Pharmacokinetics of oral dehydroepiandrosterone (DHEA) in the ovariectomised cynomolgus monkey

Humans and primates are unique in having adrenals that secrete large amounts of DHEA and DHEA-S in the circulation. These steroids act as precursors of active androgens and estrogen's in a long series of peripheral target intracrine tissues. The marked decline of serum DHEA and DHEA-S concentrations with age in men and women has been incriminated in the development of various pathologies. This study provides detailed information on the effect of a single 50mg oral dose of DHEA on circulating estrogen's as well as androgens and their metabolites over 10h in adult ovariectomised (OVX) Cynomolgus monkeys. Serum DHEA, DHEA-S, testosterone (Testo) and androstenedione (4-dione) concentrations increased rapidly with a maximal value at approximately 1h after DHEA administration followed by a 60-80% decrease during the next 2-6h. An important sulfatation of DHEA occurs through first hepatic pass, thus, leading to a marked increase in serum DHEA-S. Serum androst-5-ene-3beta,17beta-diol and androsterone glucuronide (ADT-G) levels remained elevated on a plateau for 6h. Androstan-3alpha,17beta-diol-glucuronide, estradiol and estrone levels remained unchanged. The present data indicate the predominant transformation of the adrenal precursor DHEA into active androgens in peripheral tissues and support the importance of measurement of circulating glucuronide derivatives as index of peripheral or intracrine androgen formation and action.     

Chronic theophylline administration has no apparent effect on theophylline concentrations required to produce seizures in rats

Theophylline, the widely used antiasthmatic drug, can cause life-threatening, generalized seizures when administered in excessive doses. The plasma concentrations of theophylline associated with these seizures vary widely among patients, thereby complicating efforts to prevent seizures by timely initiation of appropriate treatment. Some investigators suspect that chronic administration increases the neurotoxicity of theophylline but others have suggested the opposite. We have studied this problem in an animal model of theophylline-induced seizures. Osmotic pumps containing theophylline solution or drug-free solvent (for the surgical control group) were implanted in adult female Lewis rats, yielding almost constant serum theophylline concentrations of about 14 mg/liter for 7 days in the treated group. On the seventh day, theophylline was administered by much more rapid iv infusion to the two groups of animals and to one nonimplanted (nonsurgical) control group until onset of maximal seizures. There were no statistically significant differences between the three groups with respect to the concentrations of theophylline in serum, serum water, brain, and cerebrospinal fluid at onset of seizures. The concentrations of theophylline metabolites were either very low or undetectable. Under the experimental conditions, preexposure of rats for 7 days to theophylline in the human therapeutic concentration range had no apparent effect on the acute neurotoxicity of the drug.     

In vitro metabolism of dehydroepiandrosterone by mammary gland and mammary tumours in the rat

Thein vitro metabolism of [4-¹⁴C]-dehydroepiandrosterone (DHEA) by mammary tissues of Wistar and Sprague-Dawley rats yielded 7α- and 7β-hydroxy DHEA as major products; the epimers being formed in a ratio of 4:1. 5-Androstene-3β,17β-diol and 7-oxo DHEA were produced in lower yields. No marked differences were found in the conversion of DHEA to these products when lactating tissue, dimethylbenzanthracene-induced mammary tumours, and oestrogen-induced mammary tumours, were compared.     

Neuroprotective effects of dehydroepiandrosterone (DHEA) in rat model of Alzheimer's disease

The current study was undertaken to elucidate a possible neuroprotective role of dehydroepiandrosterone (DHEA) against the development of Alzheimer's disease in experimental rat model. Alzheimer's disease was produced in young female ovariectomized rats by intraperitoneal administration of AlCl(3) (4.2 mg/kg body weight) daily for 12 weeks. Half of these animals also received orally DHEA (250 mg/kg body weight, three times weekly) for 18 weeks. Control groups of animals received either DHAE alone, or no DHEA, or were not ovariectomized. After such treatment the animals were analyzed for oxidative stress biomarkers such as hydrogen peroxide, nitric oxide and malondialdehyde, total antioxidant capacity, reduced glutathione, glutathione peroxidase, glutathione reductase, superoxide dismutase and catalase activities, antiapoptotic marker Bcl-2 and brain derived neurotrophic factor. Also brain cholinergic markers (acetylcholinesterase and acetylcholine) were determined. The results revealed significant increase in oxidative stress parameters associated with significant decrease in the antioxidant enzyme activities in Al-intoxicated ovariectomized rats. Significant depletion in brain Bcl-2 and brain-derived neurotrophic factor levels were also detected. Moreover, significant elevations in brain acetylcholinesterase activity accompanied with significant reduction in acetylcholine level were recorded. Significant amelioration in all investigated parameters was detected as a result of treatment of Al-intoxicated ovariectomized rats with DHEA. These results were confirmed by histological examination of brain sections. These results clearly indicate a neuroprotective effect of DHEA against Alzheimer's disease.     

