Connexin mimetic peptides reversibly inhibit Ca2+ signaling through gap junctions in airway cells

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Connexin mimetic peptides reversibly inhibit Ca²⁺ signaling through gap junctions in airway cells

Scott Boitano¹ and W. Howard Evans²

¹ Department of Zoology and Physiology, University of Wyoming, Laramie, Wyoming 82071-3166; and ² Department of Medical Biochemistry, University of Wales College of Medicine, Heath Park, Cardiff, United Kingdom CF4 4XN

The effect of peptides with sequences derived from connexins, the constituent proteins of gap junctions, on mechanicallystimulated intercellular Ca²⁺ signaling in tracheal airway epithelial cells was studied. Threepeptides with sequences corresponding to connexin extracellularloop regions reversibly restricted propagation of Ca²⁺ waves to neighboring cells. Recovery of communication began within10 min of removal of the peptides, with inhibition totally reversedby 20-40 min. The peptides were shown to be more effective ininhibiting Ca²⁺ waves than glycyrrhetinic acid or oleamide. Inhibition of intercellularCa²⁺ waves by connexin mimetic peptides did not affect the Ca²⁺ response to extracellular ATP. Although the intracellular Ca²⁺ response of tracheal epithelial cells to ATP was greatly reducedby either pretreatment with high doses of ATP or application ofapyrase, mechanically stimulated intercellular Ca²⁺ signaling was not affected by these agents. We conclude thatconnexin mimetic peptides are effective and reversible inhibitorsof gap junctional communication of physiologically significantmolecules that underlie Ca²⁺ wave propagation in tracheal epithelial cells and propose a potentialmechanism for the mode of action of mimeticpeptides.

calcium; cell communication; connexon; gap junction inhibitors

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