Cytokines in chronic inflammatory arthritis. IV. Granulocyte/macrophage colony-stimulating factor-mediated induction of class II MHC antigen on human monocytes: a possible role in rheumatoid arthritis.

Granulocyte/macrophage CSF (GM-CSF) has recently been identified in rheumatoid arthritis (RA) synovial effusions. To study a potential role for GM-CSF and other cytokines on the induction of HLA-DR expression on monocytes and synovial macrophages, we analyzed the relative ability of recombinant human cytokines to induce the surface expression of class II MHC antigens on normal peripheral blood monocytes by FACS analysis. GM-CSF (800 U/ml) (mean fluorescence channel 2.54 +/- 0.33 times the control, p less than 0.001) and IFN-gamma (100 U/ml) (5.14 +/- 0.60, p less than 0.001) were the most potent inducers of HLA-DR. TNF-alpha and IL-4 also increased HLA-DR expression, although to a lesser degree [1.31 +/- 0.06 (p less than 0.02) and 1.20 +/- 0.03 (p less than 0.01), respectively]. IL-1 (40 U/ml), IL-2 (10 ng/ml), IL-3 (50 U/ml), IL-6 (100 U/ml), and CSF-1 (1,000 U/ml) did not affect surface HLA-DR density. GM-CSF also increased HLA-DR mRNA expression and surface HLA-DQ expression, but decreased CD14 (a monocyte/macrophage antigen) expression. The effect of GM-CSF on HLA-DR was not mediated by the generation of IFN-gamma in vitro because it was not blocked by anti-IFN-gamma mAb. GM-CSF was additive with IL-4 and low amounts (less than 3 U/ml) of IFN-gamma and synergistic with TNF-alpha. Because we have recently reported that supernatants of cultured RA synovial cells produce a non-IFN-gamma factor that induces HLA-DR on monocytes, we then attempted to neutralize this factor with specific anti-GM-CSF mAb. Four separate synovial tissue supernatants were studied, and the antibody neutralized the HLA-DR-inducing factor in each (p less than 0.01).

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Sequential loss of CD34 and class II MHC antigens on purified cord blood hematopoietic progenitors cultured with IL-3: characterization of CD34-, HLA-DR+ cells

Blood ◽

10.1182/blood.v74.4.1287.1287 ◽

1989 ◽

Vol 74 (4) ◽

pp. 1287-1294 ◽

Cited By ~ 33

Author(s):

C Caux ◽

C Favre ◽

S Saeland ◽

V Duvert ◽

P Mannoni ◽

...

Keyword(s):

Cord Blood ◽

Class Ii ◽

Human Cord Blood ◽

Mhc Antigens ◽

Differentiated Cells ◽

Hla Dr ◽

Class Ii Mhc ◽

Hla Dq ◽

Class Ii Mhc Antigens ◽

Cd34 Expression

Abstract The expression of class II MHC and CD34 antigens on human cord blood hematopoietic progenitor cells (HPC) was investigated upon culturing in the presence of interleukin-3 (IL-3). HPC isolated by “panning” according to their expression of CD34 coexpressed HLA-DR and HLA-DP, and the majority of the CD34+ HPC also expressed HLA-DQ. In the presence of IL-3, the expression of CD34 and class II MHC antigens was found to be gradually lost in culture. Loss of CD34 expression preceded loss of HLA-DR expression. After eight days of culture, CD34-, HLA-DR+ blast cells were obtained that strongly proliferated in response to IL- 3, GM-CSF, G-CSF, and M-CSF, and that had the capacity to generate macrophage and granulocyte colonies. After ten days of culture in IL-3, a population of CD34- cells that expressed low levels of HLA-DR (HLA- DRlo) was obtained by FACS-sorting. These CD34-, HLA-DRlo cells lacked colony-forming activity while the population expressing high levels of HLA-DR (HLA-DRhi) contained great numbers of colony-forming cells, and proliferated stronger in response to CSFs than the HLA-DRlo fraction. Finally CD34-, HLA-DR- cells that appeared later in the cultures (14 to 16 days) represented more differentiated cells with only marginal proliferative and no clonogenic capacity. These data indicate that whereas CD34 expression is associated with the multilineage potential of the HPC, HLA-DR expression correlates with overall proliferative capacity of hematopoietic cells during culture in IL-3.