The effect of dehydroepiandrosterone (DHEA) on renal function and metabolism in diabetic rats

Dehydroepiandrosterone (DHEA) is an endogenous steroid hormone involved in a number of biological actions in humans and rodents, but its effects on renal tissue have not yet been fully understood. The aim of this study is to assess the effect of DHEA treatment on diabetic rats, mainly in relation to renal function and metabolism. Diabetic rats were treated with subcutaneous injections of a 10 mg/kg dose of DHEA diluted in oil. Plasma glucose and creatinine, in addition to urine creatinine, were quantified espectophotometrically. Glucose uptake and oxidation were quantified using radioactive glucose, the urinary Transforming Growth Factor β₁ (TGF-β₁) was assessed by enzyme immunoassay, and the total glutathione in the renal tissue was also measured. The diabetic rats displayed higher levels of glycemia, and DHEA treatment reduced hyperglycemia. Plasmatic creatinine levels were higher in the diabetic rats treated with DHEA, while creatinine clearance was lower. Glucose uptake and oxidation were lower in the renal medulla of the diabetic rats treated with DHEA, and urinary TGF-β₁, as well as total gluthatione levels, were higher in the diabetic rats treated with DHEA. DHEA treatment was not beneficial to renal tissue, since it reduced the glomerular filtration rate and renal medulla metabolism, while increasing the urinary excretion of TGF-β₁ and the compensatory response by the glutathione system, probably due to a mechanism involving a pro-oxidant action or a pro-fibrotic effect of this androgen or its derivatives. In conclusion, this study reports that DHEA treatment may be harmful to renal tissue, but the mechanisms of this action have not yet been fully understood.     

Chemoprevention of precursors to colon cancer by dehydroepiandrosterone (DHEA)

Although dehydroepiandrosterone (DHEA) is recognized as one of the major adrenal androgens, its precise physiological role in the human endocrine system remains to be elucidated. In particular, the effect of DHEA on carcinogenesis has not been fully characterized. We undertook this study to determine whether DHEA has a chemopreventative effect on the precursors of colon cancer in a murine model of azoxymethane (AOM)-induced aberrant crypt foci (ACF). The number of ACF was significantly decreased in mice treated with 0.4% (p < 0.001) and 0.8% DHEA (p < 0.001), but there were no significant differences between DHEA-treated and control mice in terms of the ACF size, 3-catenin expression or level of dysplasia. This is the first study of colon cancer carcinogenesis demonstrating that DHEA treatment can decrease the number of ACF without apparently modifying their malignant potential. These data strongly suggest that DHEA might be a potential chemopreventative agent against human colon cancer.     

Antioxidant activity of dioscorea and dehydroepiandrosterone (DHEA) in older humans

Dioscorea is a yam steroid extract used in commercial steroid synthesis and consumed by people. DHEA is a steroid which declines with age, but without known activity. This study was designed to determine whether dioscorea supplementation could increase serum dehydroepiandrosterone sulfate (DHEAS) in humans and modulate lipid levels in older people. The subjects were selected volunteers aged 65–82 years. The serum DHEAS level, lipid peroxidation and lipid profile were assessed. Three weeks of dioscorea supplementation had no affect on serum DHEAS level. However DHEA intake of 85 mg/day increased serum DHEA levels 100.3 %. DHEA and dioscorea significantly reduced serum lipid peroxidation, lowered serum triglycerides, phospholipid and increased HDL levels. Both DHEA and the steroid yam extract, dioscorea, have significant activities as antioxidant to modify serum lipid levels.     

Oxidative metabolism of dehydroepiandrosterone (DHEA) and biologically active oxygenated metabolites of DHEA and epiandrosterone (EpiA)--recent reports

Dehydroepiandrosterone (DHEA) is a multifunctional steroid with a broad range of biological effects in humans and animals. DHEA can be converted to multiple oxygenated metabolites in the brain and peripheral tissues. The mechanisms by which DHEA exerts its effects are not well understood. However, evidence that the effects of DHEA are mediated by its oxygenated metabolites has accumulated. This paper will review the panel of oxygenated DHEA metabolites (7, 16 and 17-hydroxylated derivatives) including a number of 5α-androstane derivatives, such as epiandrosterone (EpiA) metabolites. The most important aspects of the oxidative metabolism of DHEA in the liver, intestine and brain are described. Then, this article reviews the reported biological effects of oxygenated DHEA metabolites from recent findings with a specific focus on cancer, inflammatory and immune processes, osteoporosis, thermogenesis, adipogenesis, the cardiovascular system, the brain and the estrogen and androgen receptors.     

