An adenoviral gene transfer system to express high levels of soluble allogeneic MHC class I molecules in vitro and in vivo

2002 ◽  
Vol 34 (6) ◽  
pp. 2318-2319
Author(s):  
C Graeb ◽  
M Justl ◽  
S Tange ◽  
K.-W Jauch ◽  
E.K Geissler
Keyword(s):  
Gene Transfer ◽  
Mhc Class I ◽  
Class I ◽  
Transfer System ◽  
Adenoviral Gene Transfer ◽  
Gene Transfer System ◽  
Mhc Class I Molecules

scholarly journals Potential Immunocompetence of Proteolytic Fragments Produced by Proteasomes before Evolution of the Vertebrate Immune System

1997 ◽  
Vol 186 (2) ◽  
pp. 209-220 ◽  
Author(s):  
Gabriele Niedermann ◽  
Rudolf Grimm ◽  
Elke Geier ◽  
Martina Maurer ◽  
Claudio Realini ◽  
...  
Keyword(s):  
Immune System ◽  
Mhc Class I ◽  
Structural Features ◽  
Interferon Γ ◽  
Class I ◽  
Direct Products ◽  
Vertebrate Immune System ◽  
Mhc Class I Molecules

To generate peptides for presentation by major histocompatibility complex (MHC) class I molecules to T lymphocytes, the immune system of vertebrates has recruited the proteasomes, phylogenetically ancient multicatalytic high molecular weight endoproteases. We have previously shown that many of the proteolytic fragments generated by vertebrate proteasomes have structural features in common with peptides eluted from MHC class I molecules, suggesting that many MHC class I ligands are direct products of proteasomal proteolysis. Here, we report that the processing of polypeptides by proteasomes is conserved in evolution, not only among vertebrate species, but including invertebrate eukaryotes such as insects and yeast. Unexpectedly, we found that several high copy ligands of MHC class I molecules, in particular, self-ligands, are major products in digests of source polypeptides by invertebrate proteasomes. Moreover, many major dual cleavage peptides produced by invertebrate proteasomes have the length and the NH2 and COOH termini preferred by MHC class I. Thus, the ability of proteasomes to generate potentially immunocompetent peptides evolved well before the vertebrate immune system. We demonstrate with polypeptide substrates that interferon γ induction in vivo or addition of recombinant proteasome activator 28α in vitro alters proteasomal proteolysis in such a way that the generation of peptides with the structural features of MHC class I ligands is optimized. However, these changes are quantitative and do not confer qualitatively novel characteristics to proteasomal proteolysis. The data suggest that proteasomes may have influenced the evolution of MHC class I molecules.

scholarly journals Cd8+ but Not Cd8− Dendritic Cells Cross-Prime Cytotoxic T Cells in Vivo

2000 ◽  
Vol 192 (12) ◽  
pp. 1685-1696 ◽  
Author(s):  
Joke M.M. den Haan ◽  
Sophie M. Lehar ◽  
Michael J. Bevan
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
Mhc Class I ◽  
Cytotoxic T Lymphocyte ◽  
Cytotoxic T Cells ◽  
Class I ◽  
Specific Subset ◽  
Mhc Class I Molecules

Bone marrow–derived antigen-presenting cells (APCs) take up cell-associated antigens and present them in the context of major histocompatibility complex (MHC) class I molecules to CD8+ T cells in a process referred to as cross-priming. Cross-priming is essential for the induction of CD8+ T cell responses directed towards antigens not expressed in professional APCs. Although in vitro experiments have shown that dendritic cells (DCs) and macrophages are capable of presenting exogenous antigens in association with MHC class I, the cross-presenting cell in vivo has not been identified. We have isolated splenic DCs after in vivo priming with ovalbumin-loaded β2-microglobulin–deficient splenocytes and show that they indeed present cell-associated antigens in the context of MHC class I molecules. This process is transporter associated with antigen presentation (TAP) dependent, suggesting an endosome to cytosol transport. To determine whether a specific subset of splenic DCs is involved in this cross-presentation, we negatively and positively selected for CD8− and CD8+ DCs. Only the CD8+, and not the CD8−, DC subset demonstrates cross-priming ability. FACS® studies after injection of splenocytes loaded with fluorescent beads showed that 1 and 0.6% of the CD8+ and the CD8− DC subsets, respectively, had one or more associated beads. These results indicate that CD8+ DCs play an important role in the generation of cytotoxic T lymphocyte responses specific for cell-associated antigens.

scholarly journals MUC1 immunotherapy against a metastatic mammary adenocarcinoma model: Importance of IFN-gamma

