Adrenergic receptors are present on lymphocytes but the extent to which their activation modulates lymphocyte function remains unclear. We studied beta-adrenergic receptors on mouse spleen lymphocytes using the antagonist 3H-dihydroalprenolol (3H-DHA) as a specific ligand. We report a significant increase in beta-receptor density in spleen lymphocytes from mice treated with 6-hydroxydopamine (6-OHDA) to destroy peripheral sympathetic nerve endings (axotomy). Mouse spleen lymphocytes were separated into T and B subpopulations on nylon wool columns or by panning. B cells from both control and axotomized mice were found to bear twice as many beta-receptors as T lymphocytes. Finally, using flow cytometry to identify cells labeled with goat anti-mouse immunoglobulin (lg), axotomized mouse spleen lymphocyte populations were shown to contain 25% fewer B cells than controls. This work demonstrates differences in beta-adrenergic receptor density on functionally distinct populations of lymphocytes. Furthermore, we show adaptive changes in receptor density on T and B lymphocytes following sympathetic denervation. Both of these observations serve to link the immune and sympathetic nervous system in a regulatory network.