Etanercept Impairs Maturation of Human Monocyte-Derived Dendritic Cells by Inhibiting the Autocrine TNFα-mediated Signaling

The success of anti-tumor necrosis factor alpha (TNFα) therapies has led to increased interest as to the mechanisms and consequences of TNFα blockade. The aim of the study was to examine the effects of TNFα blockade by etanercept on lipopolysaccharide (LPS) or peptidoglycan (PG)-induced maturation of human monocyte-derived dendritic cells (MDDCs). MDDCs grown from peripheral blood of healthy donors were stimulated by LPS or PG with/without the presence of etanercept. Concentrations of TNFα in cell supernatants were assessed by ELISA, while the cells were stained with monoclonal antibodies to CD83, CD80, CD86, CD11c, CD40, HLA-DR, and annexin-V and acquired using a flow cytometer. Etanercept significantly decreased the stimulated cell surface expression of HLA-DR, CD80, CD86, CD40 and CD83 on MDDCs in all examined samples. Etanercept in the same dose, but denatured to loss of specificity for TNFα, failed to change any of the aforementioned markers. In the presence of etanercept, concentrations of TNFα in cell supernatants were decreased by 53% on average, with a range of 25%–87%. Etanercept impaired the stimulated maturation of MDDCs by neutralizing the induced TNFα, produced by the same MDDCs after antigenic stimulation. The reported data confirms that TNFα blockade may have a direct effect on DCs, with a wide spectrum of potential secondary effects downstream. The data also suggests the presence of TNFα-mediated autocrine signaling, serving to accelerate or catalyze the maturation process of MDDCs.     

Composition of MHC class II-enriched lipid microdomains is modified during maturation of primary dendritic cells

Dendritic cells (DCs) are the most potent antigen presenting cells. Major histocompatibility complex (MHC) class II molecule expression changes with maturation; immature DCs concentrate MHC class II molecules intracellularly, whereas maturation increases surface expression of MHC class II and costimulatory molecules to optimize antigen presentation. Signal transduction via MHC class II molecules localized in lipid microdomains has been described in B lymphocytes and in the THP-1 monocyte cell line. We have characterized MHC class II molecules throughout human DC maturation with particular attention to their localization in lipid-rich microdomains. Only immature DCs expressed empty MHC class II molecules, and maturation increased the level of peptide-bound heterodimers. Ligand binding to surface human leukocyte antigen (HLA)-DR induced rapid internalization in immature DCs. The proportion of cell-surface detergent-insoluble glycosphingolipid-enriched microdomain-clustered HLA-DR was higher in immature DCs despite the higher surface expression of HLA-DR in mature DCs. Constituents of HLA-DR containing microdomains included the src kinase Lyn and the cytoskeletal protein tubulin in immature DCs. Maturation modified the composition of the HLA-DR-containing microdomains to include protein kinase C (PKC)-delta, Lyn, and the cytoskeletal protein actin, accompanied by the loss of tubulin. Signaling via HLA-DR redistributed HLA-DR and -DM and PKC-delta as well as enriching the actin content of mature DC microdomains. The increased expression of HLA-DR as a result of DC maturation was therefore accompanied by modification of the spatial organization of HLA-DR. Such regulation could contribute to the distinct responses induced by ligand binding to MHC class II molecules in immature versus mature DCs.     

Early activation markers of human peripheral dendritic cells

Two major populations of dendritic cells (DCs), myeloid and plasmacytoid, can be isolated from human peripheral blood, and are distinguished by differential expression of the cell surface markers CD11c and CD123. These two populations of DCs also are different in their expression of Toll-like receptor (TLRs), which are involved in their activation. To investigate the early events during activation of peripheral DCs, the cells were stimulated in vitro with ligands for TLR-4 (as in lipopolysaccharides [LPS]) or TLR-9 (CpG-containing oligonucleotide [CpG]). The earliest change in protein expression detected after stimulating peripheral DCs with lipopolysaccharide (LPS) or CpG was increased production of the chemokine interleukin (IL)-8. Enhanced production of IL-8 occurred already within 2 hours of stimulation in both myeloid dendritic cells (M-DCs) and plasmacytoid dendritic cells (P-DCs), and preceded expression of the well established activation marker CD40. Although both populations of DCs secreted IL-8 upon activation, the levels of IL-8 produced was several times higher within the M-DCs compared with the P-DCs population. Before activation, both subsets of DCs expressed the IL-8 receptor type B (CD128b); but after stimulation the IL-8 receptor was down-regulated in both populations of DCs. Increased expression of MHC class II molecules is generally regarded as an early activation marker of DCs. However, only the P-DCs showed a significant up-regulation of MHC class II after stimulation. The M-DC population up-regulated MHC class II without any prior activation; thus care should be taken using increased expression of MHC class II molecules as an early activation marker of peripheral M-DCs after activation in vitro. In conclusion, we propose that during activation of human DCs the production of IL-8 and loss of CD128b are the earliest signs of activation preceding both MHC class II, CD40, CD80, and CD86 expression.     

