Differences in regulation of Ca2%2b-activated Cl- channels in colonic and parotid secretory cells

We investigated the regulation of Ca2%2b activated Cl- channels in cells from the human colonic cell line T84 and acinar cells from rat parotid glands. The participation of multifunctional Ca2%2b- and calmodulin-dependent protein kinase (CaM kinase) II in the activation of these channels was studied using selective inhibitors of calmodulin and CaM kinase II. Ca2%2b- dependent Cl- currents were recorded using the whole cell patch-clamp technique. Direct inhibition of CaM kinase II by 40 μM peptide 281-302 or by 10 μM KN-62, another CaM kinase inhibitor, did not block the Cl- current in parotid acinar cells, whereas in T84 cells KN-62 markedly inhibited the Ca2%2b-dependent Cl-current. We also used the calmodulin-binding domain peptide 290-309 (0.5 μM), which competitively inhibits the activation of CaM kinase II. This peptide reduced the Cl- current in T84 cells by ~70%25 but was without effect on the channels in parotid acinar cells. We conclude that the Ca2%2b-dependent Cl- channels in T84 cells are activated by CaM kinase II but that the channels in parotid acinar cells must be regulated by a fundamentally different Ca2%2b-dependent mechanism that does not utilize CaM kinase II or any calmodulin-dependent process.

Calmodulin; Calmodulin and calmodulin kinase inhibitors; Exocrine acinar cells; Fluid and electrolyte secretion; Human colon carcinoma cells calcium ion; calmodulin inhibitor; chloride channel; chloride ion; protein kinase (calcium,calmodulin) II; protein kinase inhibitor; animal cell; article; calcium transport; channel gating; chloride current; colon mucosa; colon secretion; controlled study; exocrine cell; human; human cell; intestine cell; nonhuman; parotid gland; patch clamp; priority journal; rat; Animalia

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