Measurement of contribution from intracellular cysteine to sulfate in phosphoadenosine phosphosulfate in rat ovarian granulosa cells

Synthesis of the large dermatan sulfate (DS) proteoglycan by rat ovarian granulosa cells was studied using metabolic radiolabel precursors in culture media with varying concentrations of environmental sulfate (20-800 microM) and cysteine (130 and 650 microM). Experiments using [3H]glucosamine and [35S]sulfate showed that the average size of the DS chains and the rate of DS proteoglycan synthesis were independent of the sulfate and cysteine concentrations in the medium. Experiments with [35S]cysteine were then used to determine the contribution that metabolic conversion of cysteine sulfur to sulfate makes to the 3'-phosphoadenosine 5'-phosphosulfate (PAPS) pool which provides the substrate for sulfoester formation in DS synthesis. When 35S in cysteine is metabolized into [35S]PAPS, the specific activity is reduced from that of the [35S]cysteine pool, by dilution with other sulfur sources such as extracellular sulfate, and this dilution factor directly reflects the contribution of cysteine to the PAPS pool. The decreases of 35S specific activity were measured under various sulfate-depleted and cysteine-supplemented conditions by comparing the specific activity of [35S]sulfate ester in the DS chains with that of [35S]cysteine residues in the core protein of the DS proteoglycan. The contribution of sulfur in cysteine to the intracellular PAPS pool was 0.03% in culture medium with normal sulfate (800 microM). Depleted environmental sulfate (20 microM) and increased cysteine supply (650 microM) only increased the sulfur contribution from cysteine to PAPS up to 0.74 and 1.5%, respectively, even though the DS chains were greatly undersulfated (55 and 82% of the control value). Thus, the source of sulfur in the intracellular pool of PAPS was mainly derived from environmental sulfate, and the contribution from cysteine was minimal in these cells.     

Expression of steroid sulfatase during embryogenesis

Neurosteroids are steroids that are synthesized de novo in the brain from cholesterol and, in general, mediate their effects through ion-gated channel receptors such as gamma-aminobutyric acidA (GABA[A]) and N-methyl-D-aspartate receptors rather than through classical nuclear steroid hormone receptors. Steroid hormones are known to exist not only as free compounds, but also as sulfated derivatives. Pharmacological studies indicate that unconjugated and sulfated steroids, such as pregnenolone and pregnenolone sulfate, may have opposite effects on GABA(A) receptors. Thus, pregnenolone acts as a potent positive allosteric modulator of gamma-aminobutyric acid action at GABA(A )receptors, whereas pregnenolone sulfate acts as a potent negative modulator. Recent experiments also suggest that dehydroepiandrosterone and dehydroepiandrosterone sulfate may have distinct effects on growth of neurites from embryonic neocortical neurons in vitro. Thus, regulation of steroid sulfation may have profound behavioral and morphological effects on the nervous system. We, therefore, studied the developmental expression of the enzyme steroid sulfatase (STS), which converts sulfated steroids to free steroids. By in situ hybridization, STS messenger RNA was expressed in the embryonic mouse cortex, hindbrain, and thalamus during the last third of gestation. The sites of expression of STS were similar to those of P450c17, suggesting that these two enzymes may have concerted actions in similar functional processes.     

Effects of ascorbic acid on in vitro steroidogenesis in guinea pigs

Guinea pig ovarian whole tissue homogenates were incubated with [14C]-labelled cholesterol, pregnenolone, and progesterone. Testicular homogenates were incubated with [14C]-progesterone. All incubations were carried out in the presence of 0, 0.5, 1.0, or 2.0 mM ascorbic acid. The conversion of cholesterol to pregnenolone was significantly decreased in testosterone and progesterone production. The addition of 0.5 mM ascorbic acid increased the conversion of pregnenolone to delta 4 steroids and decreased its conversion to delta 5 steroids, relative to the other ascorbic acid treatments. The conversion of progesterone to 17 A-hydroxyprogesterone was significantly decreased in the presence of 1.5 mM ascorbic acid over the O mM treatment. The data supports a general inhibitory effect of high ascorbic acid on the steroid hydroxylations, and a possible regulatory role of ascorbic acid on the conversion of pregnenolone to delta 4 and delta 5 steroids.     