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In-VitroDifferentiation of Mature Dendritic Cells From Human Blood Monocytes

Developmental Immunology ◽

10.1155/1998/72054 ◽

1998 ◽

Vol 6 (1-2) ◽

pp. 25-39 ◽

Cited By ~ 19

Author(s):

Robert Gieseler ◽

Dirk Heise ◽

Afsaneh Soruri ◽

Peter Schwartz ◽

J. Hinrich Peters

Keyword(s):

Dendritic Cells ◽

Human Blood ◽

T Cell Response ◽

Blood Monocytes ◽

Gm Csf ◽

Hla Dr ◽

Hla Dq ◽

Specific Stimulation ◽

Antigen Presenting

Representing the most potent antigen-presenting cells, dendritic cells (DC) can now be generated from human blood monocytes. We recently presented a novel protocol employing GM-CSF, IL-4, and IFN-γto differentiate monocyte-derived DCin vitro. Here, such cells are characterized in detail. Cells in culture exhibited both dendritic and veiled morphologies, the former being adherent and the latter suspended. Phenotypically, they were CD1a-/dim, CD11a+, CD11b++, CD11c+, CD14dim/-, CD16a-/dim, CD18+, CD32dim/-, CD33+, CD40+, CD45R0+, CD50+, CD54+, CD64-/dim, CD68+, CD71+, CD80dim, CD86+/++, MHC class I++/+++HLA-DR++/+++HLA-DP+, and HLA-DQ+. The DC stimulated a strong allogeneic T-cell response, and further evidence for their autologous antigen-specific stimulation is discussed. Although resembling a mature CD 11c+CD45R0+blood DC subset identified earlier, their differentiation in the presence of the Thl and Th2 cytokines IFN-γand IL-4 indicates that these DC may conform to mature mucosal DC.

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Interleukin 10(IL-10) inhibits cytokine synthesis by human monocytes: an autoregulatory role of IL-10 produced by monocytes.

Journal of Experimental Medicine ◽

10.1084/jem.174.5.1209 ◽

1991 ◽

Vol 174 (5) ◽

pp. 1209-1220 ◽

Cited By ~ 2420

Author(s):

R de Waal Malefyt ◽

J Abrams ◽

B Bennett ◽

C G Figdor ◽

J E de Vries

Keyword(s):

Class Ii ◽

Interleukin 10 ◽

Tnf Alpha ◽

Human Monocytes ◽

Colony Stimulating Factor ◽

Ifn Gamma ◽

Gm Csf ◽

Cytokine Synthesis ◽

Activated Monocytes ◽

Stimulating Factor

In the present study we demonstrate that human monocytes activated by lipopolysaccharides (LPS) were able to produce high levels of interleukin 10 (IL-10), previously designated cytokine synthesis inhibitory factor (CSIF), in a dose dependent fashion. IL-10 was detectable 7 h after activation of the monocytes and maximal levels of IL-10 production were observed after 24-48 h. These kinetics indicated that the production of IL-10 by human monocytes was relatively late as compared to the production of IL-1 alpha, IL-1 beta, IL-6, IL-8, tumor necrosis factor alpha (TNF alpha), and granulocyte colony-stimulating factor (G-CSF), which were all secreted at high levels 4-8 h after activation. The production of IL-10 by LPS activated monocytes was, similar to that of IL-1 alpha, IL-1 beta, IL-6, IL-8, TNF alpha, granulocyte-macrophage colony-stimulating factor (GM-CSF), and G-CSF, inhibited by IL-4. Furthermore we demonstrate here that IL-10, added to monocytes, activated by interferon gamma (IFN-gamma), LPS, or combinations of LPS and IFN-gamma at the onset of the cultures, strongly inhibited the production of IL-1 alpha, IL-1 beta, IL-6, IL-8, TNF alpha, GM-CSF, and G-CSF at the transcriptional level. Viral-IL-10, which has similar biological activities on human cells, also inhibited the production of TNF alpha and GM-CSF by monocytes following LPS activation. Activation of monocytes by LPS in the presence of neutralizing anti-IL-10 monoclonal antibodies resulted in the production of higher amounts of cytokines relative to LPS treatment alone, indicating that endogenously produced IL-10 inhibited the production of IL-1 alpha, IL-1 beta, IL-6, IL-8, TNF alpha, GM-CSF, and G-CSF. In addition, IL-10 had autoregulatory effects since it strongly inhibited IL-10 mRNA synthesis in LPS activated monocytes. Furthermore, endogenously produced IL-10 was found to be responsible for the reduction in class II major histocompatibility complex (MHC) expression following activation of monocytes with LPS. Taken together our results indicate that IL-10 has important regulatory effects on immunological and inflammatory responses because of its capacity to downregulate class II MHC expression and to inhibit the production of proinflammatory cytokines by monocytes.