Phenotype and Function of Monocyte-Derived Dendritic Cells from Chinese Rhesus Macaques

Dendritic cells （DCs） play a pivotal role in linking the innate immunity and acquired immunity in responses to pathogen. Non-human primates such as Chinese Rhesus Macaque （CRM） are the favorable models for preclinical study of potential therapeutic drugs, vaccines and mechanisms of human diseases. However, the phenotypical characterization of monocyte-derived dendritic cells （MDDCs） from CRM has not been elucidated. Monocytes from CRM were cultured with GM-CSF and IL-4 in RPMI-1640. Six days later, these cells were differentiated with typical dendritical morphology. CDllc and DC-SIGN were highly expressed. The immature MDDCs expressed the low levels of CD25, CD80, CD83, moderate CD40, CD86, and high MHC. After stimulation, the mature MDDCs increased expression of mature molecules CD25 and CD83, co-stimulatory molecules such as CD80, CD86 and CD40, and kept a high level of MHC. The capacity of endocytosis decreased with maturation. The mature MDDCs have strong ability of inducing allogeneic T cell proliferation and producing IL-12. In conclusion, we have characterized the phenotype and ultimate function of MDDCs from CRM for the first time.     

Human herpesvirus 6 downregulates major histocompatibility complex class I in dendritic cells

The expression of major histocompatibility complex (MHC) class I, class II, CD1a, and CD 83 in dendritic cells (DCs) after infection with human herpesvirus 6 (HHV-6) was examined. Whereas there was no significant change in the expression of CD1a, CD83, and MHC class II in infected DCs, MHC class I expression was downregulated after infection with HHV-6 variant A but not HHV-6B. The expression of HHV-6 immediate-early or early genes was required for the downregulation of MHC class I. The de novo synthesis of MHC class I was greatly suppressed by infection with HHV-6A in DCs, while its rate of degradation was only slightly elevated. These results suggest that HHV-6A may escape from the host immune system in DCs by causing the downregulation of MHC class I synthesis.     

Luminal bacterial antigen-specific CD4+ T-cell responses in HLA-B27 transgenic rats with chronic colitis are mediated by both major histocompatibility class II and HLA-B27 molecules

Rats transgenic (TG) for the human major histocompatibility complex (MHC) class I HLA-B27 and beta2-microglobulin genes develop chronic colitis under specific pathogen-free (SPF) but not sterile (germ-free, GF) conditions. We investigated the role of antigen-presenting molecules involved in generating immune responses by CD4+ mesenteric lymph node (MLN) cells from colitic HLA-B27 TG rats to commensal enteric micro-organisms. All TG MLN cells expressed HLA-B27. A higher level of MHC class II was expressed on cells from TG rats, both SPF and GF, compared to non-TG littermates. In contrast, rat MHC class I expression was lower on TG than non-TG cells. Both TG and non-TG antigen presenting cells (APC) pulsed with caecal bacterial antigens induced a marked interferon-gamma (IFN-gamma) response in TG CD4+ T lymphocytes but failed to stimulate non-TG cells. Blocking MHC class II on both TG and non-TG APC dramatically inhibited their ability to induce TG CD4+ T cells to produce IFN-gamma. Blocking HLA-B27 on TG APC similarly inhibited IFN-gamma responses. When the antibodies against MHC class II and HLA-B27 were combined, no APC-dependent IFN-gamma response was detected. These data implicate both native rat MHC class II and TG HLA-B27 in CD4+ MLN T-cell IFN-gamma responses to commensal enteric microflora in this colitis model.     