Synthesis and application of a photoaffinity analog of dehydroepiandrosterone (DHEA)

We have synthesized an analog of dehydroepiandrosterone (DHEA, 1) containing both a benzophenone (BP) and a biotin (Bt) group (DHEA–BP–Bt, 8). Compound 8 was prepared by functionalization on C-17 of 1. Biocytin was reacted with 4-benzoylbenzoic acid and the product was condensed with 1 containing a diamine–hexane linker. We detected specific protein bands of approximately 55, 80, and 150 kDa by SDS–PAGE analysis of vascular endothelial cell plasma membranes which had been photoirradiated in the presence of 8.     

The effect of dehydroepiandrosterone administration on intestinal calcium absorption in ovariectomized female rats

[Purpose] Dehydroepiandrosterone (DHEA) administration reportedly recovers osteoporosis, a bone disorder associated with bone deficiency in postmenopausal women. However, the physiological mechanism of DHEA in osteoporosis remains elusive, especially in terms of intestinal calcium absorption. Therefore, we investigated the effect of DHEA administration on calcium absorption in ovariectomized (OVX) female rats using an estrogen receptor antagonist.[Methods] Female Sprague-Dawley rats (n=23, 6 weeks old) were randomized into three groups: OVX control group (OC, n=7), OVX with DHEA treatment group (OD, n=8), and OVX with DHEA inhibitor group (ODI, n=8) for 8 weeks.[Results] Intestinal calcium accumulation, as well as the rate of absorption, demonstrated no significant differences during the experimental period among investigated groups. The bone mineral density (BMD) of the tibia at the proximal metaphysis was higher in the OD group than that in the OC group (p<0.05); however, BMD of the ODI group showed no significant difference from investigated groups. Furthermore, the BMD of the tibia at the diaphysis did not significantly differ among these groups.[Conclusion] We revealed that DHEA administration does not involve intestinal Ca absorption, although this treatment improves BMD levels in OVX rats. These observations indicate that the effect of DHEA on the bone in postmenopausal women is solely due to its influence on bone metabolism and not intestinal calcium absorption.     

Sex differences due to dehydroepiandrosterone (DHEA) feeding affecting dehydroepiandrosterone sulfate secretion in golden Syrian hamsters.

The metabolism of orally administered dehydroepiandrosterone (DHEA) by male and female golden Syrian hamsters was examined by quantification of DHEA and dehydroepiandrosterone sulfate (DHEAS) in gallbladder bile, urine and feces using high-performance liquid chromatography (HPLC). Plasma levels of DHEA and DHEAS were also determined by radioimmunoassay (RIA). After 5 days of oral DHEA administration (100 mg/kg body weight twice a day), RIA showed that plasma levels of DHEA and DHEAS were increased approximately 3-6 and 4-5 times, respectively, compared to controls. More than 95 % of circulating DHEA (S) in the peripheral blood was DHEAS. There was no significant sex difference in DHEAS plasma levels between male and female animals in the DHEA-supplemented group. However, 0.2 - 0.3 % of ingested DHEA was conjugated to DHEAS and excreted in urine by females, whereas less than 0.002 % was excreted in urine by males (p < 0.005). DHEAS was excreted in bile by males after DHEA supplementation, and the sex differences in DHEAS levels observed in bile were statistically significant (male, 18.7 +/- 7.5 vs. female, 5.6 +/- 3.1 micromol/l) (p < 0.005). Small amounts of ingested DHEA were excreted in an unchanged state in feces, and no sex difference was observed. These results suggest that there is a considerable sex difference in the conjugation and excretion of orally administered DHEA in the hamster.     

Peripheral administration of GLP-2 to humans has no effect on gastric emptying or satiety

