Sandra J. Downing scite author profile

Fluid produced and secreted by the Fallopian tube provides the environment in which gamete transport and maturation, fertilization and early embryo development occur. This review describes the composition of oviductal fluid in terms of ions and nutrients such as glucose, lactate, pyruvate and amino acids. The function of oestrogen-specific glycoprotein is discussed. The mechanisms of fluid secretion and agents known to influence fluid production and secretion are described. Clinical implications of abnormal oviductal fluid production and secretion in hydrosalpinx and pelvic inflammatory disease are also discussed.

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The Physiological Role of Relaxin in the Pregnant Rat. III. The Influence of Relaxin on Cervical Extensibility*

Downing

Sherwood

1985

Endocrinology

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Cervices from day 18 (D18) intact pregnant rats show significantly greater extensibility and ability to accommodate to extension than cervices from D9 pregnant rats. On D22, cervices from intact pregnant rats show even greater extensibility and accommodation to stretch. Cervices from ovariectomized pregnant rats treated with estrogen (E) and progesterone (P; group OPE) show markedly reduced extensibility and ability to accommodate to stretch compared with intact pregnant cervical tissue (group C) on both D18 and D22. Extensibility of group OPE cervices resembles that of cervices from D9 intact pregnant rats. Cervices from ovariectomized pregnant rats treated with E, porcine relaxin (R), and P (group OPER) or porcine R and P (group OPR) exhibit similar extensibility and ability to accommodate to stretch as cervices from intact pregnant rats on both D18 and D22. The importance of R for cervical softening during pregnancy and its interaction with E near term and during parturition are discussed.

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β‐Adrenoceptor subtypes and the opening of plasmalemmal K+‐channels in trachealis muscle: electrophysiological and mechanical studies in guinea‐pig tissue

Cook

Small

Berry

et al. 1993

British J Pharmacology

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Manchester Ml 3 9PT1 Mechanical and electrophysiological studies of guinea-pig isolated trachealis have been made with the objectives of (a) identifying which of the P-adrenoceptor subtypes mediates the opening of plasmalemmal K+-channels, (b) gaining further insight into the properties of the novel, long-acting Padrenoceptor agonist, salmeterol and (c) clarifying the role of K+-channel opening in mediating the relaxant actions of agonists at P-adrenoceptors. 2 Noradrenaline (10 nM-100 JM) caused a concentration-dependent increase in the rate of beating of guinea-pig isolated atria. The selective P1-adrenoceptor blocking drug, CGP 20712A (100nM-10 JM) caused concentration-dependent antagonism of noradrenaline. The selective P2-adrenoceptor blocking drug, ICI 118551, also produced concentration-dependent antagonism of noradrenaline, but only when used in concentrations greater than 300 nM.3 Cromakalim (100nM-l10 M), isoprenaline (1-100nM), procaterol (0.1-30nM), salbutamol (1 nM-i JlM), salmeterol (1-100 nM) and theophylline (1IlM-1 mM) each caused concentrationdependent suppression of the spontaneous tone of guinea-pig isolated trachealis. 4 ICI 118551 (10 nM-1 JAM) antagonized isoprenaline, procaterol and salmeterol in suppressing the spontaneous tone of the isolated trachea. The antagonism was concentration-dependent. In contrast, ICI 118551 (1 JAM) antagonized neither cromakalim nor theophylline. CGP 20712A (up to 1 JAM) failed to antagonize cromakalim, isoprenaline, procaterol, salmeterol or theophylline. In trachea treated with indomethacin (2.8 JM) and carbachol (10 JAM), salmeterol (1 JAM) antagonized the effects of isoprenaline but not aminophylline. 5 Intracellular electrophysiological recording from guinea-pig isolated trachealis showed that the relaxant effects of cromakalim (10 JM), isoprenaline (100 nM), procaterol (10 nM) and salbutamol (10 nM-1 JAM) were accompanied by the suppression of spontaneous electrical slow waves and by cellular hyperpolarization. In contrast, the relaxant effects of salmeterol (10 nM-1 JiM) were not accompanied by significant cellular hyperpolarization. 6 CGP 20712A (1 AM) inhibited the hyperpolarization but not the relaxation induced by isoprenaline (100 nM). In contrast ICI 118551 (100 nM) inhibited both the hyperpolarization and the relaxation induced by isoprenaline (100 nM). Neither CGP 20712A (1 JAM) nor ICI 118551 (100 nM) inhibited the hyperpolarization induced by cromakalim (10 JM). Salmeterol (1I jaM) inhibited the hyperpolarization induced by isoprenaline (100 nM) but not that induced by cromakalim (1O JAM). 7 It is concluded that activation of either l-or P2-adrenoceptors can promote the opening of K+-channels in the trachealis plasmalemma. The poor ability of salmeterol to hyperpolarize trachealis muscle reflects neither its selectivity in activating P2-adrenoceptors as opposed to P1-adrenoceptors nor a non-specific action in stabilizing the cell membrane. Instead, it may reflect low intrinsic efficacy of the drug at P2-adrenoceptors. The opening of plasmalem...