Pregnenolone sulfate modulates NMDA receptors, inducing and potentiating acute excitotoxicity in isolated retina

Pregnenolone sulfate (PS) acts as a positive allosteric modulator of N-methyl-D-aspartate (NMDA) receptor-mediated responses. In the retina, we previously observed that the synthesis of pregnenolone and PS increases after stimulation of NMDA receptors and blockade of the synthesis reduces retinal cell death. This study was carried out to explore in the isolated and intact retina the possible role of PS in NMDA-induced excitotoxicity. Lactate dehydrogenase (LDH) measurements and morphological analysis revealed that a 90-min exogenous application of PS at 0.1-500 microM concentrations potentiated NMDA-induced cell death and at 50-500 microM concentrations caused cytotoxicity. After 45 min, either NMDA or PS caused no significant LDH release; but their co-application resulted in a high degree of toxicity. In addition, we found that a mild NMDA insult developed into serious damage when even low PS concentrations (0.1-10 microM) were used. Toxicity-inducing and -potentiating effects were specific to PS modulatory action on NMDA receptors, in that they were blocked by 4-(3-phosphonopropyl)2-piperazinecarboxylic acid (CPP) and MK-801 but not by 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX), and neither dehydroepiandrosterone sulfate nor pregnenolone caused LDH release. Prevention of degenerative signs was seen in retinae pretreated with 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid (DIDS), a Cl- channel blocker, thus indicating a Na+/Cl--dependent acute mode of excitotoxic cell death responsible for PS toxicity. The positive interaction between the neurosteroid and NMDA receptors was further proved by a PS dose-dependent increase in NMDA-induced stimulation of [3H] MK-801 binding to retinal membranes. The results suggest a crucial role of PS in retinal vulnerability and propose the toxicity-potentiating effects as an important key in linking NMDA-induced endogenous synthesis to acute excitotoxicity.     

C19 steroids estrogenic activity in human breast cancer cell lines: importance of dehydroepiandrosterone sulfate at physiological plasma concentration

The estrogenic action of C19 steroids on breast cancer cells was measured by bioluminescence in stably transfected human breast cancer MCF-7 and T47D cell lines with a reporter gene that allows expression of the firefly luciferase enzyme under control of an estrogen regulatory element. The "estrogenic activity" of C19 steroids, such as dehydroepiandrosterone (DHEA) and its sulfate (DHEAS), androst-5-en-3 beta,17 beta-diol, androst-4-en-3,17-dione, dihydrotestosterone, testosterone, and 5 alpha-androstan-3 beta,17 beta-diol was studied. This showed that DHEAS, at concentration observed in physiological conditions (10(-6) M), had a high "estrogen-like effect" in MCF-7 and T47D cell lines. Other C19 steroids, at physiological plasma concentration, alone or together did not have any significant effect on the luciferase activity. Moreover aminoglutethimide, an inhibitor of the aromatase enzyme, in the presence of C19 steroids, partially decreased the luciferase activity. These results suggest that MCF-7 and T47D cell lines could convert DHEAS to estrogen-like compounds by different enzymatic systems.     

Composition, constitution, and interaction of bone with hydroxyapatite coatings determined by FT Raman microscopy

Transfer of steroidal and nonsteroidal compounds across guinea pig amnion and chorion laeve was investigated as a function of stage of gestation, tissue orientation, steroid specificity, and molecular size. Each fetal membrane was examined at early and late stages of gestation, before and after pubic symphysis relaxation. Early amnion was impermeable to macromolecules and small charged molecules while [3H]estrone and [3H]pregnenolone were transferred, the latter depending on tissue orientation and involving conjugation at the basolateral interface. After symphysis dilation, amnion transferred all substrates tested with the exception of BSA; the molecular weight cutoff was approximately 5,000. Unlike amnion, early chorion transferred both free and conjugated steroids as well as inorganic sulfate. Transfer of estrone involved conjugation and depended on tissue orientation. Transfer of [3H]estrone-sulfate, [3H]estrone-glucuronide, and [3H]pregnenolone-sulfate was similar despite selective deconjugating activity toward estrone-sulfate. Near term, chorion was impermeable to inorganic sulfate and transfer of estrone-glucuronide depended on tissue orientation, involving deconjugation in the maternal to fetal direction. At no stage of gestation did chorion transfer macromolecules. These results suggest that the transfer of free and conjugated steroids across fetal membranes is differentially regulated by tissue, its stage of development, and direction of transfer.     