Glucagon-like peptide-1 (GLP-1) and glucagon-like peptide-2 (GLP-2) are secreted in parallel to the circulation after a meal. Intravenous (IV) GLP-1 has an inhibitory effect on gastric emptying, hunger and food intake in man. In rodents, central administration of GLP-2 increases satiety similar to GLP-1. The aim of the present study was to assess the effect of IV administered GLP-2 on gastric emptying and feelings of hunger in human volunteers. In eight (five men) healthy subjects (age 31.1+/-2.9 years and BMI 24.1+/-1.0 kg m(-2)), scintigraphic solid gastric emptying, hunger ratings (VAS) and plasma concentrations of GLP-2 were studied during infusion of saline or GLP-2 (0.75 and 2.25 pmol kg(-1) min(-1)) for a total of 180 min. Concentrations of GLP-2 were elevated to a maximum of 50 and 110 pmol l(-1) for 0.75 and 2.25 pmol kg(-1) min(-1) infusion of GLP-2, respectively. There was no effect of GLP-2 on either the lag phase (29.5+/-4.4, 26.0+/-5.2 and 21.2+/-3.6 min for saline, GLP-2 0.75 or 2.25 pmol kg(-1) min(-1), respectively) or the half emptying time (84.5+/-6.1, 89.5+/-17.8 and 85.0+/-7.0 min for saline, GLP-2 0.75 or 2.25 pmol kg(-1) min(-1), respectively). The change in hunger rating after the meal to 180 min was also unaffected by infusion of GLP-2. GLP-2 does not seem to mediate the ileal brake mechanism.     

Influence of oral dehydroepiandrosterone (DHEA) on urinary steroid metabolites in males and females

Oral dehydroepiandrosterone (DHEA) replacement therapy may have a multitude of potential beneficial effects and exerts its action mainly via peripheral bioconversion to androgens (and estrogens). A daily dose of 50-mg DHEA has been shown by us and others to restore low endogenous serum DHEA concentrations to normal youthful levels followed by an increase in circulating androgens and estrogens. As the hepatic first-pass effect may lead to a non physiological metabolism of DHEA after oral ingestion we studied the influence of two single DHEA doses (50 and 100 mg) on the excretion of steroid metabolites in 14 elderly males [age 58.8+/-5.1 years (mean +/- SEM)] with endogenous DHEAS levels <1500 ng/ml and in 9 healthy females (age 23.3+/-4.1 years) with transient suppression of endogenous DHEA secretion induced by dexamethasone (dex) pretreatment (4x0.5 mg/day/4 days). Urinary steroid profiles in the elderly males were compared to the steroid patterns found in 15 healthy young men (age 28.9+/-5.1 years). In the females the results were compared to their individual baseline excretion without dex pretreatment. Urinary steroid determinations were carried out by semiautomatic capillary gas-liquid chromatography. In both genders DHEA administration induced significant increases in urinary DHEA (females: baseline vs. 50 mg vs. 100 mg: 361+/-131 vs. 510+/-264 vs. 1541+/-587 microg/day; males: placebo vs. 50 mg vs. 100 mg: 434+/-154 vs. 1174+/-309 vs. 4751+/-1059 microg/day) as well as in the major DHEA metabolites androsterone (A) and etiocholanolone (Et). Fifty mg DHEA led to an excretion of DHEA and its metabolites only slightly above baseline levels found in young females and in young men, respectively, whereas 100 mg induced clearly supraphysiological values. After 50 mg DHEA the ratios of urinary DHEA metabolites (A/DHEA, Et/DHEA) were not significantly different between elderly males vs. young male volunteers and young healthy females versus their individual baseline levels. In conclusion, an oral dose of 30 to 50 mg DHEA restores a physiological urinary steroid profile in subjects with DHEA deficiency without evidence for a relevant hepatic first-pass effect on urinary metabolites.     

The expression of serum steroid sex hormones and steroidogenic enzymes following intraperitoneal administration of dehydroepiandrosterone (DHEA) in male rats

The adrenals of humans and primates could secrete large amounts of dehydroepiandrosterone (DHEA) and its sulphate ester (DHEA-S) in the circulation, which act as precursors of active steroid hormones in a long series of peripheral target intracrine tissues. The marked decline of serum DHEA and DHEA-S concentrations with age in humans has been incriminated in the development of various pathologies. Therefore, this study aims to provide detailed information on the effects of the intraperitoneal injection of DHEA on circulating steroid hormones and their metabolites and their trade-off relationship over 24 h in male rats. In this study, 100 healthy adult male Sprague-Dawley (SD) rats were randomly divided into three groups: control, 25 mg kg⁻¹ DHEA-treated and 100 mg kg⁻¹ DHEA-treated. The animals were sacrificed at 0, 1.5, 3, 6, 12 or 24 h, and the samples were collected for subsequent analysis. Total cholesterol (TC) markedly decreased 3 h after the administration of 100 mg kg⁻¹ DHEA, but markedly increased 12 h after administration. The DHEA-S, progesterone (P), testosterone (T), oestradiol (E₂), cortisol (Cor) and aldosterone (Ald) concentrations also markedly increased after DHEA administration, with serum DHEA-S, T, E₂ and Cor levels peaking at 1.5 h. Over time, steroid hormone levels were depressed, but serum Cor and Ald levels were markedly elevated relative to the control group at 24 h. Furthermore, DHEA treatment produced a significant increase in P450scc, 17β-HSDIII, CYP17α and 3β-HSD mRNA expression at 1.5 h, but a decided decrease in P450scc and StAR mRNA expression at 12 and 24 h, and CYP17α and 17β-HSDIII expression at 12 h in the 100 mg kg⁻¹ DHEA group. In total, the results of the present study indicate that DHEA at high pharmacological doses may affect steroid through an effect on steroidogenic enzymes.     