PRILOZI ◽  
2016 ◽  
Vol 37 (1) ◽  
pp. 15-25 ◽  
Author(s):  
Catherine J. Lees ◽  
Nechama Smorodinsky ◽  
Galit Horn ◽  
Daniel H. Wreschner ◽  
Ian F.C. McKenzie ◽  
...  
Keyword(s):  
Mhc Class I ◽  
Lung Metastases ◽  
Class I ◽  
Mammary Adenocarcinoma ◽  
Metastatic Tumour ◽  
Immunoperoxidase Staining ◽  
Tumour Immunity ◽  
Mhc Class I Molecules

Abstract Immunotherapy using mucin 1 (MUC1) linked to oxidised mannan (MFP) was investigated in an aggressive MUC1+ metastatic tumour, DA3-MUC1 because, unlike many MUC1+ tumour models, DA3-MUC1 is not spontaneously rejected in mice making it an alternative model for immunotherapy studies. Further, DA3-MUC1 cells are resistant to lysis by anti-MUC1 cytotoxic T cells (CTLs). The inability of DA3-MUC1 tumours to be rejected in naïve mice as well as vaccination to MUC1 was attributed to a deficiency of expression of MHC class I molecules on the tumour cell surface. In vitro and in vivo analysis of subcutaneous tumours and lung metastases demonstrated that DA3-MUC1 tumour cells have a low expression (< 6%) of MHC class I which can be upregulated (> 90%) following culturing with IFN-γ. Results from flow cytometry analysis and immunoperoxidase staining indicated that the in vitro up-regulation of MHC class I could be maintained for up to seven days in vivo, without affecting the expression levels of MUC1 antigen. Interestingly, MUC1-specific CTL that lyse DA3-MUC1 targets in vitro were induced in MFP immunised mice but failed to protect mice from a DA3-MUC1 tumour challenge. These results highlight the importance of MHC class I molecules in the induction of anti-tumour immunity and the MFP immune response.

Direct binding of peptide to empty MHC class I molecules on intact cells and in vitro

Cell ◽  
1990 ◽  
Vol 62 (3) ◽  
pp. 563-567 ◽  
Author(s):  
Ton N.M. Schumacher ◽  
Marie-Thérèse Heemels ◽  
Jacques J. Neefjes ◽  
W.Martin Kast ◽  
Cees J.M. Melief ◽  
...  
Keyword(s):  
Mhc Class I ◽  
Class I ◽  
Intact Cells ◽  
Direct Binding ◽  
Mhc Class I Molecules

scholarly journals Immunotherapy of a murine tumor with interleukin 2. Increased sensitivity after MHC class I gene transfection.

1987 ◽  
Vol 166 (6) ◽  
pp. 1716-1733 ◽  
Author(s):  
J S Weber ◽  
G Jay ◽  
K Tanaka ◽  
S A Rosenberg
Keyword(s):  
T Cells ◽  
Mhc Class I ◽  
Interleukin 2 ◽  
Class I ◽  
High Dose ◽  
Class I Mhc ◽  
High Doses ◽  
I Gene

We have shown that two weakly immunogenic MCA sarcomas developed in our laboratory that are sensitive to high-dose IL-2 immunotherapy express class I MHC in vivo and in vitro. Two nonimmunogenic MCA sarcomas are relatively insensitive to IL-2 therapy and express minimal or no class I MHC molecules in vivo and in vitro. To study the role of MHC in the therapy of tumors with IL-2, a class I-deficient murine melanoma, B16BL6, was transfected with the Kb class I gene. Expression of class I MHC rendered B16BL6 advanced pulmonary macrometastases sensitive to IL-2 immunotherapy. 3-d micrometastases of CL8-2, a class I transfected clone of B16BL6, were significantly more sensitive to IL-2 therapy than a control nontransfected line. Expression of Iak, a class II MHC molecule, had no effect on IL-2 therapy of transfectant pulmonary micrometastases in F1 mice. By using lymphocyte subset depletion with mAbs directed against Lyt-2, therapy of class I transfectant macrometastases with high-dose IL-2 was shown to involve an Lyt-2 cell. In contrast, regression of micrometastases treated with low-dose IL-2 involved Lyt-2+ cells, but regression mediated by high doses of IL-2 did not. We hypothesize that both LAK and Lyt-2+ T cells effect IL-2-mediated elimination of micrometastases, but only Lyt-2+ T cells are involved in macrometastatic regression. Low doses of IL-2 stimulate Lyt-2+ cells to eliminate class I-expressing micrometastases, but high doses of IL-2 can recruit LAK cells to mediate regression of micrometastases independent of class I expression. Only high-dose IL-2, mediating its effect predominantly via Lyt-2+ cells, is capable of impacting on MHC class I-expressing macrometastases. Macrometastases devoid of class I MHC antigens appear to be resistant to IL-2 therapy.