CSF neuroactive steroids in affective disorders: pregnenolone, progesterone, and DBI

Recently several steroid compounds have been discovered to act as neuromodulators in diverse central nervous system (CNS) functions. We wondered if neuroactive steroids might be involved in affective illness or in the mode of action of mood-regulating medications such as carbamazepine. Levels of the neuroactive steroids pregnenolone and progesterone, as well as the neuropeptide diazepam binding inhibitor (DBI) (known to promote steroidogenesis), were analyzed from cerebrospinal fluid (CSF) obtained by lumbar puncture (LP) from 27 medication-free subjects with affective illness and 10 healthy volunteers. Mood-disordered subjects who were clinically depressed at the time of the LP had lower CSF pregnenolone (n = 9, 0.16 ng/ml) compared with euthymic volunteers (n = 10, 0.35 ng/ml; p < 0.01). In addition, pregnenolone was lower in all affectively ill subjects (n = 26, 0.21 ng/ml), regardless of mood state on the LP day, than healthy volunteers (p < 0.05). No differences were found for progesterone or DBI levels by mood state or diagnosis. Progesterone, pregnenolone, and DBI did not change significantly or consistently in affectively ill subjects after treatment with carbamazepine. CSF pregnenolone is decreased in subjects with affective illness, particularly during episodes of active depression. Further research into the role of neuroactive steroids in mood regulation is warranted.     

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

3 beta-Hydroxysteroid dehydrogenase (3 beta-HSD)/delta 5-->4-isomerase activity in steroidogenic tissues is required for the synthesis of biologically active steroids. Previously, by use of dehydroepiandrosterone (3 beta-hydroxy-5-androsten-17-one, DHEA) as substrate, it was established that in addition to steroidogenic tissues 3 beta-HSD/delta 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 3 beta-HSD activity. For this purpose, we compared the efficiencies of a 3 beta-hydroxy-5-ene steroid (DHEA) and a 3 beta-hydroxy-5 alpha-reduced steroid (5 alpha-androstane-3 beta,17 beta-diol, 5 alpha-A-diol) as substrates for the enzyme. The apparent Michaelis constant (Km) for 5 alpha-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 Km of placental 3 beta-HSD for 5 alpha-A-diol was in the range of 18 to 40 mumol/l (n = 3) vs 0.45 to 4 mumol/l for DHEA (n = 3); for the liver enzyme, 17 mumol/l for 5 alpha-A-diol and 0.60 mumol/l for DHEA, and for the skin enzyme 14 and 0.18 mumol/l, respectively. Moreover, in 13 human fetal tissues evaluated the maximal velocities obtained with 5 alpha-A-diol as substrate were higher than those obtained with DHEA. A similar finding in regard to Kms and rates of product formation was obtained by use of purified placental 3 beta-HSD with DHEA, pregnenolone, and 3 beta-hydroxy-5 alpha-androstan-17-one (epiandrosterone) as substrates: the Km of 3 beta-HSD for DHEA was 2.8 mumol/l, for pregnenolone 1.9 mumol/l, and for epiandrosterone 25 mumol/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 3 beta-HSD, DHEA at a constant level of 5 mumol/l behaved as a competitive inhibitor when the radiolabeled substrate, [3H]5 alpha-A-diol, was present in concentrations of 20 to 60 mumol/l, but at 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 5 alpha-A-diol (40 mumol/l).(ABSTRACT TRUNCATED AT 400 WORDS)     

Analysis and degradation study of glyphosate and of aminomethylphosphonic acid in natural waters by means of polymeric and ion-exchange solid-phase extraction columns followed by ion chromatography-post-column derivatization with fluorescence detection

