Partial characterization of the cytoplasmic 20 alpha-hydroxysteroid dehydrogenase (EC 1.1.1.149) of the human placenta at term

Effects of nickel chloride on reproduction of the rat and possible antagonistic role of selenium

Nickel (10-100 ppm added as NiCl2) was studied to determine its effects on reproduction of Wistar rats. In nine experimental groups, females, males or both were exposed to nickel in drinking water. In one female group and one male group, the drinking water was also supplemented with 0.3 ppm selenium (added as Na2SeO3). Breeding success and the growth and viability of pups were recorded. Nickel, copper and zinc concentrations in kidneys, liver and skin (with fur) of the females, males and pups were determined with an atomic absorption spectrophotometer. In addition, histology of the male testes (from control and nickel-exposed groups) was studied. The female exposures started 14, 28 or 100 days before copulation and continued during pregnancy and lactation. When the males were exposed (for 28 or 42 days before copulation), NiCl2 reduced both the number of pregnancies and the number of pups born. In the testes, NiCl2 induced shrinkage of the seminiferous tubules, which seemed to close some of the tubules. In the tubules, NiCl2 decreased the number of basal spermatogonia. When the females or both parents were exposed to NiCl2, pup mortality during lactation was high. However, when the females were drinking NiCl2 supplemented with selenium, all the pups survived and development of the total mass of the litters was even better than in the control group. In the same way, in males, selenium supplementation of the drinking water protected those pups that were born; but fertility was lower than with the control treatment. In the tissues studied, nickel accumulated most in the kidneys and then in the liver and skin. In each type of organ, there was a clear dose response relationship. In the pups, in particular, selenium (given to the females) increased the amount of nickel in tissues compared with corresponding administration of nickel without selenium. In summary, selenium seemed to counteract the deleterious effects of NiCl2 on the reproduction of rats.

Changes in 17 beta,20 alpha-hydroxysteroid dehydrogenase activity supporting an increase in the estrogen/progesterone ratio of human fetal membranes at parturition

OBJECTIVE

Our purpose was to measure the activity of the reversible enzyme 17 beta,20 alpha-hydroxysteroid dehydrogenase around parturition with estrogen and progestogen substrates.

STUDY DESIGN

Classic kinetic studies and explant cultures were used to determine kinetic parameters and net enzyme activities in both oxidative and reductive directions for both sets of substrates.

RESULTS

Affinity constant values for estrone, estradiol, and 20 alpha-dihydroprogesterone were 1 to 8 mumol/L. Affinity constant for progesterone was 9 to 25 mumol/L. Maximal velocities for all substrates in the chorion were 20- to 70-fold higher than in amnion and severalfold higher for estrogen substrates compared with the progestins. Around parturition there was a significant change toward net formation of the stronger estrogen (estradiol) and the weaker progestin (20 alpha-dihydroprogesterone), suggesting an increase in the local estrogen/progesterone ratio.

CONCLUSION

The enzyme 17 beta,20 alpha-hydroxysteroid dehydrogenase may be an important regulator of the local estrogen/progesterone ratio in fetal membranes around the time of parturition.

Purification and characterization of a novel form of 20 alpha-hydroxysteroid dehydrogenase from Clostridium scindens

We have purified a steroid-inducible 20 alpha-hydroxysteroid dehydrogenase from Clostridium scindens to apparent homogeneity. The final enzyme preparation was purified 252-fold, with a recovery of 14%. Denaturing and nondenaturing polyacrylamide gradient gel electrophoresis showed that the native enzyme (Mr, 162,000) was a tetramer composed of subunits with a molecular weight of 40,000. The isoelectric point was approximately pH 6.1. The purified enzyme was highly specific for adrenocorticosteroid substrates possessing 17 alpha, 21-dihydroxy groups. The purified enzyme had high specific activity for the reduction of cortisone (Vmax, 280 nmol/min per mg of protein; Km, 22 microM) but was less reactive with cortisol (Vmax, 120 nmol/min per mg of protein; Km, 32 microM) at pH 6.3. The apparent Km for NADH was 8.1 microM with cortisone (50 microM) as the cosubstrate. Substrate inhibition was observed with concentrations of NADH greater than 0.1 mM. The purified enzyme also catalyzed the oxidation of 20 alpha-dihydrocortisol (Vmax, 200 nmol/min per mg of protein; Km, 41 microM) at pH 7.9. The apparent Km for NAD+ was 526 microM. The initial reaction velocities with NADPH were less than 50% of those with NADH. The amino-terminal sequence was determined to be Ala-Val-Lys-Val-Ala-Ile-Asn-Gly-Phe-Gly-Arg. These results indicate that this enzyme is a novel form of 20 alpha-hydroxysteroid dehydrogenase.

