Expression of human 17β-hydroxysteroid dehydrogenase in mammalian cells

The insert of 1278 bp containing the entire coding region of cDNA encoding human 17β-hydroxysteroid dehydrogenase (17β-HSD) was inserted into a pHS1 vector and expressed in HeLA human cervical carcinoma cells and COS-1 monkey kidney tumor cells. Western blot analysis indicated that the expressed protein migrates at the same position as the purified enzyme and is recognized by the antibody raised against purified human placental 17β-HSD. The expressed enzyme efficiently catalyzes the interconversion of estrone and estradiol while dehydroepiandrosterone and 5-androstene-3β,17β-diol are interconverted at a lower rate. The present data suggest the existence of two 17β-HSDs.     

Human 17β-hydroxysteroid dehydrogenase: overproduction using a baculovirus expression system and characterization

Estrogenic 17β-hydroxysteroid dehydrogenase (17β-HSD) plays a pivotal role in the synthesis of estrogens. We overproduced human placental estrogenic 17β-HSD using a baculovirus expression system for the study of the enzyme mechanism. A cDNA encoding the entire open reading frame of human 17β-HSD was inserted into the genome of Autographa californica nuclear polyhedrosis virus and expressed in Spodoptera frugiperda (Sf9) insect cells. Metabolic labeling and Western blot analysis using polyclonal antibodies raised against native human 17β-HSD indicated that a molecule with an apparent mass of 35 kDa was maximally expressed 60 h after infection. At that time interval, intracellular 17β-HSD activity reached 0.26 U/mg of protein in crude homogenate, about 70 times the level measured in human placenta. Purification of recombinant 17β-HSD was achieved by a single affinity fast liquid protein chromatography step yielding 24 mg of purified 17β-HSD protein per liter of suspension culture, with a specific activity of about 8 μmol/min/mg of protein for conversion of estradiol into estrone, at pH 9.2. In addition, the recombinant protein purified from infected Sf9 cells was assembled as a dimer with molecular mass and specific activity identical to those of the enzyme purified directly from placenta. The present data show that the baculovirus expression system can provide active 17β-HSD that is functionally identical to its natural counterpart and easy to purify in quantities suitable for its physico-chemical studies.     

Over-expression of human type I (placental) 3β-hydroxy-5-ene-steroid dehydrogenase/isomerase in insect cells infected with recombinant baculovirus

Human type I placental 3β-hydroxy-5-ene-steroid dehydrogenase/steroid 5→4-ene-isomerase (3β-HSD/isomerase) synthesizes androstenedione from fetal dehydroepiandrosterone and progesterone from pregnenolone. The full length cDNA that encodes type I 3β-HSD/isomerase was inserted into the baculovirus, Autographa californica multiple nucleocapsid polyhedrosis virus, and expressed in Spodoptera fungiperda (Sf-9) insect cells. Western blots showed that the baculovirus-infected Sf-9 cells produced an immunoreactive protein that co-migrated with purified placental 3β-HSD/isomerase. Ultracentrifugation localized the expressed enzyme activities in all the membrane-associated organelles of the Sf-9 cell (nuclear, mitochondrial and microsomal). Kinetic studies showed that the expressed enzyme has 3β-HSD and isomerase activities. The Michaelis-Menton constant is very similar for the 3β-HSD substrate, 5-androstan-3β-o1-17-one, in the Sf-9 cell homogenate (K_m = 17.9 μM) and placental microsomes (K_m = 16.7 μM). The 3β-HSD activity (V_max = 14.5 nmol/min/mg) is 1.6-fold higher in the Sf-9 cell homogenate compared to placental microsomes (V_max = 9.1 nmol/min/mg). The K_m values are almost identical for the isomerase substrate, 5-androstene-3,17-dione, in the Sf-9 cell homogenate (K_m = 14.7 μM) and placental microsomes (K_m = 14.4 μM). The specific isomerase activity is 1.5-fold higher in the Sf-9 cells (V_max = 25.7 nmol/min/mg) relative to placenta (V_max = 17.2 nmol/min/mg). These studies show that our recombinant baculovirus system over-expresses fully active enzyme that is kinetically identical to native 3β-HSD/isomerase in human placenta.     

