CD8 MEMORY T CELL FUNCTION DURING THE 72 HOURS IMMEDIATELY FOLLOWING CARDIAC ALLOGRAFT REPERFUSION

Schenk, Austin David

08 July 2008

No description available.

Immunology

CD8 Memory T Cells

Transplantation

Heart Transplantation

Dissecting the Role of 4-1BB and its Ligand in Enhancing CD8 Effector and Memory T Cell Responses

Lin, Gloria Hoi Ying

19 January 2012

The Tumor necrosis factor receptor (TNFR) family member 4-1BB and its TNF family ligand, 4-1BBL, are important in modulating multiple stages of the CD8 T cell response. Here I show that during a mild influenza infection, 4-1BBL is completely dispensable for initial T cell responses, viral clearance and mouse survival. In contrast, during severe influenza infection with prolonged viral load, 4-1BB expression is sustained on lung T cells and 4-1BBL is upregulated in the lung compared to mild influenza infection. Under these conditions, 4-1BBL-deficiency results in a decreased CD8 T cell response in the lungs, higher viral load, impaired lung function and increased mortality. These findings suggest that the sustained expression of 4-1BB and its ligand as a function of viral load fine-tunes the CD8 T cell response to a level appropriate for the severity of infection. 4-1BBL is also important for maintaining CD8 memory T cell survival following the clearance of an infection. I found that 4-1BB is selectively expressed on a subset of memory CD8 T cells in the bone marrow. I further showed that the TNFR family member GITR is intrinsically required on CD8 memory T cells for 4-1BB expression in vivo, and that 4-1BB on CD8 T cells interacting with 4-1BBL on a radio-resistant cell in the bone marrow contributes to CD8 memory T cell survival. Immunotherapy with 4-1BB agonists has shown efficacy in eradication of tumors in several mouse models. These effects have been attributed to 4-1BB on multiple cell types. I found that 4-1BB either on transferred T cells or on host T cells was necessary and sufficient for inducing regression of established tumors when anti-4-1BB is combined with adoptive T cell therapy. This thesis highlights the importance of the CD8 T cell intrinsic role of 4-1BB in the immune system.

4-1BB

CD8 T cells

Influenza

Tumor immunotherapy

CD8 memory T cells

Co-stimulation

0982

Dissecting the Role of 4-1BB and its Ligand in Enhancing CD8 Effector and Memory T Cell Responses

Lin, Gloria Hoi Ying

19 January 2012

The Tumor necrosis factor receptor (TNFR) family member 4-1BB and its TNF family ligand, 4-1BBL, are important in modulating multiple stages of the CD8 T cell response. Here I show that during a mild influenza infection, 4-1BBL is completely dispensable for initial T cell responses, viral clearance and mouse survival. In contrast, during severe influenza infection with prolonged viral load, 4-1BB expression is sustained on lung T cells and 4-1BBL is upregulated in the lung compared to mild influenza infection. Under these conditions, 4-1BBL-deficiency results in a decreased CD8 T cell response in the lungs, higher viral load, impaired lung function and increased mortality. These findings suggest that the sustained expression of 4-1BB and its ligand as a function of viral load fine-tunes the CD8 T cell response to a level appropriate for the severity of infection. 4-1BBL is also important for maintaining CD8 memory T cell survival following the clearance of an infection. I found that 4-1BB is selectively expressed on a subset of memory CD8 T cells in the bone marrow. I further showed that the TNFR family member GITR is intrinsically required on CD8 memory T cells for 4-1BB expression in vivo, and that 4-1BB on CD8 T cells interacting with 4-1BBL on a radio-resistant cell in the bone marrow contributes to CD8 memory T cell survival. Immunotherapy with 4-1BB agonists has shown efficacy in eradication of tumors in several mouse models. These effects have been attributed to 4-1BB on multiple cell types. I found that 4-1BB either on transferred T cells or on host T cells was necessary and sufficient for inducing regression of established tumors when anti-4-1BB is combined with adoptive T cell therapy. This thesis highlights the importance of the CD8 T cell intrinsic role of 4-1BB in the immune system.

4-1BB

CD8 T cells

Influenza

Tumor immunotherapy

CD8 memory T cells

Co-stimulation

0982

Impact du stress sur la survie des lymphocytes T CD8+ mémoires dans le contexte des missions spatiales

Dubeau Laramée, Geneviève

06 1900

No description available.

Lymphocytes T CD8+ mémoires

Stress

Cytométrie en flux

Vol spatial

CD8+ memory T cells

Flow cytometry

Spaceflight

Maintenance and re-activation of antigen-specific CD8+ and CD4+ memory T lymphocytes in the bone marrow

Siracusa, Francesco

17 August 2018

Das Knochenmark (BM) beherbergt wesentliche Komponenten des adaptiven Immunsystems, die einen langfristigen Schutz gegen wiederkehrende Pathogene vermitteln können, sodass es sich als Reservoir für ein immunologisches Gedächtnis qualifiziert. Neben langlebiger Antikörper-produzierender Plasmazellen bleiben auch Antigen (Ag)-spezifische CD8+ und CD4+ T-Gedächtniszellen dauerhaft im Knochenmark erhalten, auch wenn sie in den sekundären lymphoiden Organen (SLOs) und im Blut abwesend sind. Es wird angenommen, dass diese T-Gedächtniszellen bei erneutem Kontakt mit den gleichen systemischen Pathogenen schnell reagieren können. Allerdings sind die biologischen Mechanismen für ihre langfristige Aufrechterhaltung immer noch umstritten und demnach ungeklärt. Unklar ist auch, wie die T-Gedächtniszellen des Knochenmarks bei erneuter Konfrontation mit demselben Antigen reagieren. Hier wird dieser Frage begegnet, indem durch klassiche Immunisierung mit definieren Antigenen eine stabile Population Ag-spezifischer CD8+ und CD4+ T-Gedächtniszellen im Knochenmark erzeugt wird. / The bone marrow (BM) harbors critical components of the adaptive immune system being able to provide long-lasting protection against previously encountered pathogens, thus qualifying as a reservoir of immunological memory. In addition to long-lived antibody producing plasma cells, antigen (Ag)-specific CD8+ and CD4+ memory T lymphocytes are maintained long-term in the BM even when they are absent from secondary lymphoid organs (SLOs) and blood. Those memory T cells are thought to respond fast upon re-encounter of systemic pathogens. However, the biological mechanisms behind their long-term maintenance in the BM are still a matter of debate and thus remain unclear. Similarly, it is also unclear how the memory T cells of the BM react to antigenic re-challenge. Here we address these issues by generating a stable pool of Ag-specific CD8+ and CD4+ memory T lymphocytes in the BM by classical immunizations with defined antigens.

Knochenmark

homöostatische Proliferation

FTY720

FTY720

Bone marrow

Homeostatic proliferation

Antigen-specific CD8+ memory T cells

Antigen-specific CD4+ memory T cells

570 Biowissenschaften; Biologie

WF 9895

ddc:570

Expansion of the CD8 memory T cells : implications for the self-renewal gene Hoxb4

Giono Chiang, Gloria E.

12 1900

No description available.

Hoxb4

cellules CD8 T mémoire

cellules souches hématopoïétiques

auto-renouvellement

prolifération homéostatique

modèles de souris transgéniques

CD8 memory T cells

hematopoietic stem cells

self-renewal

homeostatic proliferation

transgenic mice model