Anti-lipidperoxidative role of exogenous dehydroepiendrosterone (DHEA) administration in normal ageing rat brain

Effects of exogenous dehydroepiendrosterone (DHEA) administration on the levels of lipid proxidation products, malondialdyde (MDA)-a thiobarbuteric acid reactive substance (TBARS) and 4-hydroxynonenal (4-HNE) in different brain regions viz. cerebral cortex, hippocampus cerebellum, and brain stem of 12 and 22 months old rats were studied. DHEA treatment significantly depressed TBARS and 4-HNE in all the brain regions studied, in both the age group rats. Interestingly, the magnitude of decrease was higher in the 22 months old rats than that in 12 months old rats. The results suggest that older the animal, better will be the response of exogenous DHEA administration against age-related peroxidative products.     

Development of the female mammary gland at young ages (morphometric data)

By means of a developed method of histotopographical sections cartograms, 146 preparations obtained from female persons at the age of 8-25 years have been studied. The organ is intensively developing not only at 12-16 years of age, but at 22-25 years, as well. A close correlation is noted at 10-11 years of age between the mammary gland mass and the degree of its parenchyma (glandular tree) development. Subsequently, the connection between these indices becomes essentially weaker. At the age of 15-25 years, according to the variability and standard deviation quantile classes reflecting stages in the organ formation (the degree of the glandular tree development), five types of the mammary gland are distinguished: weak, low middle, middle, high middle and high. During transition of the mammary gland from the weak to the high type, at first the glandular tree is intensively developing in the periphery and in the internal parts, and then in the external squares and in the center of the organ. The degree of uneven development in the glandular tree increases when the middle type is reached. Subsequently, it decreases up to the initial level.     

In vivo activation of the constitutive androstane receptor beta (CARbeta) by treatment with dehydroepiandrosterone (DHEA) or DHEA sulfate (DHEA-S)

We investigated whether dehydroepiandrosterone (DHEA) or DHEA-sulfate (S) affected the activities of nuclear receptors, with special reference to constitutive androstane receptor beta (CARbeta). Administration of DHEA or DHEA-S enhanced the DNA binding of hepatic nuclear extracts to responsive elements for the retinoic acid receptor, the retinoic acid receptor beta 2 and the peroxisome proliferator activated receptor. The bound complexes were shown to be the CARbeta-RXR heterodimer by antibody-supershift assays. The expression of a target gene of CARbeta, Cyp2b10, was increased in liver by DHEA or DHEA-S treatment, suggesting that DHEA or DHEA-S actually activated CARbeta in vivo. It was suggested that the metabolic conversion of DHEA, DHEA-S to CARbeta ligands could occur in vivo and the metabolites could regulate the expression of CARbeta target gene expression. Our results provide new insights into the in vivo relationship between DHEA/DHEA-S and CARbeta activation.     

Fecal dehydroepiandrosterone (DHEA) immunoreactivity as a noninvasive index of circulating DHEA activity in young male laboratory rats

Evidence suggests that dehydroepiandrosterone (DHEA) plays a key role in stress and coping responses. Fecal sampling permits assessment of hormone-behavior interactions reliably and effectively, but no previous study has compared circadian- or stress-dependent alterations between serum DHEA and its fecal metabolites. In the current study, young (28 d of age) male rats were assigned to either an experimental (n = 6) or control (n = 6) group. Rats in the experimental group were exposed to a forced swim test to assess their behavioral and physiologic response to an environmental stressor; blood samples were drawn before the test (baseline), immediately after the test, and at 2 later time points. Only fecal samples were collected from control animals. Fecal DHEA and corticosterone metabolites were monitored in all animals for 24 h. DHEA metabolites in control rats exhibited significant diurnal variation, showing a similar temporal pattern as that of corticosterone metabolites. In addition, fecal and serum DHEA levels were highly correlated. Significant peaks in both DHEA and corticosterone metabolite levels were detected. These data suggest that measures of fecal DHEA can provide a complementary, noninvasive method of assessing adrenal gland function in rats.