Browsing by keyword "*Adoptive Transfer"
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Attrition of virus-specific memory CD8+ T cells during reconstitution of lymphopenic environmentsViruses can cause a severe lymphopenia early in infection and a subsequent, lasting loss of pre-existing CD8(+) memory T cells. We therefore questioned how well virus Ag-specific memory CD8(+) T cells could reconstitute mice rendered lymphopenic as a consequence of genetics, irradiation, or viral or poly(I:C)-induced cytokines. In each case, reconstitution of the CD8(+) compartment was associated with limited division of virus-specific memory T cells and a reduction in their proportion. This indicates that foreign Ag-experienced CD44(high)CD8(+) memory T cells may respond differently to homeostatic signals than other CD44(high)CD8(+) cells, and that events inducing lymphopenia may lead to a permanent reduction in T cell memory.
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Cutting edge: elimination of an endogenous adjuvant reduces the activation of CD8 T lymphocytes to transplanted cells and in an autoimmune diabetes modelThe generation of adaptive immune responses is thought to require the presence of adjuvants. Although microbial adjuvants are well characterized, little is known about what provides the adjuvant effect in responses to transplanted cells or in autoimmune diseases. It had been postulated that, in these situations, injured cells instead released "endogenous adjuvants." We previously identified uric acid as an endogenous adjuvant for coinjected Ags. We now report that elimination of uric acid reduced the generation of CTL to an Ag in transplanted syngeneic cells and the proliferation of autoreactive T cells in a transgenic diabetes model. In contrast, uric acid depletion did not reduce the stimulation of T cells to mature APCs or when endogenous APCs were activated with anti-CD40 Ab. These findings support the concept that danger signals contribute to the T cell responses to cell-associated Ags by activating APCs and identify uric acid as one of these signals.