Use of small interfering RNA (SIRNA) for modulating the expression of costimulatory molecules CD80 and CD86 on dendritic cells.

The costimulatory molecules CD80 and CD86, expressed on surface of dendritic cells (DCs), are essential to trigger T cell activation and to maintain self tolerance, indicating that these molecules are promising therapeutic targets. They can either bind to CD28 on T cells, promoting T cell activation and leading to their proliferation and cytokine production, or to CTLA-4, which is expressed following T cell activation, and can inhibit T cell response. Though CD80 and CD86 are thought to provide equivalent T cell costimulation, a growing body of evidence suggests that there are different functional consequences of CD28 engagement by these two molecules. Many reports point to variations in their ability to stimulate different lymphocyte subsets. However, there is still controversy in the literature and the actual role of CD80 and CD86 remains to be elucidated. Therefore, the aim of this study was to establish the methodology necessary to silence, by small interfering RNAs (siRNAs), both CD80 and CD86 expression on monocyte-derived dendritic cells. These findings would be the base of studys that could better elucidate the function of these two coestimulatory molecules in T cell activation. Therefore, transfection of 4th day DCs with fluorescent siRNA and lipidic transfection agents siPORT and iMAX was established, an d transfection efficiency observed was 64,7% ± 5,2 e 69,7% ± 14,5%, respectively. 4th day DCs were transfected with specific CD80 siRNAs and phenotype was observed after 48 hours of transfection. Besides CD80 efficient silencing by two from three siRNAs tested, there was an unexpected decrease in CD86+ cells. To establish CD86 silencing, CD14+ cells were positively selected with magnetic beads and immediately transfected with CD86 specific siRNAs, activated after 24 hours of transfection, and phenotype was observed after 24 hours of activation. Despite the fact that silencing conferred by one of two siRNAs was very low, equivalent phenomenon was observed, with a decrease in CD80+ cells. Although the observed effects were inconclusive, these data suggests a possible reciprocal modulation by these two molecules. Therefore, we were able to obtain efficient DC transfection with siRNAs of interest, as well as modulate CD80 and CD86 expression. With these instruments we can now develop studies regarding the real physiological role of these two costimulatory molecules in DCs antigen presentation. (AU)