Cytosolic Ca2+ spikes evoked by the thiol reagent thimerosal in both intact and internally perfused single pancreatic acinar cells

Abstract

Cytosolic calcium signals evoked by the sulphydryl-group-oxidising agent, thimerosal, have been investigated in acutely isolated pancreatic acinar cells. Two techniques were employed for the assessment of the cytosolic free-calcium concentration ([Ca²⁺]_i): measurement of calcium-dependent chloride and non-specific cation currents (whole-cell patch-clamp recording) and microfluorimetry (fura-2). Thimerosal (0.5–100 μM) evoked repetitive spikes in both chloride and cation currents as seen by patch-clamp recording, and in [Ca²⁺]_i as seen by microfluorimetry, with a latency of 1–3 min. The response increased in magnitude over time and was not reversed on removal of thimerosal. The thimerosal-induced spikes were reversibly blocked by 2 mM dithiothreitol and by 20 mM caffeine. Inclusion of heparin (200 μg/ml) in the pipette solution blocked the thimerosal-induced spikes. The calcium spikes continued after the removal of extracellular calcium; however, low concentrations of thimerosal (0.5–5 μM) were unable to initiate a current response in the absence of external calcium. High concentrations of thimerosal (50–100 μM) could initiate spikes without extracellular calcium. Thimerosal, at concentrations that failed to produce an independent effect, potentiated the acetylcholine-evoked oscillations in [Ca²⁺]_i. We conclude that thimerosal is able to mobilise calcium from an intracellular store; the blockade by heparin may indicate that thimerosal exerts an action on the inositol trisphosphate pathway. The dependence on extracellular calcium for initiation, but not for continuation of the thimerosal-induced calcium spikes suggests that thimerosal may have the additional effect of inhibiting the plasma membrane calcium ATPase.