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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have compared the response of proton and water transport to oxytocin treatment in isolated frog skin and urinary bladder epithelia to provide further insights into the nature of water flow and H+ flux across individual apical and basolateral cell membranes. In isolated spontaneous sodium-transporting frog skin epithelia, lowering the pH of the apical solution from 7.4 to 6.4, 5.5, or 4.5 produced a fall in pHi in principal cells which was completely blocked by amiloride (50 microM), indicating that apical Na+ channels are permeable to protons. When sodium transport was blocked by amiloride, the H+ permeability of the apical membranes of principal cells was negligible but increased dramatically after treatment with antidiuretic hormone (ADH). In the latter condition, lowering the pH of the apical solution caused a voltage-dependent intracellular acidification, accompanied by membrane depolarization, and an increase in membrane conductance and transepithelial current. These effects were inhibited by adding Hg2+ (100 microM) or dicyclohexylcarbodiimide (DCCD, 10(-5) M) to the apical bath. Net titratable H+ flux across frog skin was increased from 30 +/- 8 to 115 +/- 18 neq.h-1.cm-2 (n = 8) after oxytocin treatment (at apical pH 5.5 and serosal pH 7.4) and was completely inhibited by DCCD (10(-5) M). The basolateral membranes of the principal cells in frog skin epithelium were found to be spontaneously permeable to H+ and passive electrogenic H+ transport across this membrane was not affected by oxytocin. Lowering the pH of the basolateral bathing solution (pHb) produced an intracellular acidification and membrane depolarization (and an increase in conductance when the normal dominant K+ conductance of this membrane was abolished by Ba2+ 1 mM). These effects of low pHb were blocked by micromolar concentrations of heavy metals (Zn2+, Ni2+, Co2+, Cd2+, and Hg2+). Lowering pHb in the presence of oxytocin (50 mU/ml) produced a transepithelial current (3 microA.cm-2 at pHb 5.5) which was blocked by 100 microM of Hg2+, Zn2+, or Ni2+ at the basolateral side, and by DCCD (10(-5) M) or Hg2+ (100 microM) from the apical side. The net hydroosmotic water flux (JH2O) induced by oxytocin in frog bladder sacs was blocked by inhibitors of H(+)-adenosine triphosphatase (ATPase). Diethylstilbestrol (DES 10(-5) M), oligomycin (10(-8) M), and DCCD (10(-5) M) prevented JH2O when present in the lumen. These effects cannot be attributed to inhibition of metabolism since cyanide (10(-4) M), or 2-deoxyglucose (10(-3) M) had no effect on JH2O.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Common channels for water and protons at apical and basolateral cell membranes of frog skin and urinary bladder epithelia. Effects of oxytocin, heavy metals, and inhibitors of H(+)-adenosine triphosphatase. 164 38

The effect of oral contraceptives on the neurohypophysis was demonstrated by changes in the plasma level of a posterior pituitary protein. neurophysin. Neurophysins are intraneuronal proteins associated with oxytocin and vasopressin. They have been shown to be released into the bloodstream. The resting plasma level of neurophysin in normal nonpregnant women is 0.69 ng/ml+/-0.7 SD. In women on oral contraceptives, the plasma level is 6.4 ng/ml+/-4.2 SD (P<0.001). Estrogen rather than progesterone causes the elevated neurophysin. The effect is observed within 12-24 h of estrogen administration and disappears 3-11 days after estrogen is discontinued. The results indicate that oral contraceptives act on the neurohypophysis and that estrogen is a potent pharmacologic stimulus useful in studying synthesis and release of neurophysin.
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PMID:Elevation of plasma neurophysin in women on oral contraceptives. 483 90

