Relative Diabetogenic Properties of Islet-Specific Tc1 and Tc2 Cells in Immunocompetent Hosts

Vízler, Csaba; Bercovici, Nadège; Heurtier, A.; Pardigon, Nathalie; Goude, Karine; Bailly, Karine; Combadière, Christophe; Liblau, Roland

doi:10.4049/jimmunol.165.11.6314

Cited by 39 publications

(40 citation statements)

References 63 publications

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“…This conclusion is substantiated by the finding that Tc2 cells have much lower diabetogenic potential than do Tc1 cells, despite being as cytolytic as Tc1 cells (44). Direct killing of ␤-cells by Tc1 effectors is regarded as an important, if not crucial, mechanism of T1D induction by CD8 ϩ T cells (45)(46)(47).…”

Section: Discussionsupporting

confidence: 48%

IL-23 Drives Pathogenic IL-17-Producing CD8+ T Cells

Ćirić

El-Behi²,

Cabrera³

et al. 2009

The Journal of Immunology

200

147

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Section: Discussionsupporting

confidence: 48%

IL-23 Drives Pathogenic IL-17-Producing CD8+ T Cells

Ćirić

El-Behi²,

Cabrera³

et al. 2009

The Journal of Immunology

200

147

View full text Add to dashboard Cite

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“…T cells with low perforin and granzyme B expression in the synovial fluid as compared to peripheral blood of patients (Cho et al ). In contrast, during influenza infection and in autoimmune diabetes, Tc2 cells seem to display high cytotoxic activity (Cerwenka et al 1999;Vizler et al 2000). However, despite cytotoxicity, Tc2 cells were less protective as compared to Tc1 cells during influenza infection, probably because of different homing capacities (Cerwenka et al 1999).…”

Section: Tc2 Cellsmentioning

confidence: 81%

“…However, despite cytotoxicity, Tc2 cells were less protective as compared to Tc1 cells during influenza infection, probably because of different homing capacities (Cerwenka et al 1999). Likewise, in an autoimmune diabetes model, pancreas-specific homing, expansion and diabetogenic potential of Tc2 cells were lower as compared to Tc1 cells (Vizler et al 2000). Thus, depending on the type of immune response, Tc2 cells can acquire high or low cytotoxicity and their functional properties strongly differ from those of Tc1.…”

Section: Tc2 Cellsmentioning

confidence: 95%

“…Furthermore, Tc2 cells express the lineage-specific transcription factor GATA3 but at lower levels than Th2 cells (Croft et al 1994;Omori et al 2003). Tc2 cells functionally differ from Tc1 cells as shown during influenza infection, in autoimmunity and allergic disorders (Cerwenka et al 1999;Tang et al 2012;Vizler et al 2000). Whereas Tc1 cells are beneficial in allergic airway inflammation, Tc2 cells show only low level of cytotoxicity and aggravate disease.…”

Section: Tc2 Cellsmentioning

confidence: 99%

“…Expression of IFN-c is not necessarily connected with the loss of the original cytokines; thus, Tc2 cells producing IFN-c and IL-13 or Tc17 cells positive for IFN-c and IL-17 can be detected. In a diabetes model, Tc2 cells continue to produce IL-4 and IL-10 after transfer but additionally acquire IFN-c production, although at lower level as compared to Tc1 cells (Vizler et al 2000).…”

Section: Similar To Cd4mentioning

confidence: 99%

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Heterogeneity in the Differentiation and Function of CD8+ T Cells

Mittrücker

Visekruna

Huber

2014

Arch. Immunol. Ther. Exp.

241

215

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It is well established that CD8? T cells constitute an important branch of adaptive immunity contributing to clearance of intracellular pathogens and providing long-term protection. These functions are mostly fulfilled by the best characterized subpopulation of CD8? T cells, the cytotoxic T lymphocytes (also called Tc1 cells), owing to their ability to kill infected cells and to secrete cytokines such as interferon-c and tumor necrosis factor-a. However, there is growing evidence for alternative CD8?

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Effective and selective immune surveillance of the brain by MHC class I‐restricted cytotoxic T lymphocytes

et al. 2003

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Cytotoxic CD8 + T cells are abundantly present in human virus-induced or putative autoimmune diseases of the central nervous system (CNS). Their direct role in the induction of inflammatory brain damage is, however, poorly understood. We have studied CD8 + T cellmediated brain inflammation by transferring MHC class I-restricted hemagglutinin (HA)-reactive T cells from a TCR transgenic mouse line into transgenic mice, which express HA in astrocytes. We show that activated CD8 + T cells alone can induce monophasic brain inflammation in immunocompetent recipient animals. Similar to previous studies, involving transfer of CD4 + cells, brain inflammation peaks after 5-7 days and then declines. The pathology of brain inflammation, however, differs fundamentally from that induced by CD4 + cells. The inflammatory reaction is dominated by T cells and activated microglia in the virtual absence of hematogenous macrophages. This is associated with exquisitely specific destruction of antigen-containing astrocytes in the absence of any bystander damage of myelin, oligodendrocytes or neurons. Furthermore, in contrast to CD4 + T cells, some CD8 + cells accumulate in the brain and activate microglia in recipient animals, even in the absence of the specific antigen in the CNS. These data indicate that CD8 + T cells are prime candidates for immune surveillance of the CNS.

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Relative Diabetogenic Properties of Islet-Specific Tc1 and Tc2 Cells in Immunocompetent Hosts

Cited by 39 publications

References 63 publications

IL-23 Drives Pathogenic IL-17-Producing CD8+ T Cells

IL-23 Drives Pathogenic IL-17-Producing CD8+ T Cells

Heterogeneity in the Differentiation and Function of CD8+ T Cells

Effective and selective immune surveillance of the brain by MHC class I‐restricted cytotoxic T lymphocytes

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