NAD(+)-dependent 15-hydroxyprostaglandin dehydrogenase: immunochemical characterization of the lung enzyme from pregnant rabbits

A polyclonal antibody was produced in guinea pig against the lung NAD(+)-dependent 15-hydroxyprostaglandin dehydrogenase (PGDH) purified from pregnant rabbits. Western blot analysis demonstrated that the protein identified by this antibody in the 105,000g supernatant fraction of lung tissue from pregnant rabbits had a molecular mass of 30 kDa and comigrated with the purified PGDH. The specific activity of the lung PGDH in pregnant rabbits (25- to 28-day gestations) was 36.7 nmol NADH formed/min/mg protein compared to 0.3 nmol NADH formed/min/mg protein in nonpregnant rabbits. Although the PGDH activity in the lung cytosol of nonpregnant rabbits was inhibited by the anti-lung PGDH antibody, the 30-kDa protein was not detected by Western blot analysis. An examination of this 30-kDa protein during the gestational period indicated that the protein was present after 10 days and the amount of the protein increased from Day 10 to Day 28. This increase in the immunochemically reactive protein correlated with the marked increase in PGDH specific activity between 10 and 28 days. An immunochemically reactive protein also was observed in the ovary of 25- to 28-day pregnant rabbits and the specific activity of the ovary PGDH was 19.3 nmol NADH formed/min/mg protein. Only trace levels of the PGDH activity were detected in the ovaries of nonpregnant rabbits. A 30-kDa protein was not detected by the anti-rabbit lung PGDH in brain, kidney, bladder, uterus, liver, and heart tissue of pregnant or nonpregnant rabbits. When rabbit or human placental cytosol was examined with the anti-rabbit lung PGDH only faint 30-kDa bands were observed by Western blot analysis. A monoclonal antibody prepared against human placental PGDH did not recognize the 30-kDa band in the pregnant rabbit lung. Localization studies indicated a marked increase in immunochemical staining in pulmonary epithelial cells of pregnant rabbits as compared to nonpregnant rabbits. Lung epithelial cells but not endothelial cells were identified as containing the PGDH.     

Site-directed Mutagenesis Identifies Amino Acid Residues Associated with the Dehydrogenase and Isomerase Activities of Human Type I (Placental) 3β-Hydroxysteroid Dehydrogenase/Isomerase

3β-Hydroxysteroid dehydrogenase/steroid Δ^{5 → 4}-isomerase (3β-HSD/isomerase) was expressed by baculovirus in Spodoptera fungiperda (Sf9) insect cells from cDNA sequences encoding human wild-type I (placental) and the human type I mutants - H261R, Y253F and Y253,254F. Western blots of SDS-polyacrylamide gels showed that the baculovirus-infected Sf9 cells expressed the immunoreactive wild-type, H261R, Y253F or Y253,254F protein that co-migrated with purified placental 3β-HSD/isomerase (monomeric M_r=42,000 Da). The wild-type, H261R and Y253F enzymes were each purified as a single, homogeneous protein from a suspension of the Sf9 cells (5.01). In kinetic studies with purified enzyme, the H261R mutant enzyme had no 3β-HSD activity, whereas the K_m and V_max values of the isomerase substrate were similar to the values obtained with the wild-type and native enzymes. The V_max (88 nmol/min/mg) for the conversion of 5-androstene-3,17-dione to androstenedione by the Y253F isomerase activity was 7.0-fold less than the mean V_max (620 nmol/min/mg) measured for the isomerase activity of the wild-type and native placental enzymes. In microsomal preparations, isomerase activity was completely abolished in the Y253,254F mutant enzyme, but Y253,254F had 45% of the 3β-HSD activity of the wild-type enzyme. In contrast, the purified Y253F, wild-type and native enzymes had similar V_max values for substrate oxidation by the 3β-HSD activity. The 3β-HSD activities of the Y253F, Y253,254F and wild-type enzymes reduced NAD⁺ with similar kinetic values. Although NADH activated the isomerase activities of the H261R and wild-type enzymes with similar kinetics, the activation of the isomerase activity of H261R by NAD⁺ was dramatically decreased. Based on these kinetic measurements, His²⁶¹ appears to be a critical amino acid residue for the 3β-HSD activity, and Tyr²⁵³ or Tyr²⁵⁴ participates in the isomerase activity of human type I (placental) enzyme.     