The concentrations of arginine vasopressin, oxytocin, and their related neurophysins were compared in many areas of postmortem human brain and spinal cord using specific radioimmunoassays. In the hypothalamus the ratio of vasopressin to oxytocin was approximately 3:1, and in the extrahypothalamic areas of the brain the greatest amount of both peptides was present in the locus coeruleus, and to a lesser extent the periaqueductal grey. Vasopressin only was found in the substantia nigra, and globus pallidus. In the medulla, including the nucleus of the solitary tract, the dorsal nucleus of the vagus, and the nucleus of the spinal tract of the trigeminal nerve, the amount of oxytocin was greater than that of vasopressin. In the spinal cord oxytocin predominated over vasopressin to an even greater extent, and reached particularly high values in certain segments of the intermediolateral grey column and dorsal horn. Estrogen-stimulated and nicotine-stimulated neurophysins (ESN and NSN) were both found in large amounts in those areas of the brain and spinal cord where the concentrations of the nonapeptides were greatest, but when the molar ratios of ESN to oxytocin and NSN to vasopressin were compared there was an excess of ESN.
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PMID:Vasopressin, oxytocin and neurophysins in the human brain and spinal cord. 669 76

RIA for the measurement of oxytocin in human plasma is described. Extraction of oxytocin from larger peptides in plasma used acetone precipitation with a 75% +or- 2 SEM recovery of oxytocin. Nonspecific binding of the assay was less than 4% and the minimum level of detection was 0.2 mcU/tube. No cross-reactivity was noted with neurophysins, arginine, or lysine vasopressin. The mean basal level (+or- SEM) of oxytocin in men was 1.80 +or- 0.07 mcU/ml and was not different in normal women (1.71 +or- 0.07 mcU/ml). Changes in posture had no effect on the levels of oxytocin. Samples obtained every 15 minutes over 4 hours showed no pulsatile secretion of oxytocin. In women chronically receiving estrogen as an oral contraceptive, oxytocin was greater than normal (4.59 +or- 0.51 mcU/ml; P0.01). Estrogen-stimulated neurophysin was also elevated *8.45 +or- 1.99 ng/ml; P0.005). Acute ingestion of estrogen caused an increase in the level of oxytocin in plasma by 12 hours and a concomitant elevation of estrogen-stimulated neurophysin. When the neurophysin was isolated from plasma obtained from a subject after ingestion of estrogen, the neurophysin from plasma comigrated on a polyacrylamide gel with a human pituitary standard of estrogen-stimulated neurophsin. In the studies in which neurophysin was elevated, the correlation between the level of oxytocin and the level of estrogen-stimulated neurophysin in plasma was significant (P0.01). The observation that estrogen administration stimulates the release of oxytocin and estrogen-stimulated neurophysin provides additional evidence that this neurophysin is the oxytocin-neurophysin of man.
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PMID:Oxytocin in human plasma: correlation with neurophysin and stimulation with estrogen. 722 98

In three experiments, the initial body weight losses after estrogenization were maintained or lagged the weight gains of the controls by the same amount over 61, 138, and 336 days, respectively. The mean serum corticosterone level of the controls was 56% that of the estrogenized rats 341 days after estrogenization. Water consumption (mg/kg b.w.) approximated 150% that of the controls several weeks following estrogenization, remaining elevated until the end of the experiment. Estrogen treatment produced a higher level of water intake in a few rats similar to that previously observed for mice. During the experimental period for water measurement, food consumption (g/kg b.w.) approximated 115% that of the controls. Gnawing and food-spilling behavior was observed in some of the estrogenized rats. Following vasopressin administration, food intake was lowered the first and second days in one estrogenized group; water intake was lowered the first day in the three control and estrogenized groups. In contrast to studies with Marsh mice, estrogenization did not produce bladder damage in Evans rats, but two showed tubular calcification in the kidneys.
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PMID:Long-term estrogenization in mammals. IV. Body, adrenal, and testes weights; polydipsia; food intake; vasopressin administration; and serum corticosterone levels in estrogenized male Evans rats. 724 68