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Expression levels of HLA-DRB and HLA-DQ are associated with MHC Class II haplotypes in healthy individuals and rheumatoid arthritis patients

10.1101/2021.01.06.20249032 ◽

2021 ◽

Author(s):

Miranda Houtman ◽

Anna Dzebisashvili ◽

Espen Hesselberg ◽

Anatoly Dubnovitsky ◽

Genadiy Kozhukh ◽

...

Keyword(s):

Rheumatoid Arthritis ◽

T Cells ◽

Mhc Class Ii ◽

Immune Cells ◽

Class Ii ◽

Differentially Expressed ◽

Healthy Individuals ◽

Expression Levels ◽

Hla Dr ◽

Hla Dq

AbstractHLA-DRB1 alleles have been associated with several autoimmune diseases. In anti-citrullinated protein antibody positive rheumatoid arthritis (ACPA-positive RA), HLA-DRB1 shared epitope (SE) alleles are the major genetic risk factors. In order to investigate whether expression of different alleles of major histocompatibility complex (MHC) Class II genes influence functions of immune cells, we investigated transcriptomic profiles of a variety of immune cells from healthy individuals carrying different HLA-DRB1 alleles. Sequencing libraries from peripheral blood mononuclear cells, CD4+ T cells, CD8+ T cells, and CD14+ monocytes of 32 genetically pre-selected healthy female individuals were generated, sequenced and reads were aligned to the standard reference. For the MHC region, reads were mapped to available MHC reference haplotypes and AltHapAlignR was used to estimate gene expression. Using this method, HLA-DRB and HLA-DQ were found to be differentially expressed in different immune cells of healthy individuals as well as in whole blood samples of RA patients carrying HLA-DRB1 SE-positive versus SE-negative alleles. In contrast, no genes outside the MHC region were differentially expressed between individuals carrying HLA-DRB1 SE-positive and SE-negative alleles. Existing methods for HLA-DR allele-specific protein expression were evaluated but were not mature enough to provide appropriate complementary information at the protein level. Altogether, our findings suggest that immune effects associated with different allelic forms of HLA-DR and HLA-DQ may be associated not only with differences in the structure of these proteins, but also with differences in their expression levels.

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Supernatants of human leukocytes contain mediator, different from interferon gamma, which induces expression of MHC class II antigens.

Journal of Experimental Medicine ◽

10.1084/jem.164.1.131 ◽

1986 ◽

Vol 164 (1) ◽

pp. 131-143 ◽

Cited By ~ 28

Author(s):

G Groenewegen ◽

M de Ley ◽

G M Jeunhomme ◽

W A Buurman

Keyword(s):