Fatty acid binding proteins in the three types of rat skeletal muscle

By means of Sephadex G-50 column chromatography, a Mr 12,000 fatty acid binding protein (FABP) was found to be present in all three types of skeletal muscle. FABP concentrations in muscle cytosols (105,000g supernatant) were fiber type specific with binding levels (expressed as pmole [14C]oleate bound/mg protein) of 70 +/- 7 in fast-twitch white (FTW) (heart FABP = 469 +/- 33). Cytosols from all three fiber types cross-reacted with antibody to pure heart FABP on Ouchterlony immunodiffusion analysis. FABP content, determined by radial immunodiffusion, followed the same pattern in the muscle types as that in the binding assay. The values (in micrograms/mg protein) were 3.3 +/- 0.1 in FTW, 17.0 +/- 0.4 in FTR, and 31.7 +/- 1.4 in STR fibers (heart = 55). Disc gel electrophoresis revealed a protein band in each fiber type that had migration identical to that of pure heart FABP and was proportional to the amounts determined by Sephadex G-50 chromatography and immunoassay. In addition, Western blots of tissue cytosols, using antibody to heart FABP, detected single protein bands identical in size to pure heart FABP in all three types of skeletal muscle. These results show the presence of a FABP in all skeletal muscle types with an immunologic and electrophoretic characterization identical to that of heart FABP.     

Metallothionein-I in the plasma and liver of neonatal rats.

The concentrations of metallothionein-I in the plasma and liver of neonatal rats were measured by radioimmunoassay. Plasma concentrations of the protein in male and female 4-day-old rats were 350 and 740 ng/ml respectively, and declined rapidly to only 3.5 ng/ml at 32 days of age. Concentrations in liver were also high in the newborn rats (200 micrograms/g), and declined from 12 days of age onwards.     

Purification of recombinant human secretory phospholipase A2 (group II) produced in long-term immobilized cell culture.

Recombinant human secretory phospholipase A2 (Group II) was expressed in long-term culture of immobilized Chinese hamster ovary cells utilizing a continuous-perfusion airlift bioreactor. The bioreactor was continuously perfused with cell-culture medium supplemented with 5% fetal calf serum at an average flow rate of 5 liters/day for 30 days. Recombinant phospholipase A2, at concentrations ranging from 100 to 500 micrograms/liter, was purified to apparent homogeneity by an efficient two-step procedure involving a silica-based cation-exchange resin and hydrophobic interaction chromatography (greater than 65% recovery of phospholipase A2). The purified recombinant protein has an apparent molecular weight of 16 kDa, identical to that of purified human placental or synovial fluid phospholipase A2, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Application of the purified protein onto several different gel filtration columns resulted in elution of the protein at molecular weights corresponding to 3.1-4.7 kDa, suggesting an interaction of the protein with the column resins. However, analytical ultracentrifugation experiments revealed that the protein behaves as a monomer (13.8-14.2 kDa) over a protein concentration range of approximately 10 micrograms/ml to 5 mg/ml. With autoclaved Escherichia coli membranes as substrate, the recombinant protein has catalytic properties (pH optimum, effects of bovine serum albumin, sodium chloride concentration, and requirement for calcium) similar to those of the protein purified from human placenta.     

3β-hydroxysteroid dehydrogenase activity in tissues of the human fetus determined with 5α-androstane-3β,17β-diol and dehydroepiandrosterone as substrates