Excessive stimulation of the N-methyl-d-aspartate (NMDA)-type glutamate receptor has been implicated in the neuronal death resulting from focal hypoxia-ischemia. Certain neurosteroids, steroids synthesized de novo in the central nervous system (CNS), have been shown to modulate the action of neurotransmitters at their cellular receptors. Pregnenolone sulfate (PS) is an abundant neurosteroid that enhances the current evoked by NMDA. Using the Ca2+-sensitive fluorescent dye, Fluo-3, AM, and a trypan blue exclusion assay, we evaluated the ability of PS to modulate NMDA-induced changes in intracellular free calcium concentration ([Ca2+]i) and neuronal death in primary cultures of rat hippocampal neurons. The results demonstrate that PS potentiates NMDA-induced increases in [Ca2+]i by 150%. Further, PS exacerbates the MK-801-sensitive neuronal death produced by acute (PS EC50=37 microM) or chronic NMDA exposure, reducing the EC50 of NMDA from 13 to 4 microM under chronic exposure conditions, whereas pregnenolone is ineffective. Our results show that PS, or related sulfated neurosteroids, may play a role in the onset of excitotoxic neuronal death in vivo.     

Panhypopituitarism as a model to study the metabolism of dehydroepiandrosterone (DHEA) in humans

The physiological importance and therapeutical interest of dehydroepiandrosterone (DHEA) and its sulfate ester (DHEAS) are still controversial. Panhypopituitarism is characterized by the absence of secretion of adrenal and gonadal steroids and thus the production of their metabolites. The conversion of DHEA given orally into delta 5 derivatives, androgens, androgen metabolites, and estrogens was studied in ten patients with complete panhypopituitarism. Sex steroid therapy was withdrawn for at least 2 months. Each patient received, at 1-month intervals and in a random order, two single oral doses of DHEA (50 mg and 200 mg) and placebo. During each treatment, urine samples were collected for 24 h, and blood samples were drawn at hourly intervals for 8 h. In patients with pituitary deficiency, plasma DHEA and DHEAS were not detectable and increased, with the 50 mg dose, up to levels observed in young adults. The administration of 200 mg of DHEA induced an increase of both steroids to supraphysiological plasma levels. A small increase of delta 5-androstenediol was observed. In contrast, the increase of plasma delta 4-androstenedione was important and dose dependent. DHEA was also converted into the potent sex steroid testosterone (T). The administration of a 50 mg dose of DHEA restored plasma T to levels similar to those observed in young women. The 200 mg dose induced an important increase of plasma T, slightly below the levels observed in normal men. The increase of plasma dihydrotestosterone levels was small at both doses of DHEA, in contrast with the large conversion of DHEA into androsterone glucuronide and androstanediol glucuronide. Finally, DHEA administration induced a significant and dose dependent increase of plasma estrogens and particularly of estradiol. In conclusion, this short term study demonstrates that: 1) panhypopituitarism is a model of interest to study the metabolism of DHEA; 2) in the absence of pituitary hormones and of adrenal and gonadal steroids, DHEA given orally is mainly converted into delta 4 derivatives, which in turn are strongly metabolized into 5 alpha-3keto-reduced steroids; 3) a significant increase of sex active hormones was observed in plasma after 200 and even 50 mg of DHEA. Thus, biotransformation of DHEA into potent androgens and estrogens may explain several of the reported beneficial actions of this steroid in aging people.     

Enhanced plasma DHEAS, brain acetylcholine and memory mediated by steroid sulfatase inhibition

Steroid sulfatase inhibitors can alter the metabolism of neurosteroids which modulate brain function. Administration of the non-steroidal steroid sulfatase inhibitor (p-O-sulfamoyl)-N-tetradecanoyl tyramine (DU-14) to rats for 15 days increased plasma dehydroepiandrosterone sulfate (DHEAS) concentrations by 88.2%, decreased plasma dehydroepiandrosterone (DHEA) concentrations by 84.6%, increased hippocampal acetylcholine (ACh) release determined via in vivo microdialysis by almost 3-fold, and produced a significant blockade of scopolamine-induced amnesia as measured by a passive avoidance test. These results suggest DHEAS rather than DHEA enhances brain cholinergic function and that steroid sulfatase inhibition may become an important tool for enhancing neuronal functions, such as memory, mediated by excitatory neurosteroids.     

