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Immunosuppressive Function (immunosuppressive + function)

Distribution by Scientific Domains
Medical Sciences100%
Distribution within Medical Sciences
Immunology71%
Hepatology28%

Selected Abstracts

Targeted inhibition of IL-10-secreting CD25, Treg via p38 MAPK suppression in cancer immunotherapy

EUROPEAN JOURNAL OF IMMUNOLOGY, Issue 4 2010
Kozo Ohkusu-Tsukada
Abstract Cancer-induced immunotolerance mediated by inducible Treg (iTreg) is a major obstacle to cancer immunotherapy. In a basic study of immunotolerance, injection of an endogenous superantigen, i.e. the minor lymphocyte stimulatory (Mls)-1a, into specific TCR V,8.1-Tg mice enabled generation of anergic CD25, iTreg, the immunosuppressive function of which was maintained by IL-10 production via p38-MAPK activation. Interestingly, although p38-chemical inhibitor (p38-inhibitor) is capable of breaking CD25, iTreg-induced immunotolerance, the p38-inhibitor had hardly any immunotolerance breaking effect when CD25+ Treg were present, suggesting that depletion of CD25+ Treg is necessary for p38-inhibitor to be effective. Peptide OVA323,339iv.- injection into its specific TCR-Tg (OT-II) mice also induced adaptive tolerance by iTreg. Peptide immunotherapy with p38-inhibitor after CD25+ Treg-depletion was performed in an OVA-expressing lymphoma E.G7-bearing tolerant model established by adoptive transfer of OT-II CD25, iTreg, which resulted in suppression of tumor growth. Similarly, the antitumor immunity induced by peptide immunotherapy in colon carcinoma CT26-bearing mice, in which the number of IL-10-secreting iTreg is increased, was augmented by treatment with p38-inhibitor after CD25+ Treg-depletion and resulted in inhibition of tumor progression. These results suggest that simultaneous inhibition of two distinct Treg-functions may be important to the success of cancer immunotherapy. [source]

Expression of GITR ligand abrogates immunosuppressive function of ocular tissue and differentially modulates inflammatory cytokines and chemokines

EUROPEAN JOURNAL OF IMMUNOLOGY, Issue 8 2006
Sankaranarayana
Abstract The glucocorticoid-induced TNF-related receptor ligand (GITRL) was previously shown to be constitutively expressed at low levels in human eye, including retinal pigment epithelial (RPE) cells. By expressing enhanced yellow fluorescent protein-tagged human GITRL in human RPE cells, we investigated the significance of expression of GITRL on human ocular tissue. Confocal immunofluorescence microscopy and flow cytometry confirmed the surface expression of GITRL on RPE cells. However, a soluble form of GITRL was also detected. Remarkably, expression of GITRL on the RPE cells abrogated RPE-mediated immunosuppression of CD3+ T cells, implicated as a possible mechanism for ocular immune privilege. This abrogation of immunosuppression by GITRL-RPE was dependent on GITR-GITRL interaction and could not be mimicked by anti-CD28 antibody. Analysis of cytokine profiles revealed high level of TGF-beta during the immunosuppression by RPE cells while expression of GITRL abrogated the RPE cell-induced TGF-beta secretion. Expression of GITRL also stimulates secretion of an array of proinflammatory cytokines/chemokines from T cells. GITR-GITRL interaction provides a unique proinflammatory costimulation that may signal through a different pathway than that of CD28-B7 costimulation. This study implicated that GITRL could be a potential candidate for regulation of the ocular immune privilege and the balance between immune privilege and inflammation. [source]

Cyclosporin A suppresses replication of hepatitis C virus genome in cultured hepatocytes

HEPATOLOGY, Issue 5 2003
Koichi Watashi
Persistent infection of hepatitis C virus (HCV) is a major cause of liver diseases such as chronic hepatitis, liver cirrhosis, and hepatocellular carcinoma. Searching for a substance with anti-HCV potential, we examined the effects of a variety of compounds on HCV replication using a HCV subgenomic replicon cell culture system. Consequently, the immunosuppressant cyclosporin A (CsA) was found to have a suppressive effect on the HCV replicon RNA level and HCV protein expression in these cells. CsA also inhibited multiplication of the HCV genome in a cultured human hepatocyte cell line infected with HCV using HCV-positive plasma. This anti-HCV activity of CsA appeared to be independent of its immunosuppressive function. In conclusion, our results suggest that CsA may represent a new approach for the development of anti-HCV therapy. [source]

Modulation of dendritic cell maturation and function with mono- and bifunctional small interfering RNAs targeting indoleamine 2,3-dioxygenase