3β-Hydroxysteroid dehydrogenase (3β-HSD)/Δ^5→4-isomerase activity in steroidogenic tissues is required for the synthesis of biologically active steroids. Previously, by use of dehydroepiandrosterone (3β-hydroxy-5-androsten-17-one, DHEA) as substrate, it was established that in addition to steroidogenic tissues 3β-HSD/Δ^5→4-isomerase activity also is expressed in extraglandular tissues of the human fetus. In the present study, we attempted to determine whether the C-5,C-6-double bond of DHEA serves to influence 3β-HSD activity. For this purpose, we compared the efficiencies of a 3β-hydroxy-5-ene steroid (DHEA) and a 3β-hydroxy-5α-reduced steroid (5α-androstane-3β,17β-diol, 5α-A-diol) as substrates for the enzyme. The apparent Michaelis constant (K_m) for 5α-A-diol in midtrimester placenta, fetal liver, and fetal skin tissues was at least one order of magnitude higher than that for DHEA, viz the apparent K_m of placental 3β-HSD for 5α-A-diol was in the range of 18 to 40 μmol/l (n = 3) vs 0.45 to 4 μmol/l for DHEA (n = 3); for the liver enzyme, 17 μmol/l for 5α-A-diol and 0.60 μmol/l for DHEA, and for the skin enzyme 14 and 0.18 μmol/l, respectively. Moreover, in 13 human fetal tissues evaluated the maximal velocities obtained with 5α-A-diol as substrate were higher than those obtained with DHEA. A similar finding in regard to K_ms and rates of product formation was obtained by use of purified placental 3β-HSD with DHEA, pregnenolone, and 3β-hydroxy-5α-androstan-17-one (epiandrosterone) as substrates: the K_m of 3β-HSD for DHEA was 2.8 μmol/l, for pregnenolone 1.9 μmol/l, and for epiandrosterone 25 μmol/l. The specific activity of the purified enzyme with pregnenolone as substrate was 27 nmol/mg protein·min and, with epiandrosterone, 127 nmol/mg protein·min. With placental homogenate as the source of 3β-HSD, DHEA at a constant level of 5 μmol/l behaved as a competitive inhibitor when the radiolabeled substrate, [³H]5α-A-diol, was present in concentrations of 20 to 60 μmol/l, but a lower substrate concentrations the inhibition was of the mixed type; similar results were obtained with [³H]DHEA as the substrate at variable concentrations in the presence of a fixed concentration of 5α-A-diol (40 μmol/l). These findings are indicative that both steroids bind to a common site on the enzyme, however, the binding affinity for these steroids appear to differ markedly as suggested by the respective K_ms. Studies of inactivation of purified placental 3β-HSD/Δ^5→4-isomerase by an irreversible inhibitor, viz 5,10-secoestr-4-yne-3,10,17-trione, were suggestive that the placental protein adopts different conformations depending on whether the steroidal substrate has a 5α-configuration, e.g. epiandrosterone, or a C-5,C-6-double bond e.g. DHEA or pregnenolone. The lower rates of product formation obtained with placenta and fetal tissues by use of 3β-hydroxy-5-ene steroids as substrates when compared with those obtained with 3β-hydroxy-5α-reduced steroids may be explained by a combination of factors, including: (i) inhibition of 3β-HSD activity by end products of metabolism of 3β-hydroxy-5-ene steroids, e.g. 4-androstene-3,17-dione formed with DHEA as substrate; (ii) higher binding affinity of the enzyme for 3β-hydroxy-5-ene steroids—and possibly for their 3-oxo-5-ene metabolites; (iii) lack of a requirement for the isomerization step with 5α-reduced steroids as substrates, and (iv) the possible presence in fetal tissues of an enzyme with 3β-HSD activity only (i.e. no Δ^5→4-isomerase).     

Tyrosinase of hamster melanoma: its purification and estimation by radioimmunoassay

1. Tyrosinase was purified from melanosomal fraction of hamster melanoma. 2. A radioimmunoassay was developed to quantitate the tyrosinase protein in hamster serum and hamster melanoma tissue using polyclonal anti-tyrosinase antibodies and 125I-labeled enzyme. 3. The serum tyrosinase levels were found to be about 0.24 micrograms and 1.14-4.48 micrograms/ml in normal hamsters and melanoma-bearing hamsters, respectively. 4. Tyrosinase protein in serum correlated significantly with the enzyme activity in hamsters with melanoma (r = 0.733). 5. In the cytosol fraction of hamster melanoma, a level of 2.2 micrograms of tyrosinase/mg protein was determined. 6. The usefulness and possible applications of the tyrosinase radioimmunoassay are discussed.     

