Molybdate modulates mitogen and cyclosporin responses of human peripheral blood lymphocytes

Abstract

The trace element molybdenum (Mo) is an essential component of key physiological systems in animals, plants and microorganisms. The molybdate oxoanion MoO 4 2− has been demonstrated to cause diverse yet poorly understood biochemical and pharmacological effects, such as non-specific inhibition of phosphatases and stabilization of steroid receptors. This study aimed to investigate the effects of molybdate on the activation of human peripheral blood lymphocytes ( hPBLs) ex vivo and its potential interaction with the widely used immunosuppressant drug cyclosporin A (CsA). Lymphocyte activation was evaluated by performing multiple experiments determining blastogenesis in cultured peripheral blood lymphocytes obtained from 5 healthy volunteers, following stimulation induced by phytohemagglutinin (PHA), in the absence or presence of 0.05–10 mM sodium molybdate or/and 2.5–30 μg/mL CsA. Blastogenesis was assessed by a morphometric assay based on the relative proportions of unactivated lymphocytes, activated lymphoblasts and cells with aberrant morphology after PHA-induced activation. Molybdate concentrations up to 1 mM showed no effect on lymphocyte blastogenesis, while higher concentrations exerted immunosuppressive actions on cultured hPBLs. Co-administration of 0.1 mM sodium molybdate with CsA, at doses up to 20 μg/mL, induced no alteration in the response of cultured hPBLs to CsA. However, molybdate potentiated the immunosuppressive action of higher CsA concentrations, implying a likely dose-related synergistic interaction of the two agents in PHA-stimulated blood lymphocytes. These observations are indicative of the possible biological importance of molybdate oxoanions in the modulation of hPBL activation that may have pharmacological consequences during the therapeutic application of immunomodulatory drugs.