J. Crankshaw scite author profile

Field stimulation with pulses of 0.5 or 5 ms relaxed isolated strips of lower esophageal sphincter (LES) of the opossum; only responses to 0.5-ms pulses were inhibited by tetrodotoxin. Black widow spider venom prevented relaxation to both stimuli; thus both stimuli may release nonadrenergic inhibitory mediator. Isoproterenol, but not PGEs or ATP, was a consistent relaxant of LES. PGF2alpha (approximately 1 microgram/ml) and stable endoperoxides (approximately 10 ng/ml) stimulated LES muscle. Doses of indomethacin (IDM) or 5,8,11,14-eicosatetraynoic acid (ETA), which inhibited contractions to arachidonic acid increased then abolished LES tone, inhibited relaxations to 5-ms pulses and less effectively to 0.5-ms pulses. Inhibition of relaxation preceded loss of tone. Tone could be restored by carbachol, PGEs, or PGF2alpha and relaxation after IDM but not ETA was also restored. Prostaglandins may participate in functioning of nonadrenergic inhibitory nerves and in maintaining sphincter tone. Cells that did not appear to be smooth muscle were in gap junction contact with smooth muscles and closely apposed to nerves with small agranular vesicles. A role for these structures, which are postulated to be interstitial cells, in tetrodotoxin-insensitive prostaglandin-related release of nonadrenergic inhibitory mediator was proposed.

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Characteristics of calcium transport and binding by rat myometrium plasma membrane subfractions

Grover¹,

Kwan²,

Crankshaw³

et al. 1980

American Journal of Physiology-Cell Physiology

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A gradient has been designed to yield two subfractions of plasma membrane vesicles from rat myometrium, a low buoyant density (8-24% sucrose) fraction N1 richer in 5'-nucleotidase and a higher buoyant density (24-30% sucrose) fraction N2, instead of a previously described fraction F1. Both N1 and N2 had very low activities of NADPH-cytochrome c reductase and succinate-cytochrome c reductase. Electron micrographs of thin sections of N1 showed clear vesicles, whereas N2 consisted of vesicles with electron-dense bodies attached to them. These plasma membrane vesicles can actively take up Ca. The active uptake of Ca was potentiated by oxalate and phosphate and abolished by the Ca ionophore A23187. Dilution of actively loaded vesicles in isotonic media containing EGTA led to loss of a small proportion of the stored Ca instantaneously and the remainder more slowly in a biphasic manner. Dilution in hypotonic media with EGTA led to a release of a much larger proportion of the accumulated Ca. A23187 at high concentrations (10 microM) caused a release of all the sequestered Ca whether the active Ca uptake had been carried out in the presence or in the absence of oxalate. A23187, 0.5 microM, released all the sequestered Ca from the vesicles that were actively loaded in the absence of oxalate, but only 37% when the vesicles were actively loaded with Ca in the presence of oxalate. Comparison of the composite plasma membrane fraction F1 (8-30% sucrose) and the subfractions N1 and N2 showed that they had different capacities for Ca uptake in the presence and absence of ATP. An attempt has been made to analyze the active Ca-uptake data in terms of various Ca pools.

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Prostaglandins and myogenic control of tension in lower esophageal sphincter

1979

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Calcium and contractions of isolated smooth muscle cells from rat myometrium

Kyozuka

Crankshaw²,

Berezin³

et al. 1987

Can. J. Physiol. Pharmacol.

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Smooth muscle cells were isolated from estrogenized rat myometrium by collagenase digestion. Electron microscopic examination and measurement of cell lengths by image-splitting micrometry were carried out after fixation with acrolein. Mean lengths of cells before and after isolation were 81.7 and 66.9 micron, respectively. Responses of cells were compared with contractions of isolated strips recorded isometrically. Effects of carbachol and KCl were examined in 2 mM Ca, 2 mM Ca + 4 mM EGTA, and 2 mM Ca + 10(-8) M nitrendipine solution. Carbachol and KCl produced concentration-dependent shortening of isolated cells maximal at 30 s after addition. The concentrations of carbachol required to produce shortenings were about 100-fold less than those required to produce isometric contractions; but no major difference was observed in the concentration dependence of cell shortening and isometric contraction produced by potassium-induced depolarization. In 2 mM Ca solution, there was a phasic response, followed by a tonic response such that more than 50% of maximum cell shortening was maintained for 10 min. However, in 2 mM Ca + 4 mM EGTA or 10(-8) M nitrendipine, the tonic contraction was abolished and cells rapidly relaxed after 30 s. If carbachol was added to cells after varying times in the EGTA-containing solution, the ability to initiate a contraction declined exponentially with a half-time of 160 s. Effects of depolarization by KCl were examined in 2 mM Ca plus nitrendipine and 2 mM Ca + 4 mM EGTA solution. Shortening occurred in 2 mM Ca solution by depolarization but not if nitrendipine was added. Though shortening was not observed in 2 mM Ca + 4 mM EGTA solution by KCl, subsequent addition of carbachol induced shortening. These results suggested that there was an intracellular Ca store site from which Ca was released by carbachol and which was not affected by depolarization in the absence of external Ca. No evidence was obtained that the contraction persists in Ca2+-free medium in isolated cells, which is in agreement with previous findings in small muscle strips in which only a similar transient response was obtained.

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Receptors for E type prostaglandins in the plasma membrane of nonpregnant human myometrium

Crankshaw

Branda

et al. 1979

Archives of Biochemistry and Biophysics

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J. Crankshaw

Prostaglandins and tetrodotoxin-insensitive relaxation of opossum lower esophageal sphincter.

Characteristics of calcium transport and binding by rat myometrium plasma membrane subfractions

Prostaglandins and myogenic control of tension in lower esophageal sphincter

Calcium and contractions of isolated smooth muscle cells from rat myometrium

Receptors for E type prostaglandins in the plasma membrane of nonpregnant human myometrium

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