Abstract

Objective: The activation of T lymphocytes contributes to the inflammatory process of atherosclerosis. Here we examined the effects of carvedilol, a new β-blocker containing an antioxidative property, on the activation of T cells. Methods: Human peripheral blood T cells were negatively selected from whole blood. Cytokines were measured by ELISA. The NF-κB and related protein activity was determined by electrophoretic mobility shift assays, Western blotting, kinase assays and transfection assays. Results: Carvedilol was nontoxic at concentrations ≦10 μM, however, higher dosages (≥20 μM) induced T cell apoptosis. We demonstrated that carvedilol inhibited cytokine production from various stimuli-activated T cells. Carvedilol also suppressed the expression of T cell activation markers, including CD25, CD69 and CD71. Molecular investigation indicated that carvedilol specifically downregulated NF-κB but not activator protein 1 DNA-binding activity in activated T cells. The inhibitory effect was likely due to its antioxidative property. Meanwhile, carvedilol prevented stimuli-induced IκBα degradation. Such an effect was mediated through the inhibition of IκBα kinase activity. The inhibitory specificity on NF-κB by carvedilol was also demonstrated in transfection assays. Conclusions: Our results demonstrated a novel therapeutic mechanism of carvedilol in atherosclerosis, namely the inhibition of T cell activation via downregulating NF-κB activity.