ABSTRACT
Previous studies on the cytotoxicity of arachidonic acid (ARA) elucidated the involvement of oxidative stress and Ca(2+). In the present study, the Zn(2+)-related cytotoxicity of ARA was studied by a flow cytometric technique with appropriate fluorescent probes in rat thymocytes. Addition of 10 µM ZnCl2 enhanced the increase in cell lethality induced by 10 µM ARA. The removal of Zn(2+) by Zn(2+) chelators attenuated the ARA-induced increase in cell lethality. Thus, Zn(2+) is suggested to be involved in ARA cytotoxicity. ARA at 3-10 µM elevated intracellular Zn(2+) level. The Zn(2+) chelators attenuated the ARA-induced increase in intracellular Zn(2+) level while ARA significantly increased intracellular Zn(2+) level in the presence of 3 µM ZnCl2, suggesting the involvement of external Zn(2+). Zn(2+) reportedly exerts cytotoxic action under oxidative stress induced by hydrogen peroxide, via an excessive increase in intracellular Zn(2+) levels. Since ARA induces oxidative stress, the simultaneous administration of zinc and ARA may be harmful.
Subject(s)
Arachidonic Acid/toxicity , Cell Survival/drug effects , Lymphocytes/pathology , Oxidative Stress/drug effects , Thymocytes/pathology , Zinc/toxicity , Animals , Cells, Cultured , Drug Synergism , Fluorescent Dyes , In Vitro Techniques , Lymphocytes/drug effects , Rats , Thymocytes/drug effectsABSTRACT
The physicochemical properties of two novel ionic liquids based on benzyltriethylphosphonium and benzyltributylphosphonium cations are described in this report. It was found that both benzyl-substituted phosphonium cations gave low-melting salts in combination with a bis(trifluoromethylsulfonyl)amide anion. The thermogravimetric analysis suggested that the benzyl-substituted phosphonium ionic liquids showed higher thermal stability than those of not only the alkyl-substituted phosphonium ILs but also the corresponding benzyl-substituted ammonium compounds. The benzyl-substituted phosphonium ionic liquids also exhibited relatively high conductivities when compared to those of the corresponding ammonium compounds. These results indicate an improving effect of introducing a benzyl group into the phosphonium cations on both the thermal stability and the conductivity.