Purification and immunological characterization of human placental mitochondrial cytochrome P-450

Human placental mitochondrial cytochrome P-450 was purified to electrophoretic homogeneity by hydrophobic, anion exchange and cation exchange column chromatography. The specific content of the purified protein was 15.7 nmol/mg protein and it showed a single band mol. wt 48,000 D in SDS-gel electrophoresis. When reconstituted with bovine adrenal adrenodoxin reductase and adrenodoxin it converted cholesterol to pregnenolone (cholesterol side-chain cleavage activity, CSCC) at the rate of 1 pmol/min/pmol P-450. Antibodies against the purified protein were raised in rabbits. Inhibition studies demonstrated 85% inhibition of placental CSCC activity at an antibody/protein ratio of 10:1. Placental microsomal aromatase activity was inhibited by 47% at the same antibody/protein ratio. The antibody inhibited bovine mitochondrial CSCC activity by 87% at the same antibody/protein ratio. Placental microsomal 7-ethoxycoumarin O-deethylase, aryl hydrocarbon hydroxylase and 7-ethoxyresorufin O-deethylase activities were not significantly inhibited by the antibody. The results indicate that the purified protein catalyzes cholesterol side-chain cleavage reaction, human placental microsomal aromatase and bovine adrenal mitochondrial P-450scc may share common antigenic determinants with placental P-450scc, but the placental microsomal xenobiotic-metabolizing cytochrome(s) is (are) distinctly different.     

Caffeine reduces 11β-hydroxysteroid dehydrogenase type 2 expression in human trophoblast cells through the adenosine A(2B) receptor

Maternal caffeine consumption is associated with reduced fetal growth, but the underlying molecular mechanisms are unknown. Since there is evidence that decreased placental 11β-hydroxysteroid dehydrogenase type 2 (11β-HSD2) is linked to fetal growth restriction, we hypothesized that caffeine may inhibit fetal growth partly through down regulating placental 11β-HSD2. As a first step in examining this hypothesis, we studied the effects of caffeine on placental 11β-HSD2 activity and expression using our established primary human trophoblast cells as an in vitro model system. Given that maternal serum concentrations of paraxanthine (the primary metabolite of caffeine) were greater in women who gave birth to small-for-gestational age infants than to appropriately grown infants, we also studied the effects of paraxanthine. Our main findings were: (1) both caffeine and paraxanthine decreased placental 11β-HSD2 activity, protein and mRNA in a concentration-dependent manner; (2) this inhibitory effect was mediated by the adenosine A(2B) receptor, since siRNA-mediated knockdown of this receptor prevented caffeine- and paraxanthine-induced inhibition of placental 11β-HSD2; and (3) forskolin (an activator of adenyl cyclase and a known stimulator of 11β-HSD2) abrogated the inhibitory effects of both caffeine and paraxanthine, which provides evidence for a functional link between exposure to caffeine and paraxanthine, decreased intracellular levels of cAMP and reduced placental 11β-HSD2. Taken together, these findings reveal that placental 11β-HSD2 is a novel molecular target through which caffeine may adversely affect fetal growth. They also uncover a previously unappreciated role for the adenosine A(2B) receptor signaling in regulating placental 11β-HSD2, and consequently fetal development.     

Efficient purification of somatomedin-C/insulin-like growth factor I using immunoaffinity chromatography

Somatomedin-C/insulin-like growth factor I was purified from human plasma using a monoclonal antibody affinity column. Combining immunoaffinity chromatography with standard protein purification methods resulted in an overall recovery of 18%. The 35 micrograms of somatomedin-C/insulin-like growth factor I purified from 500 ml of plasma appeared as a single band when analyzed by polyacrylamide gel electrophoresis and could be used in radioimmunoassay and receptor binding studies.     

Detection of monoclonal antibody to high-mobility-group protein 17 from chick oviduct.