Using in situ hybridization methods that discriminate mRNAs encoding rat vasopressin V1a, V1b, V2 and oxytocin receptors in hepatic, brain and renal tissues, experiments were done to determine whether estrogen and/or progesterone influence renal vasopressin receptor (VR) or oxytocin receptor (OTR) transcripts. Estrogen induced OTR gene expression in the outer stripe of the outer medulla and increased expression of OTRs in macula densa cells. Outer stripe OTR mRNA peaked with 4 days of estrogen treatment, and decreased to undetectable levels with 31 days of treatment of ovariectomized females. Estradiol's induction of outer stripe OTR mRNA expression was blocked by the antiestrogen, tamoxifen, but was not affected by high levels of circulating oxytocin. A role for OTRs in regulating renal function independently of adrenal steroids was suggested by findings that adrenalectomized males showed high levels of OTR transcripts in outer stripe proximal tubule and cortical macula densa cells after 5 and 10 micrograms/100g of estradiol. Consistent with specialized roles for OTRs during female reproduction, OTR transcripts could not be detected in renal tissues of peri-parturient females, at times when OTR mRNA levels were very high in uterus. OTR gene expression in macula densa cells reappeared 4-8 days into lactation and attained control levels by day 20. Physiological experiments showed that estrogen + oxytocin decreased plasma [Na+] levels in ovariectomized rats at a time when proximal tubule OTR expression is maximal. These data are consistent with 1) cell-specific regulation by estrogen of renal OTR gene expression and 2) the possibility that OTRs may be important mediators of steroid-induced alterations in renal fluid and/or solute reabsorption.
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PMID:Oxytocin receptor gene expression in female rat kidney. The effect of estrogen. 871 83

To elucidate the mechanisms of estrogens-induced relaxation effects on vascular smooth muscle cells, the effects of estrogens and the related hormones were examined in cultured rat thoracic aortic smooth muscle cell lines (A7r5), using the whole-cell voltage clamp technique. The patch pipette was filled with 140 mM CsCl- or KCl-containing internal solution. With CsCl-internal solution, 17beta-estradiol and synthetic estrogens, ethynylestradiol and diethylstilbestrol (0.1-30 mu M) inhibited the Ba2+ inward current (IBa) through the voltage-dependent L-type Ca2+ channel in a concentration-dependent and reversible manner. The potency of the inhibitory effects on IBa was 17beta-estradiol < ethynylestradiol < diethylstilbestrol. 17beta-Estradiol (10 mu M) appeared to reduce the maximal conductance of IBa with only a slight shift of voltage-dependency of inactivation and to affect IBa in a use-independent fashion. On the other hand, testosterone and progesterone (30 mu M) failed to affect IBa. At a holding potential of -40 mV, both vasopressin and endothelin-1 (100 nM) activated a long-lasting inward current. After endothelin-1 (100 nM) activated the current, the additional application of vasopressin (100 nM) could not induce it furthermore, suggesting that each agonist activates the same population of the channels. The reversal potential of the current was about 0 mV and was not significantly altered by replacement of [Cl-]i or [Cl-]0 and the inward current was also observed even when extracellular cations are Ca2+, proposing that it was a Ca2+-permeable non-selective cation channel (IN.S.). La3+ or Cd2+ (1 nM) completely abolished IN.S., however, nifedipine (10 mu M) failed to inhibit it at all. Diethylstilbestrol (1-30 mu M) suppressed the IN.S. evoked by both endothelin-1 and vasopressin in a concentration-dependent manner, while 17beta-estradiol, ethynylestradiol, progesterone and testosterone (30 mu M) failed to inhibit it significantly. In addition, at a holding potential of +0 mV, 17beta-estradiol by itself did not affect the holding currents, and did not inhibit K+ currents evoked by endothelin-1 or vasopressin, possibly due to the Ca2+ release from the storage sites. These results suggest that 17beta-estradiol may play a role in regulating vascular tone, selectively by inhibiting the voltage-dependent L-type Ca2+ current in vascular smooth muscle cells.
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PMID:17beta-Estradiol inhibits the voltage-dependent L-type Ca2+ currents in aortic smooth muscle cells. 875 Jul 27