delta 9-Tetrahydrocannabinol is a partial agonist of cannabinoid receptors in mouse brain

We measured the ability of the cannabinoid agonists delta 9-tetrahydrocannabinol and R(+)-[2,3,-dihydro-5-methyl-3- [(morpholinyl)methyl]pyrrolo[1,2,3-de]-1,4-benzoxazin-yl]-(1-napht halenyl) methanone mesylate (WIN 55,212-2) to stimulate guanosine-5'-O-(3-[35S]thio)triphosphate ([35S]GTP gamma S) binding in mouse brain membranes. delta 9-Tetrahydrocannabinol stimulated [35S]GTP gamma S binding by about 25% as compared to WIN 55,212-2. This is the first report demonstrating that delta 9-tetrahydrocannabinol acts as a partial agonist in stimulating [35S]GTP gamma S binding in the mouse brain.     

Modulation of neurosteroid synthesis/accumulation by L-ascorbic acid in rat brain tissue: inhibition by selected serotonin antagonists

We have investigated the possibility that the synthesis/accumulation of neurosteroids, i.e., brain-produced steroids putatively endowed with modulatory actions in the CNS, is regulated by monoaminergic receptor-mediated mechanisms. In minces of rat brain cortex, L-ascorbic acid concentration-dependently (0.07-1.0 mM) increases the levels of pregnenolone, allotetrahydrodeoxycorticosterone, and dehydroepiandrosterone. This effect of L-ascorbic acid is region-dependent: in hippocampus, progesterone and allopregnanolone are also increased, whereas dehydroepiandrosterone is unchanged, and in corpus striatum only progesterone is increased significantly. 5-Hydroxytryptamine (10 microM), 1-(3-chlorophenyl)piperazine (1.0 microM), and 5-methoxytryptamine (0.4 microM) mimic the effect of L-ascorbic acid, whereas a pretreatment with p-chlorophenylalanine (400 mg/kg i.p., 2 days) reduces the amplitude of the L-ascorbic acid effect on brain cortical neurosteroids. The effect of L-ascorbic acid is blocked by the nonselective serotonin antagonists methiothepin, clozapine, methysergide, and pizotifen, but not mesulergine, spiperone, MDL 72222, and DL-propranolol, nor by the catecholaminergic receptor antagonists prazosin and S(-)-sulpiride. L-Ascorbic acid is not additive with dibutyryl-cyclic AMP and, furthermore, the inhibition of adenylate cyclase by MDL 12330A, but not of phospholipase C by U-73122, markedly attenuates the L-ascorbic acid-induced increase of pregnenolone in rat brain cortical minces. Together these data suggest that L-ascorbic acid plays a role in the modulation of neurosteroidogenesis, presumably by favoring the activation of the purported serotonin type 6 receptor by endogenous serotonin.     

Hydroxysteroid sulfotransferase activity in the rat brain and liver as a function of age and sex

The high concentrations of dehydroepiandrosterone sulfate and pregnenolone sulfate in the mammalian brain, despite the blood-brain barrier's impermeability to these compounds, and the apparent independence of these concentrations from those in plasma prompted us to investigate whether enzymatic sulfation of dehydroepiandrosterone was detectable in the rat brain. Low hydroxysteroid sulfotransferase activities were detectable in in vitro incubations of homogenates from all rat brain regions except the cerebellum, being highest in the hypothalamus and pons. This activity was not ascribable to enzyme in brain capillary blood. The activity was mainly cytosolic, although there was also significant activity in the partially purified nuclear fraction. The enzyme had different properties from those of hepatic isozymes, with a pH optimum of 6.5 and a high Km of approximately 2 mM for dehydroepiandrosterone. The enzyme was also active with pregnenolone as substrate. Activities in the brain were approximately 300-fold lower than in the liver but, as in the liver, these were higher in females than in males. The variations in brain activity as a function of age did not parallel those in the liver. Relatively high activities were found in the fetal brain and declined at birth, while activities were insignificant in the fetal liver and rose following birth. There was a major peak in activity in pubertal female brains, but this peak was less important, and later, in males. No evidence was found to indicate that the low brain enzyme activities and high Km were attributable either to the presence of an inhibitor or to the steroid sulfation actually being a secondary activity of another brain sulfotransferase. We discuss whether the sulfotransferase activities found are adequate to synthesize the dehydroepiandrosterone and pregnenolone sulfate found in brain.     