scholarly journals Constitutive versus Activation-dependent Cross-Presentation of Immune Complexes by CD8+ and CD8− Dendritic Cells In Vivo

2002 ◽  
Vol 196 (6) ◽  
pp. 817-827 ◽  
Author(s):  
Joke M.M. den Haan ◽  
Michael J. Bevan
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
Mhc Class I ◽  
Cd8 T Cells ◽  
Immune Complexes ◽  
Class I ◽  
Cross Presentation ◽  
Deficient Mice ◽  
Mhc Class I Molecules

Murine splenic dendritic cells (DCs) can be divided into two subsets based on CD8α expression, but the specific role of each subset in stimulation of T cells is largely unknown. An important function of DCs is the ability to take up exogenous antigens and cross-present them in the context of major histocompatibility complex (MHC) class I molecules to CD8+ T cells. We previously demonstrated that, when cell-associated ovalbumin (OVA) is injected into mice, only the CD8+ DC subset cross-presents OVA in the context of MHC class I. In contrast to this selectivity with cell-associated antigen, we show here that both DC subsets isolated from mice injected with OVA/anti-OVA immune complexes (OVA-IC) cross-present OVA to CD8+ T cells. The use of immunoglobulin G Fc receptor (FcγR) common γ-chain–deficient mice revealed that the cross-presentation by CD8− DCs depended on the expression of γ-chain–containing activating FcγRs, whereas cross-presentation by CD8+ DCs was not reduced in γ-chain–deficient mice. These results suggest that although CD8+ DCs constitutively cross-present exogenous antigens in the context of MHC class I molecules, CD8− DCs only do so after activation, such as via ligation of FcγRs. Cross-presentation of immune complexes may play an important role in autoimmune diseases and the therapeutic effect of antitumor antibodies.

Soluble donor MHC class I antigen inhibits immunologic priming in vitro and in vivo

1998 ◽  
Vol 11 (7) ◽  
pp. S357-S360 ◽  
Author(s):  
E. K. Geissler ◽  
M. N. Scherer ◽  
C. Graeb
Keyword(s):  
Mhc Class I ◽  
Class I ◽  
Mhc Class I Antigen

scholarly journals The Immunoevasive Function Encoded by the Mouse Cytomegalovirus Gene m152 Protects the Virus against T Cell Control in Vivo

1999 ◽  
Vol 190 (9) ◽  
pp. 1285-1296 ◽  
Author(s):  
Astrid Krmpotic ◽  
Martin Messerle ◽  
Irena Crnkovic-Mertens ◽  
Bojan Polic ◽  
Stipan Jonjic ◽  
...  
Keyword(s):  
Mhc Class I ◽  
Gene Function ◽  
Class I ◽  
Viral Gene ◽  
Mouse Cytomegalovirus ◽  
Mcmv Infection ◽  
Golgi Compartment ◽  
Intermediate Compartment

Cytomegaloviruses encode numerous functions that inhibit antigen presentation in the major histocompatibility complex (MHC) class I pathway in vitro. One example is the mouse cytomegalovirus (MCMV) glycoprotein gp40, encoded by the m152 gene, which selectively retains murine but not human MHC class I complexes in the endoplasmic reticulum–Golgi intermediate compartment/cis-Golgi compartment (Ziegler, H., R. Thäle, P. Lucin, W. Muranyi, T. Flohr, H. Hengel, H. Farrell, W. Rawlinson, and U.H. Koszinowski. 1997. Immunity. 6:57–66). To investigate the in vivo significance of this gene function during MCMV infection of the natural host, we constructed recombinants of MCMV in which the m152 gene was deleted, as were the corresponding virus revertants. We report on the following findings: Deletion of the m152 gene has no effect on virus replication in cell culture, whereas after infection of mice, the m152-deficient virus replicates to significantly lower virus titers. This attenuating effect is lifted by reinsertion of the gene into the mutant. Mutants and revertants grow to the same titer in animals deprived of the function targeted by the viral gene function, namely in mice deficient in β2-microglobulin, mice deficient in the CD8 molecule, and mice depleted of T cells. Upon adoptive transfer of naive lymphocytes into infected mice, the absence of the m152 gene function sensitizes the virus to primary lymphocyte control. These results prove that MHC-reactive functions protect CMVs against attack by CD8+ T lymphocytes in vivo.

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