Distinct effects of CD86-mediated costimulation on resting versus activated human CD4+ T cells.

CD80 and CD86 are important in the initiation of T cell immunity. Although their costimulatory function has long been appreciated, it remains unclear whether the biological significance of the two B7 isoforms resides in their different patterns and kinetics of expression or whether differences exist in their function. We have addressed this issue using HLA-DR1 transfectants co-expressing CD80, CD86, or both molecules as stimulators for naïve, memory, and activated human CD4+ T cells.

Cross-species costimulation: relative contributions of CD80, CD86, and CD40.

Background: The response of human CD4+ T cells against porcine cells is of comparable magnitude to that induced by human leukocyte antigen-mismatched allogeneic cells. This reflects productive interactions between key costimulatory molecules across the species barrier. Inhibition of these molecular interactions will be crucial in overcoming CD4+ T-cell-mediated rejection of xenografts.

CD40 can costimulate human memory T cells and favors IL-10 secretion.

Optimal proliferation of T cells, although initiated via ligation of the CD3/TCR complex, requires additional costimulatory signals. While the most well-defined in vitro pathway of costimulation is via the B7 family of molecules, a large body of data clearly demonstrates an in vivo role for the CD40/CD154 pathway in transplantation, autoimmunity and allergy. We have examined the role of CD40 as an independent costimulatory molecule by generating a panel of transfected human fibroblasts expressing DR1 with either CD80, CD86 or CD40.