Conversion of a C-20-deoxy-C21, steroid, 5-pregnen-3beta-ol, into testosterone by rat testicular microsomes

5-[7ALPHA-3H] Pregnen-3beta-ol, a C-20-deoxy analog of pregnenolone, was synthesized and tested as a substrate for the enzyme system occurring in testes that cleaves the side chain of C21 steroids between C-17 and C-20. This C-20-deoxy C21 steroid was incubated with a microsomal preparation obtained from rat testis and was converted into testosterone in 5% yield. Another C-20-deoxy analog of pregnenolone, 5,20-pregnadien-3beta-ol, was not converted into testosterone by this enzyme system. The significance of this finding for the natural processes by which pregnenolone is converted by the same subcellular fraction into the male sex hormone is examined in the light of the hypothesis that intermediates involved in steroidogenesis are transient, reactive complexes of the appropriate reactants (steroids, oxygen, etc.) with specific enzymes.     

The entry of [D-penicillamine2,5]enkephalin into the central nervous system: saturation kinetics and specificity

The delta opioid receptor-selective, enzymatically stable peptide [D-Penicillamine2,5]enkephalin (DPDPE) has recently acquired special significance with the identification of a saturable uptake system for this analgesic into the CNS. The aim of the present study was to characterize further the entry of [3H]DPDPE into the brain and CSF by means of a bilateral in situ brain perfusion method. Initial experiments revealed a saturable [3H]DPDPE uptake into the brain that followed Michaelis-Menten type kinetics with a K(m) value of 45.5 +/- 27.6 microM, a V(max) value of 51.1 +/- 13.2 pmol x min(-1) x g(-1) and a K(d) value of 0.6 +/- 0.3 microl x min(-1) x g(-1). Uptake of [3H]DPDPE into the CSF could not be inhibited (K(d) = 0.9 +/- 0.1 microl x min(-1) x g(-1)). Entry of [3H]DPDPE into the CNS was not inhibited in the presence of 10 mM 2-aminobicyclo-[2,2,1]-heptane-2-carboxylic acid (BCH) or 50 microM ICI 174,864, which suggests that the saturable mechanism does not involve the large neutral amino acid transporter or binding to opioid receptors. It would also appear that [3H]DPDPE is not in competition with either poly-L-lysine or insulin to enter the CNS. However, both of these substances significantly increased the CNS entry of [3H]DPDPE but not that of the vascular space marker [14C]sucrose, and this may have valuable clinical implications. It is not known at present which saturable uptake mechanism is responsible for the CNS entry of [3H]DPDPE, but overall the results suggest a carrier-mediated transport system.     

Effects of chronic ethanol exposure on oxidation and NMDA-stimulated neuronal death in primary cortical neuronal cultures

Two enzymes of detoxification were studied in blood samples from 27 patients with ulcerative colitis (UC) and 18 controls to determine whether there is an abnormality in sulfur metabolism in UC. Thiol methyltransferase (TMT) activity was measured in erythrocyte membranes as the extent of conversion of 2-mercaptoethanol to S-methyl-2-mercaptoethanol with [3H]methyl-S-adenosyl methionine as methyl donor. Phenol sulfotransferase (PST) activity was measured in platelet homogenates as the extent of sulfation of p-nitrophenol with 3-phosphoadenosine 5-phospho[35S]sulfate (PAPS) as sulfate donor. TMT activity was significantly higher in UC patients (27.0 vs 17.1 nmol/mg protein/hr; P < 0.005). No difference in PST activity was found. We conclude that TMT may be up-regulated in UC to detoxify excess hydrogen sulfide exposed to the peripheral blood compartment. This may arise from either increased luminal sulfide production or reduced colonic detoxification.     

