kent.edu

Genetic influences and endurance exercise have been shown to alter circulating concentrations of dehydroepiandrosterone (DHEA) and its sulfated conjugate, DHEAS. We hypothesized that acute resistance exercise (RE) and training (RET) would increase DHEA steroids, and the magnitude of the increase would be influenced by a steroid sulfatase (STS) gene variation. Fasting blood samples were collected before and after the first (S1) and last (S30) session of a 10-wk RET program in 62 men and 58 women [age: 21.0 yr (2.4)]. Acute RE increased both DHEA [+2.8 (0.4), S1; +1.6 ng/ml (0.4), S30; P < 0.001] and DHEAS [+154 (24), S1; +166 ng/ml (15), S30; P < 0.001] and decreased DHEAS:DHEA [-27 (8), S1; -15 (7), S30; P < 0.01]. RET reduced resting DHEAS (-122 ng/ml, P < 0.01) and decreased DHEA response to RE (-50%, P < 0.05). Subjects with an STS "G" allele (n = 36) had greater acute changes in DHEA [+4.4 (0.7) vs. +2.0 ng/ml (0.5), S1; +3.2 (0.6) vs. +1.0 ng/ml (0.4), S30; P < 0.01] and DHEAS:DHEA [-37 (11) vs. 5 (7), S30, P < 0.05] than those subjects with only an "A" allele (n = 84). The observed increase in DHEA and DHEAS and decrease in DHEAS:DHEA suggest RE-induced STS activation which is influenced by the STS polymorphism.

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Eur Neuropsychopharmacol. 2004 Aug;14(4):267-73.
Elevation of the cortisol/dehydroepiandrosterone ratio in schizophrenia patients.

Ritsner M, Maayan R, Gibel A, Strous RD, Modai I, Weizman A.

Laboratory of Biological Psychiatry, Felsenstein Medical Research Center, Beilinson Campus, Petah Tikva, Israel.

Dehydroepiandrosterone (DHEA) and its sulfate derivative DHEA-S are neurosteroids, produced in the brain, and neuroactive steroids, produced in the adrenals and affecting the brain. We compared the ratios of serum cortisol/DHEA or DHEA-S in schizophrenia patients with normal subjects, and determined the correlation of these ratios with psychopathology and distress. Early morning plasma concentrations of DHEA, DHEA-S, and cortisol were determined by radioimmunassay in 40 medicated schizophrenia inpatients, and 15 healthy subjects with similar age and sex distribution. Subjects were assessed for psychopathology using the Positive and Negative Syndrome Scale (PANSS) and the Montgomery and Asberg Depression Rating Scale (MADRS), anxiety, anger, emotional and somatic distress levels. Schizophrenia inpatients demonstrated significantly higher levels of state and trait anxiety, anger expression index, emotional and somatic self-reported distress scores. Cortisol/DHEA and cortisol/DHEA-S ratios were significantly higher in schizophrenia patients than in healthy comparison subjects. Both ratios correlated positively with age and duration of illness; cortisol/DHEA-S ratio also showed positive association with age of illness onset. When age, illness duration and age of onset were controlled, cortisol/DHEA-S ratio significantly correlated with severity of depression (MADRS, r=0.33, p=0.048), state and trait anxiety (r=0.43, p=0.008 and r=0.40, p=0.014, respectively), trait anger (r=0.41, p=0.012), angry temperament (r=0.46, p=0.004), anger expression index (r=0.36, p=0.033), and hostility (r=0.42, p=0.010). No significant association was found between these ratios and severity of psychopathology, and type or dos




Yao Xue Xue Bao. 2001 Aug;36(8):576-80.
[Studies on the anti-tumorpromotion activities of dehydroepiandrosterone and its mechanism of action]

[Article in Chinese]

Yang S, Fu ZD, Han R.

Institute of Materia Medica, Chinese Academy of Medical Sciences, Peking Union Medical College, Beijing 100050, China.