Cofactor requirements of steroid-17-20-desmolase and 20 alpha-hydroxysteroid dehydrogenase activities in cell extracts of Clostridium scindens

Two neutral steroid-transforming activities were demonstrated in cell extracts of Clostridium scindens. Steroid-17-20-desmolase and 20 alpha-hydroxysteroid dehydrogenase were found to be inducible in cells cultured in the presence of cortisol. Both activities required manganese ions and NAD+ or NADH for activity. Cortisol, cortisone and 11-desoxycortisol were substrates as well as inducers of steroid-17-20-desmolase and 20 alpha-hydroxysteroid dehydrogenase activities. 17 alpha-Hydroxyprogesterone was an effective inducer but did not serve as a substrate for either enzyme activity. C. scindens is the first bacterial species of the normal human intestinal flora reported to elaborate inducible steroid-17-20-desmolase and 20 alpha-hydroxysteroid dehydrogenase activities. The results of cofactor, substrate specificity and induction studies suggest that these two activities may reside in the same enzyme complex.

Regulation of human placental progesterone synthesis in vitro by naturally occurring steroids

A regulatory model of human placental progesterone synthesis is based on studies with isolated placental enzymes. Steroids causing a dose-dependent inhibition are listed in the standing order of their inhibitory potency (I50 (microM)/Ki value (microM)/type of inhibition: c = competitive and nc = non competitive). Cholesterol side chain cleavage enzyme (mitochondria): Mainly regulated by hydroxylated cholesterol derivates. No inhibition was observed by cholesterylesters and by other naturally occurring steroids tested. 5-ene-3 beta-hydroxysteroid dehydrogenase-isomerase (mitochondria): 6 beta-hydroxyprogesterone (nc), dehydroepiandrosterone (0.32/0.82/c), 20 alpha-dihydroprogesterone (0.38/-/nc), progesterone (0.46/-), estrone (0.56/0.1/c), estradiol (0.1/0.8/c), 17 alpha-hydroxyprogesterone (2.1/-/nc), 17 alpha-hydroxypregnenolone (0.4/-/c), dehydroepiandrosterone sulfate (2.5/-/c), cortisone (5.0/-), cortisol (100/-). 20 alpha-hydroxysteroid dehydrogenase (cytoplasmic): estrone (0.26/0.7/c), estradiol (0.28/0.9/c), pregnenolone (4.4/9.2/c), 5 alpha-pregnan-3 beta-ol-20-one (4.6/-/nc), estriol (5.1/11.5/c); dehydroepiandrosterone (7.2/14.0/c), 5 alpha-dihydrotestosterone (26.0/-/nc), progesterone (33.0/48.0/c), dehydroepiandrosterone sulfate (50.0/23.0/nc), and testosterone (59.0/63.0/c). An autoregulatory mechanism of placental progesterone synthesis is postulated which is in good agreement with data published by others proving that placental progesterone synthesis is independent of the endocrine organs of the mother and the fetus.

Inhibition of human placental progesterone synthesis by danazol in vitro

In vitro, danazol showed a slight dose-dependent inhibition of the mitochondrial cholesterol side chain cleavage enzyme isolated from early gestational (8th to 12th week of gestation) placenta. In the presence of 100 microM danazol, the enzyme activity was 65% of controls. Danazol inhibits dose-dependently the mitochondrial 3 beta-hydroxysteroid dehydrogenase (I50 = 3.1 microM; Ki = 1 microM) (noncompetitive inhibition) and the cytoplasmic 20 alpha-hydroxysteroid dehydrogenase (I50 = 1.4 microM; Ki = 2.6 microM) (competitive inhibition). The inhibition of human placental progesterone synthesis by danazol in vitro is a further example for the direct interference of danazol with steroidogenesis.

Inhibition of human placental progesterone synthesis and aromatase activity by synthetic steroidogenic inhibitors in vitro

The inhibitory effect in vitro of four synthetic steroids on enzyme systems of placental progesterone synthesis at term was analyzed. Cholesterol side chain cleavage enzyme (CSCC) was not influenced by azastene, trilostane, and WIN 32,729. A 50% inhibition of CSCC was found by 10 microM cyanoketone. The 3 beta-hydroxysteroid dehydrogenase was dose-dependently inhibited by azastene (I50 = 1 microM, trilostane (I50 = 4 nM), cyanoketone (I50 = 3 nM), and WIN 32,729 (I50 = 5 nM). A competitive inhibition of the 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSDH) by azastene (I50 = 0.6 microM), trilostane (I50 = 4.1 microM), cyanoketone (I50 = 0.6 microM), and WIN 32,729 (I50 = 1.5 microM) was observed. No difference in the effect of steroids on the 20 alpha-HSDH of early gestational and term placenta was found. The four steroidogenic inhibitors did not affect the activity of placental aromatase in vitro. Our results allow a comparison of inhibitory potencies of four steroidogenic inhibitors on different steroidogenic enzymes in vitro.