Different types of in vitro generated human monocyte-derived dendritic cells release exosomes with distinct phenotypes

Human in vitro generated dendritic cells and the exosomes they release are potential tools for the modulation of immune responses. Here, we characterized differently generated monocyte-derived dendritic cells (MDDCs) and their exosomes. Culturing of peripheral CD14+ cells from the same individuals with either interleukin (IL)-4 and granulocyte-macrophage colony-stimulating factor (GM-CSF) (conventional MDDCs) or alternatively with IL-4 and IL-3 generated immature MDDCs in 7 days. Fluorescence-activated cell sorting (FACS) analysis showed that the IL-4/IL-3-generated MDDCs had significantly lower percentages of CD1a+, CD40+ and CD80+ cells and a higher percentage of CD86+ cells as compared with conventional MDDCs. In addition, IL-4/IL-3-generated MDDCs had significantly higher densities of major histocompatibility complex (MHC) class I [human leucocyte antigen (HLA)-ABC], MHC class II (HLA-DR), CD11c and the tetraspanin CD81 as compared with conventional MDDCs. In a comparison of their ability to stimulate CD8+ T cells, we found that the IL-4/IL-3 MDDCs were slightly more efficient than the conventional MDDCs at inducing interferon (IFN)-gamma release in response to viral peptides. Exosome morphology was confirmed by electron microscopy and exosome phenotypes were analysed by flow cytometry and western blot. In comparison to exosomes from conventional MDDCs, exosomes from IL-4/IL-3-generated MDDCs showed significantly stronger signals for HLA-ABC, HLA-DR, CD11c, CD63 and CD81. Thus, phenotypically the exosomes largely reflected their MDDCs of origin. When exosomes were loaded with viral peptides, both types of exosomes induced IFN-gamma release from CD8+ T cells. Our findings might have significance for the development of DC- and exosome-based therapies.     

Interactions of dendritic cells with cancer cells and modulation of surface molecules affect functional properties of CD8+ T cells

To understand the interaction of dendritic cells (DCs) with cancer cells, we investigated molecular changes in DCs following co-culture with cancer cells. DCs co-cultured with Jurkat cancer cells showed remarkable down-regulation of MHC class I molecules, while DCs co-cultured with MCF-7 cancer cells showed minimal changes. Interestingly, down-regulation of MHC class I on DCs was not observed upon treatment with Jurkat cell lysate or culture supernatant, suggesting the importance of direct cell-cell interactions. The expressions of CD40, CD80, CD83, MHC class II, and IL-12p40 on DCs co-cultured with Jurkat cells were only slightly affected. In contrast, DCs co-cultured with MCF-7 cells showed increased expressions of CD80, CD83, CD86, and IL-12p40. Furthermore, DCs co-cultured with Jurkat cells showed a down-regulation of low molecular weight polypeptides (LMP) 7, and of transporter associated with antigen processing (TAP) 1 and 2 at the mRNA expression level. LMP7, TAP2 and β2-microglobulin (β2M) were also down-regulated at the protein level. We further demonstrated how altered expression of MHC class I on DCs caused by co-culture with cancer cells affected autologous CD8(+) T cells, using the model MHC class I-presented HSV antigen. We found that DCs that had been HSV-treated and co-cultured with Jurkat cells showed a reduced potency to activate CD8(+) T cells. In contrast, HSV-treated DCs that had been co-cultured with MCF-7 cells induced activation of CD8(+) T cells, including high expression of CD25, CD69, granzyme B and cytokines, TNF-α and IFN-γ.     

Enhanced anti-tumor effect of dendritic cells modified by CIITA gene in hepatocellular carcinoma-bearing mice]

AIM: To study the effect of MHC class II transactivator(CIITA ) on the expression of MHC class I/II molecules, CD80 and CD86 molecules on dendritic cells(DCs), and explor the use of DCs modified by CIITA gene in the biotherapy of tumors. METHODS: We transfected the mouse CIITA gene by lipofectamine into DCs drived from mouse bone marrow. The expression of MHC class I/II, CD80, and CD86 molecules was detected by flow cytometry. 40 mice bearing hepatcellular carcinoma were divided into 4 groups: group 1 were treated with a para-tumor injection of PBS, group 2 DCs, group 3 modified DCs, and group 4 modified DCs pulsed with H22 tumor antigen. Then the anti-tumor effect of DCs modified by mCIITA was evaluated by measuring the tumor size. RESULTS: After transfection of mCIITA, the expression rate of MHC class I/II molecules of DCs increased from 74.2%/66.7% to 93.6%/91.4%, and that of CD80/CD86 increased from 52.3%/60.5% to 89.7%/91.5%. After immunization, the growth of H22 tumors in group 4 mice was significantly inhibited compared with that in other three groups (P<0.05 at 3, 4, 5, 6, and 7 weeks versus groups 1, 2; P<0.05 at 5, 6, 7 weeks versus group 3). CONCLUSION: The expression of MHC I/II, CD80 and CD86 on DCs was regulated markedly by transfection of mCIITA. mCIITA transfection also enhanced the anti-tumor effect of DCs. Our results provided a new method for biotherapy of tumors with DCs.     

