARCH-IV or MARCH-IX, MHC-I was ubiquitinated and rapidly internalized by endocytosis, whereas MHC-I molecules lacking lysines in their cytoplasmic tail were resistant to downregulation. The amino-terminal regions containing the RING-CH domain of several MARCH proteins examined catalyzed multiubiquitin formation in vitro, suggesting that MARCH proteins are ubiquitin ligases. The functional similarity of the MARCH family and the K3 family suggests that the viral immune evasion proteins were derived from MARCH proteins, a novel family of transmembrane ubiquitin ligases that seems to target glycoproteins for lysosomal destruction via ubiquitination of the cytoplasmic tail.     

MARCH ubiquitin ligases alter the itinerary of clathrin-independent cargo from recycling to degradation

Following endocytosis, internalized plasma membrane proteins can be recycled back to the cell surface or trafficked to late endosomes/lysosomes for degradation. Here we report on the trafficking of multiple proteins that enter cells by clathrin-independent endocytosis (CIE) and determine that a set of proteins (CD44, CD98, and CD147) found primarily in recycling tubules largely failed to reach late endosomes in HeLa cells, whereas other CIE cargo proteins, including major histocompatibility complex class I protein (MHCI), trafficked to both early endosome antigen 1 (EEA1) and late endosomal compartments in addition to recycling tubules. Expression of the membrane-associated RING-CH 8 (MARCH8) E3 ubiquitin ligase completely shifted the trafficking of CD44 and CD98 proteins away from recycling tubules to EEA1 compartments and late endosomes, resulting in reduced surface levels. Cargo affected by MARCH expression, including CD44, CD98, and MHCI, still entered cells by CIE, suggesting that the routing of ubiquitinated cargo occurs after endocytosis. MARCH8 expression led to direct ubiquitination of CD98 and routing of CD98 to late endosomes/lysosomes.     

Extracellular signal-regulated kinase, stress-activated protein kinase/c-Jun N-terminal kinase, and p38mapk are involved in IL-10-mediated selective repression of TNF-alpha-induced activation and maturation of human peripheral blood monocyte-derived dendritic cells

TNF-alpha or IL-10 has been implicated to reversibly regulate physiological states of dendritic cells (DCs). However, little is known about dual stimulations of these cytokines on DC properties and the intracellular signaling events that are responsible for the regulation of these states. Here, we show that a family of mitogen-activated protein kinases (MAPKs), extracellular signal-regulated kinase 2 (ERK2), stress-activated protein kinase/c-Jun N-terminal kinase (SAPK/JNK), and p38mapk, are potentially involved in IL-10-mediated selective suppression of TNF-alpha-induced changes of the monocyte-derived DC properties. TNF-alpha induced the cluster formation of the cells and the enhancement of cell surface expression levels of CD83, CD86, and HLA-DR, and T cell stimulatory capacity, whereas the capacities for the endocytosis and the chemotactic migration were suppressed in these cells. Treatment of monocyte-derived DCs with IL-10 resulted in the reduction of the cell surface expression levels of CD86, HLA-DR, and T cell stimulatory capacity, whereas both endocytic and chemotactic migratory capacities were increased by IL-10. Dual stimulations of monocyte-derived DCs with TNF-alpha and IL-10 selectively antagonized their respective effects on these DC properties. TNF-alpha induced tyrosine phosphorylation and enzymatic activation of ERK2, SAPK/JNK, and p38mapk, whereas IL-10 did not induce these events. Dual stimulations of TNF-alpha plus IL-10 abolished TNF-alpha-induced changes of these MAPKs in DCs. These results suggest that the blockage in the MAPKs cascades contributes to IL-10-mediated repression of TNF-alpha-induced changes of DC properties.