Abstract
1. Thapsigargin, a sesquiterpene lactone, was shown to cause electrogenic anion secretion in monolayers of human colonic epithelial cells, an effect which was crucially dependent upon calcium and did not involve eicosanoid formation. 2. To measure the secretory effect calcium needed to be present in the external bathing solution. By means of Fura-2 fluorescence measurements thapsigargin was shown to raise Cai by around 250 nM when the bathing solution contained calcium. In the nominal absence of external calcium thapsigargin raised Cai by only 60 nM, but from a lower basal value. This was insufficient to cause secretion. 3. Effects of other calcium-dependent secretagogues (e.g. lysylbradykinin) were inhibited in the presence of thapsigargin, whereas kinin responses were potentiated if the peptide was added following a stimulus which increases cyclic AMP. 4. From the data given here and the known behaviour of colonic epithelia it is concluded that thapsigargin increases Cai by a non-ionophoric mechanism by release from internal stores. Calcium-stimulated calcium influx then follows resulting in the opening of basolateral K channels, increasing the electrochemical gradient for chloride efflux, or alternatively by activating anion channels in the apical membrane. It is concluded that thapsigargin is a potentially important tool for examining epithelial mechanisms.
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