Ca(2+) regulation of gap junctional coupling in lens epithelial cells

The quantitative effects of Ca²⁺signaling on gap junctional coupling in lens epithelial cells have beendetermined using either the spread of Mn²⁺ that is imagedby its ability to quench the fluorescence of fura 2 or the spread ofthe fluorescent dye Alexa Fluor 594. Gap junctional coupling wasunaffected by a mechanically stimulated cell-to-cell Ca²⁺wave. Furthermore, when cytosolic Ca²⁺ concentration(Ca) increased after the addition of the agonistATP, coupling was unaffected during the period thatCa was maximal. However, coupling decreasedtransiently ~5-10 min after agonist addition whenCa returned to resting levels, indicating that thistransient decrease in coupling was unlikely due to a direct action ofCa on gap junctions. An increase inCa mediated by the ionophore ionomycin that wassustained for several minutes resulted in a more rapid and sustaineddecrease in coupling (IC₅₀ ~300 nM Ca²⁺, Hillcoefficient of 4), indicating that an increase in Ca alone could regulate gap junctions. Thus Ca increases that occurred during agonist stimulation and cell-to-cell Ca²⁺ waves were too transient to mediate a sustaineduncoupling of lens epithelial cells.