Characterization of human cholesterol side chain cleavage enzyme (EC 1.14.15x) of human term placental mitochondria

The cholesterol side chain cleavage enzyme (EC 1.14.15x) in mitochondria of a human term placenta was partially characterized. Enzyme activity was determined by separation of [26-14C]-cholesterol and [5-14C]-isocaproic acid formed by side chain cleavage. Since the amounts of unlabeled cholesterol were too large, a KM of cholesterol could not be determined. The apparent KM value of NADPH is 6.25 x 10(-4) M. A pH optimum was found at pH 9.5 (Tris buffer) and a temperature optimum at 40 C. The metal ions Sr2+ and Ba2+ showed no inhibition at 1 and 10 mM and a moderate inhibition at 100 mM. In low concentrations (1 mM), Mg2+ and Ca2+ slightly stimulated the enzyme whereas in higher concentrations (100 mM) an inhibitory effect was observed. A strong inhibition was achieved with 1 mM Zn2+, Cd2+, Cu2+ and by 10 and 100 mM Fe2+, Mn2+, Co2+ and Ni2+. During preincubation of the enzyme without radioactive substrate, a rapid loss in enzyme activity in relation to enzyme concentration was observed (initial activity = 100%) (preincubation time in hours): 0.5 h (97%), 1 h (55%) and 1.5 h (34%). A dose-dependent inhibition of the enzyme by the following proteins was achieved: bovine serum protein, human serum protein, human immunoglobulin G and ovalbumin. Furthermore, a dose-dependent inhibition was found with the membrane lipids lecithin and sphingosine.

The role of prostaglandins, cyclic nucleotides and tricarboxylic acids in the regulation of the human placental 20 alpha-hydroxysteroid dehydrogenase in vitro

The in vitro effect of non-steroidal regulators (prostaglandins, cyclic nucleotides and tricarboxylic acids) on the cytoplasmic 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSDH, EC 1.1.1.149) isolated from human early gestational and term placentas was investigated. When prostaglandins (PG) were tested at 100 microM concentrations, an inhibition of the human placental 20 alpha-HSDH by PGE1 (80% inhibition), PGE2 (70%), PGF1 alpha (40%) PGF2 alpha (30%) and 13,14-dihydro-15-keto-PGF2 (PGFM) (20%) was observed. This effect was shown to be dose-dependent. The I50 (concentration at 50% inhibition) was determined for PGE1 and PGE2 to be 11 microM and 38 microM, respectively. No effect on the activity of the 20 alpha-HSDH could be demonstrated for PGI2 and its stable metabolite 6-keto-PGF1 alpha, for the cyclic nucleotides (dbcAMP, dbcGMP) and for the tricarboxylic acids (citrate, ketoglutarate, lactate, malonate, pyruvate and succinate) when added to the incubation at 100 microM concentration. The 20 alpha-HSDH isolated from early gestational and term placentas did not respond differently to the substances tested. These results suggest that prostaglandins can have a direct, dose-dependent effect on the isolated human placental 20 alpha-HSDH without cyclic nucleotides as intermediates and thereby play a role in the regulation of human progesterone synthesis and metabolism during pregnancy and near term.

Endogenous inhibition of the 20 alpha-hydroxysteroid dehydrogenase (EC 1.1.1.149) in the human term placenta in vitro

Human placental 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSDH) interconverts progesterone and 20 alpha-dihydroprogesterone (20 alpha-DHP). In this study, an endogenous inhibitor of the cytoplasmic 20 alpha-HSDH isolated from human term placenta is demonstrated. Characterization of the endogenous inhibitor was carried out by adding heat-denatured fractions of the 20 alpha-HSDH enzyme stock solution to the incubations. The aqueous phase of the 20 alpha-HSDH (after diethylether extraction) using 8-fold concentration of the enzyme inhibited the 20 alpha-HSDH activity by 50%. After ultrafiltration of the aqueous phase, this inhibitory effect (50%) was found in the aqueous fraction with a molecular weight above 12,800. No inhibition of the 20 alpha-HSDH was shown using the ether phase or the aqueous ultrafiltrate with a molecular weight below 12,800. The 20 alpha-HSDH was stimulated by human and bovine serum albumins up to 290% and 420% respectively. Bovine serum albumin showed a higher stimulatory effect on the oxidative (420%) than on the reductive (190%) pathway of the 20 alpha-HSDH. Ovalbumin and immunoglobulin G had no effect. The endogenous inhibitor of the cytoplasmic 20 alpha-HSDH isolated from the human term placenta is heat stable (100 degrees C), water soluble, not soluble in diethylether and has a molecular weight above 12,800. The stimulatory effect of serum albumins in 20 alpha-HSDH may be caused by binding and inactivation of the endogenous inhibitor.