Up-regulation of brain N-methyl-D-aspartate receptors following multiple intracerebroventricular injections of [D-Pen2, D-Pen5] enkephalin and [D-Ala2, Glu4]deltorphin II in mice

The effects of chronic administration of [D-Pen2, D-Pen5]enkephalin and [D-Ala2, Glu4]deltorphin II, the selective agonists of the delta 1- and delta 2-opioid receptors, on the binding of [3H]MK-801, a noncompetitive antagonist of the N-methyl-D-aspartate receptor, were determined in several brain regions of the mouse. Male Swiss-Webster mice were injected intracerebroventricularly (i.c.v.) with [D-Pen2, D-Pen5]enkephalin or [D-Ala2, Glu4]deltorphin II (20 micrograms/mouse) twice a day for 4 days. Vehicle injected mice served as controls. Previously we have shown that the above treatment results in the development of tolerance to their analgesic activity. The binding of [3H]MK-801 was determined in brain regions (cortex, midbrain, pons and medulla, hippocampus, striatum, hypothalamus and amygdala). At 5 nM-concentration, the binding of [3H]MK-801 was increased in cerebral cortex, hippocampus, and pons and medulla of [D-Pen2, D-Pen5]enkephalin treated mice. In [D-Ala2, Glu4]deltorphin II treated mice, the binding of [3H]MK-801 was increased in cerebral cortex and hippocampus. The changes in the binding were due to increases in the Bmax value of [3H]MK-801. It is concluded that tolerance to delta 1- and delta 2-opioid receptor agonists is associated with up-regulation of brain N-methyl-D-aspartate receptors, however, some brain areas affected differ with the two treatments. The results are consistent with the recent observation from this laboratory that N-methyl-D-aspartate receptors antagonists block tolerance to the analgesic action of delta 1- and delta 2-opioid receptor agonists.     

Effect of oocytectomy on glycosaminoglycan composition during cumulus expansion of porcine cumulus-oocyte complexes cultured in vitro

To investigate the role of oocytes in the accumulation of glycosaminoglycans during cumulus expansion, we analyzed the amount and composition of glycosaminoglycans in porcine intact and oocytectomized cumulus-oocyte complexes. Follicular fluid induced cumulus expansion in intact and oocytectomized cumulus-oocyte complexes cultured for over 24 h, but the degree of expansion in oocytectomized complexes reached only 76% of that in intact complexes after 24 h in culture. There were no differences in the amounts of [3H]glucosamine incorporated into each type of complex. Metabolic labeling studies on glycosaminoglycans with [3H]glucosamine and [35S]sulfate showed that the amounts of 3H- and 35S-labeled glycosaminoglycans increased, and rapidly so, from 16 h in culture. The 3H-labeled glycosaminoglycans at these high levels were digested by Streptomyces hyaluronidase or chondroitinase ABC, and the rate of increase in 3H-labeled glycosaminoglycans was reduced by oocytectomy. In contrast, the increased levels of 35S-labeled glycosaminoglycans were affected only by chondroitinase ABC, and oocytectomy was ineffective. In conclusion, follicular fluid promotes cumulus expansion, and the oocyte plays an essential role in the acute synthesis of hyaluronic acid, but not chondroitin sulfate, during cumulus expansion stimulated in vitro.     

A simple method for the assay of eight steroids in small volumes of plasma

A simple method is described for the simultaneous radioligand assay of four delta5-3beta-hydroxysteroids adjacent to one another on the biosynthetic pathway (pregnenolone [1], 17alpha-hydroxypregnenolone, dehydroepiandrosterone and 5-androsterone-3beta, 17beta-diol), and their four delta4-3keto products (progesterone, 17alpha-hydroxyprogesterone, 4-androstene-3, 17-dione and testosterone). Two plasma aliquots are extracted and fractionated each for four steroids and individual corrections are made for losses. For fractionation, maximum use is made of the high resolution and reproducibility of celite minicolumns, using propylene glycol as stationary phase, and a discontinuous gradient of ethyl acetate in iso-octane as mobile phase. The fractions are then assayed in the appropriate radioligand end-assay system. Each assay was finally validated by demonstrating coincidence of peaks of immuno- and radioactive steroid in extracts of female plasma. Results in pre-pubertal girls and women in the follicular phase of the menstrual cycle suggest that the major change in adrenal steroid production at puberty may be an increase in 17, 20-desmolase activity. There appears to be little reversal of this change in adrenal function after ovariectomy.