IMMUNOLOGY, Issue 1pt2 2009
Gro F. Flatekval
Summary Antigen-presenting cells expressing indoleamine 2,3-dioxygenase (IDO) play a critical role in maintaining peripheral tolerance. Strategies to inhibit IDO gene expression and enhance antigen-presenting cell function might improve anti-tumour immunity. Here we have designed highly effective anti-IDO small interfering (si) RNAs that function at low concentrations. When delivered to human primary immune cells such as monocytes and dendritic cells (DCs), they totally inhibited IDO gene expression without impairing DC maturation and function. Depending on the design and chemical modifications, we show that it is possible to design either monofunctional siRNAs devoid of immunostimulation or bifunctional siRNAs with gene silencing and immunostimulatory activities. The latter are able to knockdown IDO expression and induce cytokine production through either endosomal Toll-like receptor 7/8 or cytoplasmic retinoid acid-inducible gene 1 helicase. Inhibition of IDO expression with both classes of siRNAs inhibited DC immunosuppressive function on T-cell proliferation. Immature monocyte-derived DCs that had been transfected with siRNA-bearing 5,-triphosphate activated T cells, indicating that, even in the absence of external stimuli such as tumour necrosis factor-,, those DCs were sufficiently mature to initiate T-cell activation. Collectively, our data highlight the potential therapeutic applications of this new generation of siRNAs in immunotherapy. [source]

Toll-like receptors and immune regulation: their direct and indirect modulation on regulatory CD4+ CD25+ T cells

IMMUNOLOGY, Issue 2 2007
Guangwei Liu
Summary Regulatory CD4+ CD25+ T (Treg) cells with the ability to suppress host immune responses against self- or non-self antigens play important roles in the processes of autoimmunity, transplant rejection, infectious diseases and cancers. The proper regulation of CD4+ CD25+ Treg cells is thus critical for optimal immune responses. Toll-like receptor (TLR)-mediated recognition of specific structures of invading pathogens initiates innate as well as adaptive immune responses via antigen-presenting cells (APCs). Interestingly, new evidence suggests that TLR signalling may directly or indirectly regulate the immunosuppressive function of CD4+ CD25+ Treg cells in immune responses. TLR signalling may shift the balance between CD4+ T-helper cells and Treg cells, and subsequently influence the outcome of the immune response. This immunomodulation pathway may therefore have potential applications in the treatment of graft rejection, autoimmune diseases, infection diseases and cancers. [source]

Myeloid-derived suppressor cells in inflammation: Uncovering cell subsets with enhanced immunosuppressive functions

EUROPEAN JOURNAL OF IMMUNOLOGY, Issue 10 2009
Vincenzo Bronte
Abstract Although originally described in tumor-bearing hosts, myeloid-derived suppressor cells (MDSC) have been detected under numerous pathological situations that cause enhanced demand of myeloid cells. Thus, MDSC might be part of a conserved response to different endogenous and exogenous stress signals, including inflammation. Two processes are fundamental for MDSC biology: differentiation from myeloid progenitors and full activation of their immune regulatory program by factors released from activated T cells or present in the microenvironment conditioned by either tumor growth or inflammation. How these two processes are controlled and linked is still an open question. In this issue of the European Journal of Immunology, a paper demonstrates that a combination of the known inflammatory molecules, IFN-, and LPS, sustains MDSC expansion and activation while suppressing differentiation of DC from bone marrow precursors. Moreover, this paper contributes to defining the cell subsets that possess immunoregulatory properties within the broad population of CD11b+Gr-1+ cells, often altogether referred to as MDSC. [source]

Molecular mechanisms of portal vein tolerance

HEPATOLOGY RESEARCH, Issue 5 2008
Tomohiro Watanabe
The liver has been considered as a tolerogenic organ in the sense that favors the induction of peripheral tolerance. The administration of antigens (Ags) via the portal vein causes tolerance, which is termed portal vein tolerance and can explain the occurrence of tolerogenic responses in the liver. Here we discuss the fundamental mechanisms accounting for portal vein tolerance. Antigen-presenting cells (APCs) in the liver, especially dendritic cells and sinusoidal endothelial cells, have limited the ability to produce pro-inflammatory cytokines upon stimulation with endotoxin, an effect that could be due to the continuous exposure to bacterial Ags derived from intestinal microflora. Ag presentation by liver APCs results in T cell tolerance through clonal deletion and selection of regulatory T cells. Thus, APCs with immunosuppressive functions are associated with the achievement of portal vein tolerance via the induction of clonal deletion and generation of regulatory T cells. [source]