AIM: To investigate the anti-tumorpromoting activity of dehydroepiandrosterone (DHEA) and its mechanism of action. METHODS: Using croton oil-induced ear edema model and applying confocal laser scanning microscopy, flow cytometry, immuno-fluorescent techniques to investigate the inhibitory effect of DHEA on tumor promotion. RESULTS: DHEA 25 mg.kg-1 was shown to inhibit croton oil induced ear edema in mice by 51%. DHEA at dose of 40 mg.kg-1 and 10 mg.kg-1 exhibited inhibitory effects on croton oil-induced ornithine decarboxylase (ODC) activity by 64% and 53%, respectively. These results revealed that DHEA can block the change of cell cycle and the percentage of S phase was decreased to 17% at concentration of 10(-7) mol.L-1. The increase of[Ca2+]i and pH as well as PKC-activation induced by TPA stimulation were significantly inhibited by DHEA pretreatment. CONCLUSION: The present experiments demonstrate that DHEA appears to be an attractive candidate as an anti-tumorpromotion agent for tumor chemoprevention. The mechanism of its action might be related to its inhibitory effects on ODC activity and Ca(2+)-DG-PKC signal pathway.

Online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12579932&dopt=Abstract DHEA

itsa.ucsf.edu

OBJECTIVE: Reports of low levels of dehydroepiandrosterone (DHEA) or its sulphate (DHEA-S) in some schizophrenic patients and in some persons with poorer motoric and cognitive functioning led us to examine clinical correlates of serum DHEA and DHEA-S levels in schizophrenic patients. METHOD: Ratings of abnormal movements, memory and psychiatric symptoms in 17 medicated chronic schizophrenic or schizoaffective inpatients at a state hospital were correlated with serum DHEA and DHEA-S levels, and their ratios with serum cortisol. RESULTS: Controlling for age, higher DHEA levels and/or higher DHEA/cortisol ratios were significantly correlated with lower symptom ratings on the Brief Psychiatric Rating Scale, better performance on some measures of memory, and lower ratings of parkinsonian symptoms. CONCLUSION: Relatively low DHEA levels or DHEA/cortisol ratios may identify a particularly impaired subgroup of medicated patients with chronic schizophrenia. Potential implications are discussed.

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Neurobiol Aging. 2003 Jan-Feb;24(1):57-65.
Oxidative stress-mediated DHEA formation in Alzheimer's disease pathology.

Brown RC, Han Z, Cascio C, Papadopoulos V.

The Interdisciplinary Program in Neuroscience, Georgetown University Medical Center, 3900 Reservoir Road NW, Washington, DC 20007, USA.

An alternative pathway for dehydroepiandrosterone (DHEA) synthesis has been suggested by treating rat and human brain cells with ferrous sulfate and beta-amyloid (Abeta). To determine if this pathway exists in human brain, levels of DHEA in hippocampus, hypothalamus and frontal cortex from Alzheimer's disease (AD) patients and age-matched controls were measured. DHEA is significantly higher in AD brain than control, and was highest in AD hippocampi. Cytochrome p450 17alpha-hydroxylase, responsible for peripheral DHEA synthesis, is not present in hippocampus. DHEA levels in AD cerebrospinal fluid (CSF) were significantly higher than age-matched controls. AD serum DHEA levels are lower than CSF, and not significantly different from controls. Treatment of control hippocampus, hypothalamus and serum with FeSO(4) increases DHEA, suggesting that levels of precursor are higher in control that in AD brain. This suggests that (i). an alternative precursor is present in control brain, (ii). AD brain DHEA is formed by oxidative stress metabolism of precursor, and (iii). CSF DHEA levels and serum DHEA formation in response to FeSO(4) may serve as an indicator of AD pathology.

