Inhibitory effects of NaCN on the high K+- and carbachol-induced contractions in ileal longitudinal muscle of guinea-pig

The effect of extracellular Cl [Formula: see text] removal on contractions evoked by a selective muscarinic agonist, cis-2-methyl-4-dimethylaminomethyl 1,3-dioxolane methiodide (CD), and high K+ depolarizations in the isolated guinea pig ileal longitudinal muscle was studied. The replacement of [Formula: see text] with impermeant anions, such as isethionate (Ise−), was found to selectively inhibit a portion of the initial phasic response to K+ and CD, leaving the secondary and sustained tonic responses unchanged. In Ca2+-free solutions, the loss of contractile responses to high K+ was faster and more pronounced in Cl−-free compared with Cl−-containing solutions. Furthermore, the uptake of Ca2+, as represented by 45Ca2+, from the saline solution was delayed and reduced in Ise−-containing [Formula: see text]-free solutions. Replacement of [Formula: see text] with other impermeant anions, such as gluconate and methylsulphate, had a similar action on contractile activity as for Ise− replacement. [Formula: see text] replacement with permeant anions, such as nitrate, however, did not significantly inhibit the phasic response and sometimes increased the tonic response to K+. These results indicate that there is a [Formula: see text]-dependent Ca2+ pool in the guinea pig ileal longitudinal muscle and we speculate that this [Formula: see text]-dependent Ca2+ pool is associated with membrane structures, such as calveolae, which would thus offer a degree of protection to depletion by removal of extracellular Ca2+. Overall, these data suggest that agonist responses in guinea pig ileal longitudinal muscle preparations utilize at least three Ca2+ pools: a [Formula: see text]-sensitive pool supplying Ca2+ primarily for phasic contractions, a [Formula: see text]-insensitive pool supplying Ca2+ for tonic and phasic contractions, and an extracellular pool that is most sensitive to organic Ca2+ channel antagonists such as D-600 and supplies Ca2+, presumably entering the cell through voltage-operated Ca2+ channels, for the tonic contractions.

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The Inhibitory Effects of Prostaglandin E1 on Guinea-Pig Ureter

Canadian Journal of Physiology and Pharmacology ◽

10.1139/y75-035 ◽

1975 ◽

Vol 53 (2) ◽

pp. 239-247 ◽

Cited By ~ 11

Author(s):

A. Johns ◽

M. J. Wooster

Keyword(s):

Guinea Pig ◽

Inhibitory Action ◽

Calcium Content ◽

Prostaglandin E ◽

Total Calcium ◽

Inhibitory Effects ◽

Calcium Efflux ◽

Tension Development ◽

Calcium Sequestration ◽

High K

Prostaglandin E1 (PGE1) hyperpolarized the smooth muscle cells of guinea-pig ureter in normal Krebs solution and was without effect on ureters depolarized in KCl Krebs. PGE1 inhibited both electrically induced contractions and K+-induced contractures of the ureters. Conditions that favored greater tension development by the ureters, namely, high [K+] or high [Ca2+] reduced the inhibitory effects of PGE1 on the K+-induced contractures. Depolarization of guinea-pig ureter with KCl Krebs led to an increase in radio-calcium content of the tissue over a 30 min loading period. This increase in the tissue's radio-calcium content was further increased by PGE1 but not by theophylline. PGE1 was found to have no effect on either total calcium content or the calcium efflux from the tissue. It is suggested that PGE1 exerts its inhibitory action by increasing calcium sequestration at the inner surface of the cell membrane.

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