Mhc Class Ii ◽

Antigen Expression ◽

Class Ii ◽

Ifn Gamma ◽

Human Leukocytes ◽

Hla Dr ◽

Hla Dq ◽

Mhc Class Ii Antigens ◽

Class Ii Antigen ◽

Mhc Class Ii Antigen

In this report, data are presented on the regulation of MHC class II antigen expression by a mediator present in supernatants of human mixed leukocyte cultures (MLC-SN), and which is different from IFN-gamma. The capacity of supernatants to induce antigen expression did not correspond to titers of IFN-gamma. Removal of IFN-gamma using either dialysis against pH 2 or neutralizing mAb against human IFN-gamma did not abrogate the MHC class II antigen expression-inducing capacity of MLC-SN when tested on adenocarcinoma cell lines, kidney epithelial cells, and fibroblasts in vitro in an indirect immunofluorescence assay. Therefore, supernatants of human leukocytes contain a mediator, different from IFN-gamma, which induces expression of MHC class II antigens. Dose-response studies revealed that the mediator is produced after allogeneic and lectin stimulation of human leukocytes, and by unstimulated leukocytes. Activation of leukocytes resulted in increased titers of the mediator. The mediator markedly enhances expression of both HLA-DR and HLA-DQ antigens, whereas IFN-gamma had a similar effect on HLA-DR antigens, and only a minor effect on HLA-DQ antigens. Interaction of the mediator and IFN-gamma resulted in a potentiating effect of these two factors on MHC class II antigen expression. Biochemical analysis revealed a mediator, distinguishable by FPLC from IL-1, IL-2, and human IFN-gamma, and which has a molecular mass of 32 kD.

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Sequential loss of CD34 and class II MHC antigens on purified cord blood hematopoietic progenitors cultured with IL-3: characterization of CD34-, HLA-DR+ cells

Blood ◽

10.1182/blood.v74.4.1287.bloodjournal7441287 ◽

1989 ◽

Vol 74 (4) ◽

pp. 1287-1294

Author(s):

C Caux ◽

C Favre ◽

S Saeland ◽

V Duvert ◽

P Mannoni ◽

...

Keyword(s):

Cord Blood ◽

Class Ii ◽

Human Cord Blood ◽

Mhc Antigens ◽

Differentiated Cells ◽

Hla Dr ◽

Class Ii Mhc ◽

Hla Dq ◽

Class Ii Mhc Antigens ◽

Cd34 Expression

The expression of class II MHC and CD34 antigens on human cord blood hematopoietic progenitor cells (HPC) was investigated upon culturing in the presence of interleukin-3 (IL-3). HPC isolated by “panning” according to their expression of CD34 coexpressed HLA-DR and HLA-DP, and the majority of the CD34+ HPC also expressed HLA-DQ. In the presence of IL-3, the expression of CD34 and class II MHC antigens was found to be gradually lost in culture. Loss of CD34 expression preceded loss of HLA-DR expression. After eight days of culture, CD34-, HLA-DR+ blast cells were obtained that strongly proliferated in response to IL- 3, GM-CSF, G-CSF, and M-CSF, and that had the capacity to generate macrophage and granulocyte colonies. After ten days of culture in IL-3, a population of CD34- cells that expressed low levels of HLA-DR (HLA- DRlo) was obtained by FACS-sorting. These CD34-, HLA-DRlo cells lacked colony-forming activity while the population expressing high levels of HLA-DR (HLA-DRhi) contained great numbers of colony-forming cells, and proliferated stronger in response to CSFs than the HLA-DRlo fraction. Finally CD34-, HLA-DR- cells that appeared later in the cultures (14 to 16 days) represented more differentiated cells with only marginal proliferative and no clonogenic capacity. These data indicate that whereas CD34 expression is associated with the multilineage potential of the HPC, HLA-DR expression correlates with overall proliferative capacity of hematopoietic cells during culture in IL-3.

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POS0673 TOLEROGENIC DENDRITIC CELLS IN RHEUMATOID ARTHRITIS PATIENTS: NEWS AND PROMISES

Annals of the Rheumatic Diseases ◽

10.1136/annrheumdis-2021-eular.2261 ◽

2021 ◽

Vol 80 (Suppl 1) ◽

pp. 581.2-581

Author(s):

Y. Kurochkina ◽

E. Chernykh ◽

A. Sizikov

Keyword(s):

