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Literature DB >> 1328648

Regulation of a potassium-selective current in rabbit corneal epithelium by cyclic GMP, carbachol and diltiazem.

Abstract

The effects of cyclic GMP (cGMP), carbachol and diltiazem on a potassium-selective, delayed-rectifier current in freshly dissociated rabbit corneal epithelial cells were studied using a modified perforated-patch-clamp technique. The current was stimulated by both 500 microM cGMP (2.3-4.5-fold, mean = 2.9) and 250 nM carbachol, a muscarinic agonist (1.12-7.04-fold, mean = 3.8), and the stimulated current was totally blocked by diltiazem (10 microM). The effects of cGMP appeared to be, at least in part, different from those of carbachol as they required the presence of external calcium. Single-channel data suggest that cGMP and carbachol activate the potassium current by increasing the open probability of the channel via a second-messenger system and that the action of diltiazem is probably through a direct blocking effect on the open channel.

Entities: Chemical Disease

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Year: 1992 PMID： 1328648 DOI： 10.1007/bf00232058

Source DB: PubMed Journal: J Membr Biol ISSN： 0022-2631 Impact factor: 1.843

21 in total

Regulation of a potassium-selective current in rabbit corneal epithelium by cyclic GMP, carbachol and diltiazem.

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2. Failure to elicit neuronal macroscopic mechanosensitive currents anticipated by single-channel studies.

3. How do patch clamp seals form? A lipid bleb model.

4. Transport of Na, Cl, and water by the rabbit corneal epithelium at resting potential.

5. The large-conductance potassium ion channel of rabbit corneal epithelium is blocked by quinidine.

6. Single-channel mechanosensitive currents.

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8. Mechanism of stimulation by epinephrine of active transepithelial Cl transport in isolated frog cornea.

9. Muscarinic cholinoceptor regulation of cyclic guanosine monophosphate in human corneal epithelium.

10. Roles of cyclic AMP and Ca in epithelial ion transport across corneal epithelium: a review.

Review 1. Stress-induced corneal epithelial apoptosis mediated by K+ channel activation.

2. Calcium entry in rabbit corneal epithelial cells: evidence for a nonvoltage dependent pathway.

3. Modulation of rabbit corneal epithelial cell proliferation by growth factor-regulated K(+) channel activity.

4. Apoptosis of Corneal Epithelial Cells Caused by Ultraviolet B-induced Loss of K(+) is Inhibited by Ba(2.).