Estrogen administration has a number of favorable cardiovascular effects, and recent evidence suggests that these include an increase in arterial distensibility. Whether this is also the case for the physiological changes in estrogen production during the menstrual cycle has never been determined, however. In 21 premenopausal healthy women, we continuously measured radial artery diameter and blood pressure by an echo-tracking device and a beat-to-beat finger device, respectively. Arterial distensibility was calculated as distensibility/blood pressure curve. The measurements were made during the follicular, ovulatory, and luteal phases of the menstrual cycle. As expected, compared with the follicular phase, plasma estradiol, follicle-stimulating hormone, luteinizing hormone, and prolactin were increased in the ovulatory phase, whereas progesterone was increased in the luteal phase, together with antidiuretic hormone. Radial artery distensibility was increased in the ovulatory and reduced in the luteal phase, the changes being independent of the small, concomitant blood pressure changes. The arterial wall stiffening seen in the luteal phase was associated with a reduction in the flow-dependent endothelial dilatation of the radial artery as assessed by the hyperemia after short-term ischemia of the hand. Thus, the natural menstrual cycle is characterized by alterations in radial artery distensibility. The mechanisms responsible for this phenomenon remain to be clarified. It is possible, however, that the greater arterial distensibility of the ovulatory phase is due to an estrogen-dependent reduction in vascular smooth muscle tone, whereas the arterial stiffening of the luteal phase depends on vascular smooth muscle contraction due to more complex hormonal phenomena, ie, an endothelial impairment due to estrogen reduction but also to an increase in progesterone and antidiuretic hormone levels.
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PMID:Fluctuations of radial artery distensibility throughout the menstrual cycle. 1044 72

This review of the physiology of ovarian contractility cites the functions of FSH and LH and the contribution of chorionic gonadotropin (HCG) to follicular swelling and rupture. Endogenous estrogen priming seems to be needed for this response. Luteninizing hormone releasing hormone (LHRH) administered during the ovulatory phase also causes changes to occur in ovaries treated with smooth muscle stimulants. A contractile response may be induced by alpha-adrenergic receptors, which confirms the finding of smooth muscle fibers in the ovaries. Spontaneous contractions have also been observed in ovaries removed from animals at estrus. Estrogen activate, progesterone inhibits ovarian contractility. In rabbits and guinea pigs spontaneous activity of the ovary is increased during early pregnancy. Treatment with nor- epinephrine inhibits this. Quiescent ovaries show marked activation with nor-adrenergic compounds such as nor-epinephrine and phenilephrine. Pretreatment with alpha-adrenergic blocking agents such as progranolol reverses this effect. Prostaglandin F-2-alpha is a more powerful stimulant on ovarian motility than vasopressin or oxytocin. The role of ovarian contractions in the reproductive function is still unknown. Further studies may provide ways of interfering with reproduction at the ovarian level.
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PMID:Ovarian contractility and ovulation. 1225 6

The vertebrate hypothalamus and surrounding region contain a large population of cells expressing tyrosine hydroxylase (TH), the rate limiting enzyme for synthesis of dopamine and other catecholamines. Some of these populations are sexually dimorphic in rats. We here examined sex differences in TH-immunoreactive populations in the forebrain of gonadally intact and gonadectomized prairie voles (Microtus ochrogaster), a species that sometimes shows unusual sexual differentiation of brain and behavior. A sex difference was found in the anteroventral periventricular preoptic area (AVPV; likely analogous to the rat rostral A14) only in gonadectomized subjects, which was due to a 50% reduction in the number of TH-immunoreactive cells after castration in males. There was no significant sex difference or effects of gonadectomy on the number of TH-immunoreactive cells in the anteroventral preoptic area (AVP), periventricular anterior hypothalamus (caudal A14), arcuate nucleus (A12), zona incerta (A13), or posterodorsal hypothalamus (A11). In a second experiment, testosterone propionate (TP; 500 microg), diethylstilbestrol (DES; 1 microg), or estradiol benzoate (EB; 30 microg) injected daily during the first week after birth each significantly reduced later TH expression in the AVPV of females by approximately 40-65% compared to oil-treated controls. Unlike rats, therefore, a sex difference in TH expression in the prairie vole AVPV is found only after removal of circulating gonadal hormones in males. Furthermore, unlike our previous findings on the generation of sex differences in extra-hypothalamic arginine-vasopressin expression in prairie voles, TH expression in the AVPV of female prairie voles can be highly masculinized by neonatal exposure to either aromatizable androgens or estrogens.
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PMID:Tyrosine hydroxylase-synthesizing cells in the hypothalamus of prairie voles (Microtus ochrogaster): sex differences in the anteroventral periventricular preoptic area and effects of adult gonadectomy or neonatal gonadal hormones. 1632 16


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