Rheumatoid Arthritis ◽

T Cells ◽

Dendritic Cells ◽

Mixed Lymphocyte Culture ◽

Lymphocyte Culture ◽

Moderate Activity ◽

Blood Monocytes ◽

Gm Csf ◽

Hla Dr ◽

Enhanced Expression

Background:Dendritic cells (DCs) are known to contribute to the pathogenesis of rheumatoid arthritis (RA) through presentation of cartilage glycoprotein, production of proinflammatory cytokines and activation of Th1/Th17 responses. Along with stimulating activity, DCs may exhibit suppressive functions via capacity to induce T cell apoptosis/anergy and to generate regulatory T cells. Since these DCs have potential to control autoreactive T-lymphocytes, the enhancing of tolerogenic properties of DCs seems to be a new important strategy in treatment of RA. Dexamethasone is widely used in clinical practice and can be used as a tolerogenic substance. Therefore, the properties of DCs generated in presence of dexamethasone are of great clinical interests.Objectives:The aim of our study is to describe the properties of tolerogenic DCs, generated with dexamethasone in patients with RA and their influence on autologous T-cells.Methods:Sixty five patients with RA with high and moderate activity of disease were recruited in this study. All patients follow ACR/EULAR criteria (2010). All studies were performed after receiving informed consent. All patients received conventional synthetic DMARDs. DCs were generated from blood monocytes culturing for 5 days with GM-CSF and IFN-α in the presence dexamethasone (dexDCS), applied on third day. LPS as maturation stimuli was added on fourth day. The expression of CD14, CD83, HLA-DR, TLR-2 on the surface of DCs was measured by flow cytometry. The functions of DCs were evaluated by measuring cytokine production and DCs allostimulatory activity in mixed lymphocyte culture. Mature DCs generated in absence of dexamethasone used as control.Results:We revealed that dexDCs are characterized by enhanced expression of CD14+cells and decreased number of CD83+cells but percent of HLA-DR+cells were constant (about 85). DexDCs show high expression of TLR-2 is seen as tolerogenic molecule (75%vs51%, p=0.05 compared to control). DexDCs also have marked prominent increase of TNFα/IL-10 ratio in contrast to control (0.59 vs 1.8, p=0.03). DexDCs suppressed proliferation of allogenic T-cells (2005 vs 7980 cpm, p=0.0002). To assess the stability of the DC in the proinfflamatory micro-environment after assessing stimulatory activity dexDCs were then cultivated with LPS and allostimulatory activity were evaluated one more. The stimulation activity dexDCs after incubation with LPS were not increase (4692 vs 6053 cpm, p=0.7). Also earlier we showed possibility of dexDCs induse apoptosis of autologous T-cells, activation of CD4+IL10+Tr1 and possession of antigen-specific suppression.Conclusion:The data obtained indicate that dexDCs from RA patients have the main tolerogenic features and stable in inflammatory environment that proves their potential in the treatment of rheumatoid arthritis.Disclosure of Interests:None declared

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cis-acting sequences required for class II gene regulation by interferon gamma and tumor necrosis factor alpha in a murine macrophage cell line.

Journal of Experimental Medicine ◽

10.1084/jem.171.4.1283 ◽

1990 ◽

Vol 171 (4) ◽

pp. 1283-1299 ◽

Cited By ~ 25

Author(s):

Y R Freund ◽

R L Dedrick ◽

P P Jones

Keyword(s):

Cell Line ◽

Class Ii ◽

Tnf Alpha ◽

Sequence Element ◽

Ifn Gamma ◽

Enhancer Element ◽

T Box ◽

Hla Dq ◽

Mouse Class ◽

Class Ii Alpha

In this report, we have demonstrated that IFN-gamma and TNF-alpha increase expression of both the I-A and I-E region gene products on the surface of the myelomonocytic cell line WEHI-3, and that they mediate this increase via an increase in A alpha transcription. Constructs containing 5' deletion mutations of the A alpha promoter attached to the bacterial chloramphenicol acetyl transferase gene were used to delineate the minimum 5' flanking sequences required for promoter activity, and for inducibility by IFN-gamma and TNF-alpha. Approximately 115 bp of 5' sequences are required for minimum induction by IFN-gamma or TNF-alpha when the cytokines are present separately. This includes the three conserved promoter elements, the X, Y, and H boxes. Nested linker-scanner mutations demonstrated that additional regions were also critical for optimal induction by IFN-gamma or TNF-alpha. These include the kappa B-like enhancer and a TNF-alpha-specific sequence that we have tentatively called the T box. The T box sequence was also found in the promoter regions of the human HLA-DQ alpha and rat RT1.B alpha genes. Although the entire T box sequence element was not found in the other mouse class II genes, all class II alpha genes contained the SV40 core enhancer element in the regions included by the T box. Mouse class II beta genes appear to contain neither the T box nor the core enhancer element in this region, suggesting differential regulation of class II alpha and beta genes by TNF-alpha.

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