Online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12493551&dopt=Abstract DHEA




Mol Pharmacol. 2003 Mar;63(3):722-31.
Dehydroepiandrosterone affects the expression of multiple genes in rat liver including 11 beta-hydroxysteroid dehydrogenase type 1: a cDNA array analysis.

Gu S, Ripp SL, Prough RA, Geoghegan TE.

Department of Biochemistry and Molecular Biology, the University of Louisville, School of Medicine, Louisville, Kentucky 40292, USA.

Dehydroepiandrosterone (DHEA) is a C-19 adrenal steroid precursor to the gonadal steroids. In humans, circulating levels of DHEA, as its sulfated conjugate, are high at puberty and throughout early adulthood but decline with age. Dietary supplementation to maintain high levels of DHEA purportedly has beneficial effects on cognitive memory, the immune system, and fat and carbohydrate metabolism. In rodents, DHEA is a peroxisome proliferator that induces genes for the classical peroxisomal and microsomal enzymes associated with this response. These effects are mediated through activation of peroxisome proliferator-activated receptor alpha (PPAR alpha). However, DHEA can affect the expression of genes independently of PPAR alpha, including the gene for the major inducible drug and xenobiotic metabolizing enzyme, cytochrome P450 3A23. To elucidate the biochemistry associated with DHEA treatment, we employed a cDNA gene expression array using liver RNA from rats treated with DHEA or the classic peroxisome proliferator nafenopin. Principal components analysis identified 30 to 35 genes whose expression was affected by DHEA and/or nafenopin. Some were genes previously identified as PPAR-responsive genes. Changes in expression of several affected genes were verified by quantitative reverse transcriptase-polymerase chain reaction. These included aquaporin 3, which was induced by DHEA and to a lesser extent nafenopin, nuclear tyrosine phosphatase, which was induced by both agents, and 11 beta-hydroxysteroid dehydrogenase 1, which was decreased by treatment with DHEA in a dose-dependent fashion. Regulation of 11 beta-hydroxysteroid dehydroge




Microsurgery. 2003;23(1):49-55.
Effect of subepineurial dehydroepiandrosterone treatment on healing of transected nerves repaired with the epineurial sleeve technique.

Ayhan S, Markal N, Siemionow K, Araneo B, Siemionow M.

Department of Plastic and Reconstructive Surgery, Cleveland Clinic Foundation, Cleveland, Ohio, USA.

The epineurial sleeve technique for nerve repair is designed in part to protect a healing nerve from external humoral influences, but research suggests that the external factor dehydroepiandrosterone (DHEA) may actually improve nerve healing in crush injuries. To test the effect of DHEA, we injected it into the epineurial chambers created to repair transected rat sciatic nerves. In 18 control rats, the nerve was transected and repaired without DHEA treatment. Eighteen animals received subepineurial injections of propylene glycol vehicle, and 18 received subepineurial injections of about 0.2 ml DHEA. Walking-track analysis and toe-contracture measurements showed no significant differences among the three groups. At 12 weeks, the gastrocnemius muscles in the DHEA group were significantly heavier than those of untreated controls. At 6 and 12 weeks, DHEA-treated nerves had significantly more myelinated axons, larger average fiber diameter, and greater axonal cross-sectional areas in the proximal, middle, and distal sections. Myelin thickness did not differ between groups, except at 6 weeks between the DHEA and vehicle-treated groups. We conclude that subepineurial dehydroepiandrosterone treatment reduced the extent of denervation atrophy and induced an earlier onset of axonal regeneration. Copyright 2003 Wiley-Liss, Inc.

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J Gerontol. 1986 Jul;41(4):433-8.
Inhibition of proteinuria development in aging Sprague-Dawley rats and C57BL/6 mice by long-term treatment with dehydroepiandrosterone.

Pashko LL, Fairman DK, Schwartz AG.