雷帕霉素和地塞米松对小鼠树突状细胞分化成熟的调控

目的：观察雷帕霉素（rapamycin，Rap）和地塞米松（dexamethasone，Dex）对堵养的小鼠骨髓来源的树突状细胞（DC）分化发育的影响。方法：（1）用GM-CSF＋IL-4定向诱导C57BL／6小鼠骨髓细胞分化为DC，分别加入Rap或Dex，然后用脂多糖（LPS）刺激。在倒置显微镜和扫描电镜下，动态观察DC形态学E的变化。（2）通过流式细胞术（荧光抗体双标记法）测定CD11c^＋细胞的比例及CD86和MHC-Ⅱ类分子表达的变化。（3）通过单向混合淋巴细胞反应（MLR）观察，Rap和Dex处理的DC刺激BALB／c小鼠同种异基因T细胞增殖的情况。结果：（1）经Rap和Dex处理后，DC在形态学上呈现稳定不成熟状态。（2）Rap处理的细胞表面CDIlc和MHC-Ⅱ类分子的表达仅有轻度降低，而CD86的表达明显降低。Dex处理的细胞表面CDIlc的表达与Dex的剂量呈负相关，CD86和MHC-Ⅱ类分子的表达均明硅降低。两种药物处理的DC均可抵抗LPS的促成熟作用。（3）MLR的结果显示，Rap和Dex处理的DC刺激同种异基因BALB／c小鼠T细胞增殖的能力均较低。结论：Rap和Dex均可使DC处于稳定的不成熟状态。与Dex相比，Rap对骨髓造血F细胞向DC分化的过程影响较小，而且在抑制DC表面协同刺激分子CD86表达的同时，对MHC-Ⅱ类分子的表达影响较小。     

Changes in monocytic expression of aminopeptidase N/CD13 after major trauma

HLA-DR expression on monocytes as marker for monocytic function is severely depressed after major trauma. The membrane enzyme aminopeptidase N/CD13 can trigger help in antigen processing by MHC class II molecules of antigen-presenting cells. We determined the simultaneous expression of HLA-DR and CD13 on peripheral blood monocytes of patients with major trauma (injury severity score of > or =16). 1 : 1 conjugates of phycoerythrin (PE)-to-monoclonal antibody were used in combination with QuantiBRITE PE beads for a standardized quantification in terms of antibodies bound per cell (ABC). The very low expression of HLA-DR antigen on monocytes of patients at day 1 after major trauma confirmed previous results in the literature. Monocytic HLA-DR expression increased slowly to reach values in the lower range of healthy volunteers at day 14. Monocytic CD13 expression at day 1 showed values in the range of healthy volunteers, and a strong rise afterwards. Fourteen days after trauma, the monocytic expression of CD13 was still much higher than in the control group. Because lipopolysaccharide (LPS) and the anti-inflammatory cytokine interleukin (IL)-10 have been shown to be involved in the depressed HLA-DR expression on monocytes in trauma patients, we studied the in vitro effects of LPS and interleukin (IL)-10 on the expression of CD13 on monocytes prepared from the peripheral blood of healthy volunteers. Whereas a 3-day IL-10 treatment resulted in a down-regulation of both HLA-DR and CD13 expression on monocytes, LPS caused a down-regulation of HLA-DR but a rapid up-regulation of CD13 levels. Therefore we suggest that, with respect to monocytic CD13 expression, LPS rather than IL-10 could well be the explanation for monocytic surface molecules after severe injury, although other mediators with a CD13 regulating function have to be considered.     