Total chromosomal HMG (high-mobility-group) proteins have been isolated from oestrogen-stimulated chick oviduct. The antibodies against these proteins were induced in mice and subsequently their spleen cells were fused with myeloma cells to form hybridomas. A highly purified HMG protein, 17, was used to select for the hybridomas that produce antibody against HMG protein 17. The hybridomas were cultured and injected into mice to produce ascites. The antibody against HMG protein 17 in the IgG (immunoglobulin G) fraction of the ascites fluid was obtained by Protein A-Sepharose column chromatography. We have devised a solid-phase radioimmunoassay and enzyme-linked serological assay for the detection and characterization of this antibody directed against HMG protein 17. This anti-(HMG protein 17) IgG interacted only with HMG protein 17, but not with other chromosomal proteins, e.g. histone H1, "95K protein' (a chick oviduct-specific chromosomal protein) and HMG proteins 1, 2 and 14. The monospecific nature of this anti-(HMG protein 17) IgG fraction is confirmed.     

Estradiol 17β-dehydrogenase and 20α-hydroxysteroid dehydrogenase from human placental cytosol: one enzyme with two activities?

The soluble enzyme estradiol 17β-dehydrogenase (17β-ED) from human term placental cytosol is reported to be a stereospecific oxidoreductase for estrogen substrates. A published purification scheme (heat treatment and affinity chromatography) yielded a homogeneous protein which had the reported characteristics of pure 17β-ED and also had 20α-hydroxysteroid dehydrogenase (20α-HSD) activity. Spectrophotometric assay when the buffer contained albumin, 8 mg/ml, masked the 20α-HSD activity observed in albumin-free conditions and may explain why this bifunctional activity has gone unrecognized. In human placenta, one enzyme may catalyze stereospecific oxidation/reduction of both estrogen and progesterone.     

Isolation and characterization of thrombomodulin from human placenta

Protein C, a plasma protein, is activated by thrombin to a protease (protein Ca) that functions as a physiological anticoagulant. We have isolated thrombomodulin, a cofactor required for the rapid activation of protein C, from human placenta. The purification to near homogeneity was achieved using a crude Triton-solubilized protein fraction from a placental particulate fraction as starting material. Chromatography on DEAE-Sepharose removed 95% of the protein and achieved a 3-fold purification. Thrombomodulin was then isolated by affinity chromatography on a column of thrombin-Sepharose wherein the thrombin had been previously inactivated with diisopropyl fluorophosphate. The final preparation was purified 7,900-fold over the membrane extract with a yield of 7%. We obtained 0.88 mg of thrombomodulin from 100 g of membrane extract derived from 5 kg of placenta. The protein was nearly homogeneous as judged by electrophoresis on 10% acrylamide sodium dodecyl sulfate gels in the presence of 2-mercaptoethanol with an apparent Mr = 105,000. Western blot analysis without 2-mercaptoethanol gave an apparent Mr = 75,000. The protein stimulated the rate of protein C activation by thrombin 800-fold to 10 mol of Ca formed/min/mol of thrombin. Thrombin and thrombomodulin appear to form a 1:1 stoichiometric complex as judged from experiments where we measured the effect of varying the concentration of thrombomodulin with respect to thrombin and the converse, on rates of protein C activation. An antibody directed against rabbit lung thrombomodulin inhibited the human placenta protein by 66%, and the amino acid composition of the proteins from the two species was similar indicating that the proteins are closely related. The apparent Michaelis constant of the thrombin-thrombomodulin complex for protein C is 9.8 microM. The protein C activation reaction requires calcium ions and is maximal at 1 mM Ca2+; higher concentrations inhibited the reaction. Coagulation factor Va and factor Va light chain both stimulate the activity of human thrombomodulin 2- to 3-fold.     

Dithioerythritol (DTE) prevents inhibitory effects of triphenyltin (TPT) on the key enzymes of the human sex steroid hormone metabolism