Dehydroepiandrosterone (DHEA) is an adrenal steroid that previously has been shown to produce antiobesity, antidiabetic, cancer preventive, and antiautoimmune effects in laboratory rodents. DHEA, when administered in the diet to male Sprague-Dawley rats beginning at 2 months of age, inhibited the development of proteinuria at 19 months. The nontreated rats excreted 6.5 times as much urinary protein as the group treated with DHEA. Part of the effect of DHEA is apparently a result of reduced food intake in the treated rats (14% reduction), but this alone could not account for its action as a pair-fed group excreted significantly more urinary protein than the DHEA treated rats (2.3 times as much). A similar inhibition of proteinuria in 17-month-old male C57BL/6 mice was produced by DHEA treatment initiated at 10 months of age (5.8 times as much urinary protein excreted by non-DHEA treated mice). DHEA treatment reduced food intake by 11% in the C57BL/6 mice. This reduction in food intake had no apparent effect on proteinuria since a pair-fed group was found to excrete 6.5 times the amount of urinary protein as the DHEA-treated mice.

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Ann N Y Acad Sci. 1986;464:106-16.
Uptake and concentration of steroid hormones in mammary tissues.

Thijssen JH, van Landeghem AA, Poortman J.

In order to exert their biological effects, steroid hormones must enter the cells of target tissues and after binding to specific receptor molecules must remain for a prolonged period of time in the nucleus. Therefore the endogenous levels and the subcellular distribution of estradiol, estrone, DHEAS, DHEA ad 5-Adiol were measured in normal breast tissues and in malignant and nonmalignant breast tumors from pre- and postmenopausal women. For estradiol the highest tissue levels were found in the malignant samples. No differences were seen in these levels between pre- and postmenopausal women despite the largely different peripheral blood levels. For estrone no differences were found between the tissues studied. Although the estradiol concentration was higher in the estradiol-receptor-positive than in the receptor-negative tumors, no correlation was calculated between the estradiol and the receptor consent. Striking differences were seen between the breast and uterine tissues for the total tissue concentration of estradiol, the ratio between estradiol and estrone, and the subcellular distribution of both estrogens. At similar receptor concentrations in the tissues these differences cannot easily be explained. Regarding the androgens, the tissue/plasma gradient was higher for DHEA than for 5-Adiol, and for DHEAS there was very probably a much lower tissue gradient. The highly significant correlation between the androgens suggests an intracellular metabolism of DHEAS to DHEA and 5-Adiol. Lower concentrations of DHEAS and DHEA were observed in the malignant tissues compared with the normal ones and the benign lesions. For 5-Adiol no differences were found and therefore these data do not support our original hypothesis on the role of this androgen in the etiology of breast abnormalities. Hence the way in which adrenal androgens express their influence on the




J Clin Endocrinol Metab. 1986 Sep;63(3):751-7.
Competitive studies with dehydroepiandrosterone sulfate and 16 alpha-hydroxydehydroepiandrosterone sulfate in cultured human choriocarcinoma JEG-3 cells: effect on estrone, 17 beta-estradiol, and estriol secretion.

Zbella EA, Ilekis J, Scommegna A, Benveniste R.