LPS介导的树突状细胞成熟过程中的表型变化

目的:探讨树突状细胞成熟过程中,DC表面MHC分子和共刺激分子的表达变化及MHCⅡ的胞内分布变化。方法:制备小鼠骨髓来源的树突状细胞,LPS分别刺激0、3、6、12和24小时,荧光抗体标记后,用流式细胞仪检测MHCⅠ、MHCⅡ分子和CD86、CD80、CD40等共刺激分子在细胞表面的表达,同时以激光共聚焦显微镜观察MHCⅡ的胞内分布变化。结果:在LPS刺激后,DC细胞表面的不同表型分子,其表达水平随时间延长有不同的上升趋势。同时在未成熟DC中,MHCⅡ主要集中在细胞核附近,LPS刺激后,MHCⅡ朝细胞外围扩散,到刺激12小时,有较多的MHCⅡ出现在细胞表面。结论:LPS介导的树突状细胞成熟过程中的表型分子有不同的变化趋势。     

Expression of MHC Class II Molecules on Human Monocytes is Regulated Independently from Each Other after Phagocytosis of Bacteria

Reactive arthritis is usually self-limiting polyarthritis which develops in HLA-B27 positive individuals after certain gastrointestinal or urogenital infections. The pathogenesis of reactive arthritis is unknown but T cells seem to have a crucial role. Most of the antigen-specific T cells isolated from the synovial fluid have been MHC class II restricted. The role of antigen presentation in the pathogenesis of reactive arthritis has been studied relatively little. In this work the authors studied theeffect of arthritis-triggering bacterium ( Yersinia enterocolitica O:3) on the expression of MHC class II molecules on human monocytes and found that the expression of different MHC class II molecules was regulated independently from each other in half of the individuals after certain incubation periods. In these cases the expression of HLA-DP was parallel to the expression of HLA-DQ, while HLA-DR expression went to the opposite direction or did not change at all. No difference between HLA-B27negative and HLA-B27 positive healthy individuals was seen. The authors conclude that independent regulation of the expression of different MHC class II antigens on antigen-presenting cells is a more common phenomenon than usually thought.     

Comparison of HLA-DR1-restricted T cell response induced in HLA-DR1 transgenic mice deficient for murine MHC class II and HLA-DR1 transgenic mice expressing endogenous murine MHC class II molecules

Transgenic mice expressing human HLA class II molecules provide a useful model for identifying HLA-restricted CD4+ epitopes. However, the influence of endogenous murine H-2-restricted T cell responses on HLA-restricted responses is not known. In the present study, we show that HLA-DR1 transgenic mice deficient for H-2 class II expression (HLA-DR1+/+/IAbeta0/0) exhibit an equivalent expression level of the transgene HLA-DR1 and a similar diversity in the TCR repertoire, but a slightly different number of CD4+ peripheral T cells, when compared to HLA-DR1 transgenic mice in which H-2 class II molecules were retained (HLA-DR1+/+/IAbeta+/+). More importantly, a strong antigen-specific HLA-DR1-restricted response was observed in nearly all HLA-DR1+/+/IAbeta0/0 mice immunized with HBV envelope protein (HBs) or capsid protein (HBc), whereas weak HBs- or HBc-specific HLA-DR1-restricted responses were detected in half of the immunized HLA-DR1+/+/IAbeta+/+ mice. Conversely, strong HBs- or HBc-specific H-2-restricted T cell responses were detected in HLA-DR1+/+/IAbeta+/+ mice but not in HLA-DR1+/+/IAbeta0/0 mice. Our results indicate that the coexpression of endogenous H-2 class II molecules reduces the intensity of HLA-DR1-restricted antigen-specific responses in transgenic mice, by favoring murine over human MHC recognition and education. Thus, HLA-DR1+/+/IAbeta0/0 mice represent a better model for identifying and characterizing HLA-DR1-restricted epitopes relevant for human disease.     

Mite allergen decreases DC-SIGN expression and modulates human dendritic cell differentiation and function in allergic asthma

House dust mites (HDMs) induce allergic asthma in sensitized individuals, although how HDMs activate immature mucosal dendritic cells (DCs) to render the T helper cell type 2 (Th2)-mediated immune response is unclear. In this study, our results showed a significant calcium-dependent lectin binding of Dermatophagoides pteronyssinus (Der p) extracts to DC-specific intercellular adhesion molecule-3-grabbing nonintegrin (DC-SIGN), the C-type lectin receptors (CLRs) of DCs. Moreover, monocyte-derived DCs (MDDCs) of Der p-sensitized asthmatics (AS) exhibited decreased expression of DC-SIGN, increased endocytosis, and impaired differentiation of DC precursors. The Der p-induced downregulation of DC-SIGN expression in the differentiation of immature MDDCs may be because of the internalization of Der p-DC-SIGN complex. MDDCs of AS produced more interleukin (IL)-6 and less IL-12p70 cytokines when stimulated with lipopolysaccharide (LPS) or Der p than those of nonallergic controls (NC). In the co-culture experiments, MDDCs pretreated with Der p induced GATA-3 expression and IL-4 cytokine productions in naive CD4(+) T cells. These effects of Der p on the differentiation and function of MDDCs could be partially blocked by anti-DC-SIGN antibodies. In conclusion, our results suggest a critical step of allergen sensitization that involves CLRs in the innate immune response of DCs, which may provide a therapeutic or preventive potential for allergic asthma.     

