Evidence for a direct role of intracellular calcium in paracetamol toxicity

Abstract

There is considerable evidence that an increase in cytosolic Ca2+ is involved in the cytotoxicity of a variety of agents. However, the direct demonstration of such involvement has proved difficult. In the present study, loading of freshly isolated hamster hepatocytes with the Ca2+ specific chelator Quin 2 (2-[(2-bis[carboxymethyl]amino-5-methyl-phenoxy)methyl]-6-methoxy-8- bis-[carboxymethyl]amino-quinoline) provided significant protection against the loss of viability caused by paracetamol. This was evident both when the cells were co-incubated with Quin 2-AM and paracetamol, and when the cells were incubated with Quin 2-AM after prior exposure to paracetamol and its complete removal from the hepatocytes. These observations provide direct evidence that an increase in intracellular Ca2+ is the cause of cell death in hepatocytes exposed to paracetamol. Further, the fact that Quin 2 is protective even after some time suggests that, for alterations of cytosolic Ca2+ to be detrimental, they must be sustained. The effects of Quin 2 on plasma membrane blebbing of paracetamol-exposed hepatocytes were less pronounced than on cell viability. This is in contrast to the effects of the direct-acting thiol-reducing reducing agent, dithiothreitol, which was equally effective in preventing blebbing and loss of viability. It is concluded that alterations of cytosolic Ca2+ are less directly linked to plasma membrane blebbing than to loss of cell viability.