The estradiol (E2) to estriol (E3) ratio during human pregnancy depends on fetal liver hydroxylation of fetal adrenal dehydroepiandrosterone sulfate (DHEAS) and conversion by the trophoblast of DHEAS and 16 alpha-hydroxy-DHEAS (16 OH-DHEAS) to estrone (E1), estradiol (E2), and estriol (E3), respectively. It is not known whether the conversion of DHEAS into E1 and E2 influence the conversion of 16OH-DHEAS into E3 and vice versa. To examine this question, we studied these interactions in human choriocarcinoma JEG-3 cells. In serum-free medium (Dulbecco's Modified Eagle's Medium), JEG-3 cells secreted hCG [27 +/- 3 (+/- SEM) ng/mg cellular protein X 24 h] and progesterone (22 +/- 2.5), but neither C-19 nor C-18 steroids. The addition of DHEAS resulted in secretion of E1 and E2; at a concentration of 500 ng DHEAS/ml, the secretion of E1 (1 +/- 0.16) and E2 (11 +/- 3.1) was maximal, while E3 remained undetectable. The addition of 1000 ng 16 OH-DHEAS/ml resulted in maximum E3 secretion (13 +/- 1.8), while E1 and E2 remained undetectable. The addition of increasing concentrations of DHEAS to cultures exposed to 1000 ng 16OH-DHEAS/ml caused a decrease in E3 secretion and increased secretion of E1 and E2. Conversely, addition of increasing concentrations of 16OH-DHEAS in cultures exposed to 500 ng DHEAS/ml resulted in inhibition of E1 and E2 secretion and increased E3 secretion. A concentration of 16OH-DHEAS that inhibited the conversion of DHEAS into E1 and E2 neither altered the intracellular to extracellular steroid ratios (approximately 0.1) nor reduced the secretion of DHEA, androstenedione, and testosterone. The inhibitory effect of 16OH-DHEAS was minimal at low DHEAS concentrations (favoring the secret




Int J Obes. 1986;10(3):193-204.
Anti-obesity effect of two different levels of dehydroepiandrosterone in lean and obese middle-aged female Zucker rats.

Cleary MP, Zisk JF.

Dehydroepiandrosterone has previously been shown to prevent weight gain in growing lean and obese mice and rats. In the present study, lean and obese female Zucker rats were treated with either 0.6 or 1.0 percent DHEA in the diet from 8 until 14 months of age. In lean rats, 0.6 percent DHEA prevented weight gain and 1.0 percent DHEA resulted in significant weight loss compared to initial body weight. Control lean rats had a significant weight gain. Both 0.6 and 1.0 percent DHEA obese rats lost weight over the experimental period while control obese rats gained weight. Food intake of DHEA-treated obese rats was lowered compared to control obese rats but was similar to that of all lean groups. DHEA lowered serum insulin levels in both lean and obese rats relative to control groups. Both 0.6 and 1.0 percent DHEA lean rats had elevated hepatic G6PD activity compared to control lean rats. DHEA obese rats had lowered G6PD activity compared to the control obese rats. Hepatic malic enzyme was elevated by DHEA treatment in both lean and obese Zucker rats. Adipose tissue weights were lowered substantially in DHEA treated lean and obese rats versus their control groups. These data indicate that DHEA treatment in adult rats has an anti-obesity effect.

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J Steroid Biochem. 1985 Aug;23(2):153-7.
Effect of ACTH and prolactin on dehydroepiandrosterone, its sulfate ester and cortisol production by normal and tumorous human adrenocortical cells.

Feher T, Szalay KS, Szilagyi G.

The effect of ACTH and prolactin on the synthesis of dehydroepiandrosterone (DHEA) and its sulfate ester (DHEAS) was studied in cell suspensions of "normal" and tumorous (adenoma) human adrenal cortex. A stimulation of DHEA and no response of DHEAS production by ACTH in "normal" adrenocortical cell suspension was observed. However ACTH stimulated both DHEA and DHEAS synthesis in tumorous adrenocortical cells. Prolactin did not influence either the basal or the ACTH stimulated DHEA and DHEAS production of adrenocortical cells irrespective of their origin. Our results are compatible with the concept that the biosynthesis of DHEA is under ACTH control, while other factor(s) regulate(s) the sulfate pathway of DHEA secretion under normal conditions. In tumorous adrenocortical cells DHEA may be regulated--at least partly--by ACTH. Prolactin seems to have no direct effect on DHEA and DHEAS synthesis. It is postulated that the relationship between serum prolactin and DHEAS (or DHEA) levels observed by several authors might be an extraadrenal effect of prolactin on adrenal androgens.

Online pharmacy ref source: www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=2993747&dopt=Abstract DHEA