Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01178 (oxytocin)
 15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Placental steroid sulfatase deficiency is an unusual cause of low estriol production during pregnancy. Its importance lies in the differentiation of this disorder from the more ominous fetal defects that result in low estriol levels. Serum free estriol levels were found to be low or absent in a 25-year-old gravida 3, para 2 woman, while placental lactogen and chorionic gonadotropin levels were normal. An abdominal x-ray revealed no apparent congenital abnormalities and an oxytocin challenge test was negative. The dehydroepiandrosterone sulfate (DHEA-S) level in the patient's amniotic fluid was 6.8 to 18.4 times greater than those found in control amniotic fluids. The patient's amniotic fluid cortisol level was normal. Twenty-four hours following a normal, spontaneous labor and delivery at 39 weeks, the male infant underwent a synthetic ACTH1-24 stimulation test, with serum cortisols rising from 3.7 to 46 mug/dl at 1 hour. The placenta was morphologically normal on gross, light, and electron microscopic examinations. Steroid 3-alcohol sulfatase and arylsulfatase activities in the patient's placenta were virtually absent. These data indicate that this benign cause of low serum estriol levels may be diagnosed prenatally by elevated amniotic fluid DHEA-S levels.
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PMID:Prenatal diagnosis of placental steroid sulfatase deficiency. 13

Homogeneous preparations of decidual cells were obtained from term decidual tissue adherent to fetal membranes by using a slightly modified version of a technique developed for the isolation of decidual cells from first and second trimester decidua. The effects of human PRL (hPRL) and oxytocin on the kinetics of the hydrolysis of estrone sulfate were determined in decidual cells prepared from tissue obtained before and after the onset of labor. In addition, sulfatase activity in decidual cells isolated from term decidua was compared with those of chorionic cells isolated from chorion leave of the same pregnancy. Chorionic cells had significantly higher (mean, 2.5-fold) levels of sulfatase activity than the corresponding decidual cells. The mean sulfatase activity in decidual cells obtained after normal vaginal delivery [25 +/- 19 (+/- SE) nmol/mg protein X 15 min) was higher than that in decidual cells obtained from patients undergoing cesarean section before the onset of labor (1.7 +/- 0.11). This difference was significant (P less than 0.02, by Mann-Whitney test) in spite of the large variation in activity in preparations from vaginal deliveries. hPRL (500 ng/ml) and oxytocin (0.2 microM) had similar effects on sulfatase activity in decidual cells in a manner dependent on whether the cells were isolated from tissue obtained before or after labor. In cells isolated from fetal membranes obtained before labor (cesarean delivery), hPRL or oxytocin significantly stimulated sulfatase activity, whereas in decidual cells obtained after vaginal delivery, both hPRL and oxytocin significantly inhibited sulfatase activity. The Michaelis constants for the hydrolysis of estrone sulfate (Km, 22 +/- 4.8 microM) were not affected by these hormones. Since the mean sulfatase activity of decidual cells obtained before labor was approximately 10-fold higher than the activity reported for endometrial stromal cells, PRL produced by decidual cells may act in vivo as an autocrine factor to stimulate their sulfatase activity.
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PMID:In vitro effects of human prolactin and oxytocin on sulfatase activity in isolated human decidual cells. 373 40