Expression of IL-1Rrp2 by human myelomonocytic cells is unique to DCs and facilitates DC maturation by IL-1F8 and IL-1F9

We report for the first time that expression of the novel IL-1 cytokine receptor IL-1Rrp2 (IL-1R6) is unique to DCs within the human myelomonocytic lineage. IL-1Rrp2 was expressed by monocyte-derived dendritic cells (MDDCs) which was dose-dependently increased by IL-4 and correlated with increased numbers of differentiated MDDCs. Human plasmacytoid DCs also express IL-1Rrp2 but the receptor is not expressed by either myeloid DC type 1 (mDC1) or mDC2 cells. We also show that IL-1F8 or IL-1F9 cytokines, which signal through IL-1Rrp2, induce maturation of MDDCs, as measured by increased expression of HLA-DR and CD83 and decreased expression of CD1a. Furthermore, IL-1F8 stimulated increased CD40 and CD80 expression and IL-18 and IL-12 p70 production by MDDCs, which induced proliferation of IFN-γ-producing CD3(+) lymphocytes (indicative of inflammatory Th1 subsets). IL-1F8 and IL-1F2 were equipotent in their ability to stimulate IL-18 secretion from MDDCs but IL-1F8 was not as potent as IL-1F2 in stimulating secretion of IL-12p70 from MDDCs or inducing lymphocyte proliferation Therefore, IL-1Rrp2 expression by some DC subsets may have an important function in the human immune response in vivo via its role in differentiation of inflammatory Th1 lymphocytes.     

Human duodenal epithelial cells constitutively express molecular components of antigen presentation but not costimulatory molecules

Constitutive expression of major histocompatibility complex (MHC) class II molecules by duodenal epithelial cells (EC) suggests that they can present antigen to CD4(+) T cells. However, other molecular components including invariant chain (Ii), HLA-DM, and costimulatory molecules CD80, CD86 and CD40, are required for efficient T-cell activation. We have investigated whether normal human duodenal EC possess these molecules and whether they can mediate MHC class II antigen presentation. EC were isolated from duodenal biopsies from patients in whom pathology was excluded. Freshly-isolated duodenal EC did not stimulate autologous T-cell proliferation against purified protein derivative of tuberculin. Flow cytometry and immunoblot analysis revealed that duodenal EC constitutively express HLA-DR, Ii, and HLA-DM. Surface MHC class II associated invariant chain peptide (CLIP) was not detectable, suggesting that HLA-DM functions normally in CLIP removal. Duodenal EC expressed SDS-stable HLA-DR alphabeta heterodimers, indicating that peptide binding had occurred. Surface expression of CD80, CD86 or CD40 was not detected although mRNA for these costimulatory molecules was present in all samples. These results suggest that nondiseased human duodenal EC can process and present antigen by the MHC class II pathway, but that they may induce anergy, rather than activation, of local T cells.     

Expression of MHC class II molecules contributes to lipopolysaccharide responsiveness

Activation of phagocytes by lipopolysaccharide (LPS) causes synthesis and secretion of various mediators of inflammation. CD14, a glycosylphosphatidylinositol-anchored monocytic antigen serving as receptor for LPS, and members of the family of Toll-like receptors mediate cellular activation in response to LPS. Here we investigated whether expression of MHC class II molecules modified the response to LPS. Comparing LPS responsiveness of human and murine cells differing for expression of MHC class II molecules, we found that lack or a low level of expression of MHC class II molecules resulted in diminished secretion of pro-inflammatory cytokines following stimulation with LPS. Thus, expression of MHC class II molecules modifies LPS responsiveness, a finding suggesting that these molecules contribute to the pathogenesis not only of exotoxin-triggered toxic shock but also of endotoxin-triggered septic shock. Additionally to their role in antigen-specific immunity MHC class II molecules may influence the inflammatory response triggered by microbial constituents.