Ca2+ release from internal stores as a result of activation of phospholipase C or inhibition of the endoplasmic reticulum pump is accompanied by Ca2+ influx from the extracellular space. Measurement of intracellular calcium concentration and fluorescence quenching in Fura2-loaded cells showed that platelets preincubated in lithium have significantly higher basal, but lower agonist-stimulated influx of Mn2+ (acting as a surrogate of Ca2+ influx), than platelets reloaded with calcium in a normal sodium medium. There is no difference in the basal entry of divalent ion in platelets preincubated in sodium, lithium, or N-methyl glucamine in the absence of calcium. In platelets preincubated in lithium there is a higher basal Mn2+ entry without further increase upon store depletion by thapsigarin. In contrast, a significant increase in the divalent ion influx was found in sodium or N-methyl glucamine attributable to the opening of channels sensitive to store depletion. In the absence of extracellular calcium, the empty store opens channels and Li+ did not have additional effect on channels that are already open. The refilling of the stores with Ca2+ suppresses Mn2+ entry after sodium or NMG preincubation, but not after lithium preincubation. We propose that lithium induces a calcium influx throughout store-operated channels. This hypothesis may explain the lack of additivity, in cell preincubated in lithium, of basal entry and thapsigargin-triggered entry of calcium.