Organotins are known to induce imposex (pseudohermaphroditism) in marine neogastropods and are suggested to act as specific endocrine disruptors, inhibiting the enzyme-mediated conversion of steroid hormones. Therefore, we investigated the in vitro effects of triphenyltin (TPT) on human 5-reductase type 2 (5-Re 2), cytochrome P450 aromatase (P450arom), 17β-hydroxysteroid dehydrogenase type 3 (17β-HSD 3), 3β-HSD type 2 and 17β-HSD type 1 activity. First, the present study demonstrates that significant amounts of TPT occurred in the blood of eight human volunteers (0.17–0.67 μg organotin cation/l, i.e. 0.49–1.92 nmol cation/l). Second, TPT showed variable inhibitory effects on all the enzymes investigated. The mean IC₅₀ values were 0.95 μM for 5-Re 2 (mean of n=4 experiments), 1.5 μM for P450arom (n=5), 4.0 μM for 3β-HSD 2 (n=1), 4.2 μM for 17β-HSD 3 (n=3) and 10.5 μM for 17β-HSD 1 (n=3). To exclude the possibility that the impacts of TPT are mediated by oxidizing essential thiol residues of the enzymes, the putative compensatory effects of the reducing agent dithioerythritol (DTE) were investigated. Co-incubation with DTE (n=3) resulted in dose-response prevention of the inhibitory effects of 100 μM deleterious TPT concentrations on 17β-HSD 3 (EC₅₀ value of 12.9 mM; mean of n=3 experiments), 3β-HSD 2 (0.90 mM; n=3), P450arom (0.91 mM; n=3) and 17β-HSD 1 (0.21 mM; n=3) activity. With these enzymes, the use of 10 mM DTE resulted in an at least 80% antagonistic effect, whereas, the effect of TPT on 5-Re 2 was not compensated. In conclusion, the present study shows that TPT acts as an unspecific, but significant inhibitor of human sex steroid hormone metabolism and suggests that the inhibitory effects are mediated by the interaction of TPT with critical cysteine residues of the enzymes.     

Intrinsic sterol- and phosphatidylcholine transfer activities of 17β-hydroxysteroid dehydrogenase type IV

Previous studies have shown that the 80 kDa 17β-hydroxysteroid dehydrogenase (17β-HSD) type IV comprises distinct domains, including an N-terminal region related to the short chain alcohol dehydrogenase multigene family and a C-terminal part related to the lipid transfer protein sterol carrier protein 2 (SCP2). In this study, we have investigated whether the SCP2-related part of the 80 kDa protein leads to an intrinsic sterol and phospholipid transfer activity, as shown earlier for the 60 kDa SCP2-related peroxisomal 3-ketoacyl CoA thiolase with intrinsic sterol and phospholipid transfer activity called sterol carrier protein x (SCPx). Our results indicate that a fraction rich in the 80 kDa form of 17β-HSD type IV exhibits high transfer activities for 7-dehydrocholesterol and phosphatidylcholine. In addition, a purified recombinant peptide derived from the SCP2-related domain of the 17β-HSD type IV has about 30% of the transfer activities for 7-dehydrocholesterol and phosphatidylcholine seen with purified recombinant human SCP2. We conclude that the 80 kDa type IV 17β-HSD represents a potentially multifunctional protein with intrinsic in vitro sterol and phospholipid transfer activity in addition to its enzymatic activity.     

Relationship between placental vascular endothelial growth factor expression and placental/endometrial vascularity in the pig

We investigated the temporal association between placental vascular endothelial growth factor (VEGF), a potent stimulator of angiogenesis and vascular permeability, and changes in placental/endometrial vascularity on selected days throughout gestation in the pig. Placental and endometrial tissues were collected from sows on Days 25 (n = 4), 36 (n =6), 44 (n = 6), 70 (n =5), 90 (n =5 ), and 112 (n = 7) of gestation. Cross sections of the placental/endometrial interface of each conceptus were used to estimate the number of blood vessels per unit area via image analysis and the intensity of VEGF staining via immunohistochemistry. Placental tissues were also collected on these days to evaluate VEGF mRNA expression. Placental VEGF mRNA expression and the numbers of blood vessels per unit area of placental and adjacent endometrial tissue were low and decreasing from Day 25 to Day 44, before increasing (P < 0.05) markedly and progressively through Day 112. These data are consistent with the marked increase in VEGF immunostaining in the chorionic and uterine luminal epithelium from early to late gestation. Further, these increases in placental VEGF mRNA were positively correlated with fetal weight (r = 0.73; P < 0.0001) and placental efficiency (fetal weight/placental weight ratio; r = 0.66, P < 0.0001). These data are consistent with a role for VEGF in increasing the number of blood vessels at the placental endometrial interface, resulting in an increased capacity for nutrient transfer from the maternal to the fetal compartment.