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Query: UNIPROT:P01178 (
oxytocin
)
15,767
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Prostaglandin A is known to be an antihypertensive vasodepressor agent produced by the kidney and has the basic potentialities of a hormone. No information is available at present concerning its effect on the human pregnant uterus and whether it can be used as an oxytocic compound to induce labour. The uterine stimulating and labour inducing ability of
PGA1
was evaluated in 10 cases; seven patients were suffering from pregnancy toxemia while three were normal pregnancies near full term. Cardiotocographic tracings showed that uterine activity was markedly stimulated to a degree sufficient to induce labour. Continuous i.v. infusions at a rate of 0.25-1.0 mug/Kgm/min given over a fixed period of only 6 hours resulted in delivery in all cases except one following the discontinuation of administration. Beneficial effects on blood pressure were observed in toxemic subjects. Potentially serious FHR patterns and occasional hypertonus during therapy were seen and stress the need for more information to evaluate the safety, optimum dosage and duration of infusion as well as the place of this approach in clinical practice for the management of pregnancy toxemia. The absence of antidiuretic effect, the hypotensive response and uterine stimulating property of
PGA1
indicate a possible advantage in toxemia of pregnancy as compared to
oxytocin
infusions.
...
PMID:Renal prostaglandins for induction of labour-a dual clinical advantage in toxemia of pregnancy. 78 55
1. Membrane currents were recorded from voltage clamped Xenopus laevis oocytes, still surrounded by follicular cells, theca and enveloping inner ovarian epithelia (ovarian follicles). 2. Superfusing follicles with frog Ringer solution containing E-series prostaglandins (PGE1 or PGE2) or
oxytocin
(0.5-2 microM) generated slow membrane currents arising from an increase in membrane conductance to K+. 3. Follicles taken from different frogs varied greatly in responsiveness to PGE and
oxytocin
. For example, enclosed oocytes with good sensitivity to prostaglandins responded to 1 nM-PGE, whereas follicles from some frogs failed to respond at 5 microM. 4. Oocytes with good responsiveness to PGE also produced K+ currents to
PGA1
, PGA2, PGB1, 11-deoxy-PGE1 and 11-beta-PGE2, whereas PGF2 alpha, PGI2, PGD2 and 8-iso-PGE1 generally failed to elicit membrane currents. 5. Responses to PGE and
oxytocin
were mimicked by the adenylate cyclase activator forskolin or by intraoocyte pressure injection of cyclic nucleotides. Responses were potentiated by the phosphodiesterase inhibitors theophylline and 3-isobutyl-1-methylxanthine (IBMX). In IBMX (0.5 mM), human atrial natriuretic factor (ANF) (10-60 nM) elicited a similar K+ conductance. This all implied that cyclic nucleotides played a role in the receptor-channel coupling mechanism of these responses. 6. Defolliculating oocytes effectively abolished responses to prostaglandins,
oxytocin
and ANF, suggesting that the currents arise in follicular cells. 7. The responses of PGE,
oxytocin
and ANF thus resembled currents elicited by catecholamines, adenosine, gonadotrophins and vasoactive intestinal peptide (VIP). However, PGE,
oxytocin
and ANF responses were not blocked by catecholaminergic or purinergic antagonists. Moreover, when comparing follicles isolated from different frogs, the sensitivity to PGE and
oxytocin
varied independently of that to gonadotrophin or VIP. These experiments suggest that Xenopus ovarian follicles contain specific and distinct receptors for PGE,
oxytocin
and ANF. 8. Acetylcholine attenuated the cyclic nucleotide-mediated K+ responses, including currents elicited by PGE,
oxytocin
and ANF. Attenuation was not dependent on, or mimicked by, activation of the inositol phosphate-diacylglycerol messenger pathways located in the oocyte itself, nor was it appreciably blocked by loading follicle-enclosed oocytes with 0.1-1.5 mM-EGTA.
...
PMID:Membrane currents elicited by prostaglandins, atrial natriuretic factor and oxytocin in follicle-enclosed Xenopus oocytes. 248 34
A review of early research (up through 1970) on prostaglandins (PGs) is presented. Their chemical structure and classification based on their ring-structure is detailed as well as various analytic methods of mammalian tissues and body fluids. For clinical use PGE1 and 2, PGF2alpha and
PGA1
are the most significant ones because of their properties. PGs have many physiological activities encompassing many organ systems. Their pharmacological actions include: 1) stimulation of nonvascular smooth muscle; 2) peripheral vasodilation (excluding PGFs which cause vasoconstriction); 3) inhibition of lipolysis; 4) inhibition of platelet aggregation; 5) inhibition of gastric peristalsis and gastric juice secretion; 6) bronchodilation; and 7) inhibition of spontaneous CNS activity. The level of PGEs in semen is closely related to the degree of fertility; normally fertile men have 55 mcg PGE/ml and never less than 11 mcg/ml. Current studies are under way on the effect of PGE in artificial insemination of sperm of subfertile men. PGF2alpha and PGE2 stimulate menstruation and uterine contraction; other PGs inhibit uterine contraction. PGs from semen have a role in sperm transport and possibly act on fallopian tube motility aiding sperm capacitation, and ovum retention and transport. Early trials with PGs point to a possible action as an abortifacient, as a once-a-month contraceptive, or a postconception contraceptive agent. PGF2alpha is found in variable concentrations in maternal blood during contraction of the pregnant uterus; levels increase as labor progresses. PGs have been used for labor induction, for induction of abortion and in mole pregnancy. Given as a constant intravenous infusion they produce regular contractions leading to natural expulsion of the fetus and causing very few side effects in the woman with no adverse effects on the fetus. PGs' action compares favorably with that of
oxytocin
and is preferable for labor induction in certain pregnancy complications. PGE1 and 2 have a stronger effect than PGF2alpha, hence can be used in smaller dosage and cause fewer adverse effects.
...
PMID:[Prostaglandins in gynecology and obstetrics]. 505 16