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Effects of several potassium channel openers and glibenclamide on the uterus of the rat

Piper

Minshall

Downing

et al. 1990

British J Pharmacology

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1 The ability of several potassium (K+) channel openers to inhibit spasm of the uterus of the nonpregnant rat and their susceptibility to antagonism by glibenclamide was assessed in vitro and in vivo. 2 In the isolated uterus exposed to oxytocin (0.2 nM), cromakalim, RP 49356 and pinacidil were of similar potency (mean pD2 = 6.4, 6.0 and 6.2 respectively) while minoxidil sulphate was of lower potency (pD2 = 4.7). Glibenclamide antagonized cromakalim and RP 49356 with the interactions consistent with competitive antagonism (mean pA2 of 6.57 and 7.00 respectively). Glibenclamide also antagonized pinacidil (pA2 = 6.22) but the slope of the Schild plot was significantly greater than -1. Neither salbutamol nor minoxidil sulphate was antagonized by glibenclamide (10p1M). (0.01-1lpM) inhibited spasm evoked by all concentrations of KCl (10-80mM). Suppression of spasm evoked by KCI (10-80mM) by cromakalim (100pM) and pinacidil (100pMm) was insensitive to glibenclamide (10pM).4 Cromakalim (0.1mgkg-1) and RP 49356 (0.1mgkg-1), given by i.v. bolus injection, inhibited uterine contractions, produced a fall in blood pressure and a slight tachycardia in the conscious ovariectomized rat. Glibenclamide (20mgkg-'), given by i.v. infusion, antagonized the vascular and uterine smooth muscle relaxant properties of cromakalim and RP 49356. 5 Several K+ channel openers are uterine relaxants. The antagonism of cromakalim, RP 49356 and pinacidil, at low concentrations, by glibenclamide suggests their actions may involve an ATP-sensitive K+ channel. High concentrations of pinacidil (10 and 100puM) and cromakalim (100pM) may exert an additional action in the uterus. The low potency of minoxidil sulphate and its insensitivity to glibenclamide in the isolated uterus suggests that its mechanism of action may differ from that of the other K+ channel openers.

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The Physiological Role of Relaxin in the Pregnant Rat. IV. The Influence of Relaxin on Cervical Collagen and Glycosaminoglycans^*

Downing

Sherwood

1986

Endocrinology

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Changes in the collagen and glycosaminoglycan components of cervical connective tissue were studied in nonpregnant, intact pregnant, and ovariectomized hormone-treated pregnant rats. Collagen concentration and solubility and the concentration of the glycosaminoglycans dermatan sulfate (DS), heparan sulfate, and hyaluronic acid (HA) in cervices taken from day 9 (D9) pregnant rats were similar to those in cervices from nonpregnant rats. In cervical tissue from late pregnant intact control rats on D18 and D22, the collagen concentration decreased, collagen solubility increased, and there was no significant change in total glycosaminoglycan concentration. In cervices from ovariectomized pregnant rats treated with progesterone and estrogen, collagen and glycosaminoglycan parameters resembled those of D9 and nonpregnant cervices on both D18 and D22. However, treatment of ovariectomized pregnant rats with progesterone, estrogen, and porcine relaxin (R) restored cervical collagen concentrations to those of intact controls on both D18 and D22. On D18 of pregnancy, cervical collagen solubility was partially increased by R treatment, and by D22, it was similar to that of intact D22 pregnant controls. R treatment also resulted in a significantly increased cervical concentration of HA. It is concluded that the decrease in collagen concentration, increase in collagen solubility, and increase in HA concentration resulting from R action may contribute in part to the increased extensibility of the cervix that occurs during late pregnancy in the rat.

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Sandra J. Downing

Formation of Fallopian tubal fluid: role of a neglected epithelium

The Physiological Role of Relaxin in the Pregnant Rat. III. The Influence of Relaxin on Cervical Extensibility*

β‐Adrenoceptor subtypes and the opening of plasmalemmal K+‐channels in trachealis muscle: electrophysiological and mechanical studies in guinea‐pig tissue

Effects of several potassium channel openers and glibenclamide on the uterus of the rat

The Physiological Role of Relaxin in the Pregnant Rat. IV. The Influence of Relaxin on Cervical Collagen and Glycosaminoglycans^*

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Sandra J. Downing

Formation of Fallopian tubal fluid: role of a neglected epithelium

The Physiological Role of Relaxin in the Pregnant Rat. III. The Influence of Relaxin on Cervical Extensibility*

β‐Adrenoceptor subtypes and the opening of plasmalemmal K+‐channels in trachealis muscle: electrophysiological and mechanical studies in guinea‐pig tissue

Effects of several potassium channel openers and glibenclamide on the uterus of the rat

The Physiological Role of Relaxin in the Pregnant Rat. IV. The Influence of Relaxin on Cervical Collagen and Glycosaminoglycans*

Contact Info

Product

Resources

About

The Physiological Role of Relaxin in the Pregnant Rat. IV. The Influence of Relaxin on Cervical Collagen and Glycosaminoglycans^*