Net calcium fluxes in rat parotid acinar cells

Abstract

The effects of receptor stimulation on net fluxes of⁴⁵Ca in parotid acinar cells were investigated. When cellular⁴⁵Ca content was near steady-state, muscarinic receptor activation by carbachol caused a net efflux of⁴⁵Ca (not always reproducible) followed by a net influx. In the presence of excess ethylene glycol bis (β-aminoethyl ether) N,N,N′,N′-tetraacetic acid, net efflux invariably occurred, but the influx phase was prevented. When the muscarinic receptor antagonist atropine was added to the medium during the influx phase, an abrupt transient influx occured followed by a return of net influx to the prestimulation level. When cellular responses believed to reflect intracellular ionized Ca (K⁺ permeability, protein secretion) were examined under similar conditions, atropine invariably had an inhibitory effect. The Ca taken up in response to atropine apparently replenishes the hormone-sensitive pool of cellular Ca since it can be released subsequently by adrenoceptor activation. Taken together, these observations suggest that when atropine is administered to cholinergically activated cells, the hormone-sensitive Ca pool rapidly refills from the extracellular fluid without a concomitant increase in ionized intracellular Ca. Thus, it is suggested that this Ca pool is most likely associated with the plasma membrane.