Alteration in the normal pattern of serum testosterone and 5α-androstane-3α,17β-diol in the immature male rat following chronic treatment with luteinizing hormone releasing hormone or luteinizing hormone

A major component of sexual maturation in the male rat is a progressive decline in serum concentrations of 5α-androstane-3α,17β-diol (3α-diol) and a concomitant increase in testicular testosterone biosynthesis and secretion. Chronic administration of synthetic luteinizing hormone releasing hormone (LHRH) or luteinizing hormone (LH)/human chorionic gonadotropin (hCG) to immature male rats has been shown to result in a delay in sexual maturation as evidenced by decreased sex accessory gland weights and altered testicular testosterone production. We have examined the postulate that such treatments may either reverse or retard the normal developmental pattern of serum testosterone and 3α-diol concentrations. Chronic $\text{in vivo}$ treatment of 28 day old immature male rats for 2 weeks with daily injections of either 0.5 μg of LHRH, 1.0 μg of LHRH, or 30 μg of LH was found to result in significant reductions in weights of the seminal vesicles and ventral prostate glands and diminutions in serum testosterone concentrations. Serum content of 3α-diol was either unchanged or slightly elevated in the LHRH treated animals and increased significantly in the LH treated animals. These data suggest that either a reversal of or retardation in the normal developmental pattern of serum testosterone and 3α-diol content has been achieved in the immature male rat by chronic LHRH or LH treatment.     

Testosterone formation in testis of the immature androgen insensitive pseudohermaphrodite male rat (Stanley-Gumbreck rat)

Testosterone formation from pregnenolone (3β-hydroxy-5-pregnen-20-one) and progesterone in testis of the Stanley-Gumbreck pseudohermaphrodite (Ps) adult rat is greatly reduced in comparison to the normal (Nl) adult rat testis. In an attempt to determine whether this defect is congenital or acquired postnatally with increasing age, minced testis of 1-month-old Ps and Nl rats were incubated with progesterone, and the labeled metabolites identified. Almost equal amounts of progesterone were metabolized by both Ps and Nl testis. In mince incubations without NADPH nearly as much testosterone and 4-androstene-3,17-dione accumulated in the Ps as in the Nl testis. Very little androsterone and 5α-androstane-3α,17β-diol were formed in these incubations. When minces were incubated with progesterone in the presence of NADPH, testosterone and 4-androstene-3,17-dione accumulation was greatly reduced, and instead 5α-androstane-3α,17β-diol was formed as the major product by Nl testis and androsterone by Ps testis. Neither heparin, a 5α-reductase inhibitor, nor glucose-6-phosphate dehydrogenase alone significantly influenced progesterone metabolism or the accumulation of testosterone or 4-androstene-3,17-dione in either Ps or Nl testis. These results indicated that the 5α-reductase activity in both the Ps and N1 testis is dependent only on NADPH. Although studies were not carried out in younger rats (2–5 days of age), our results are in agreement with previous studies of Goldstein and Wilson who demonstrated equal accumulation of testosterone in incubations of testis from normal and Tfm/y mice. However, it is apparent that differences between Nl and Ps testis may be revealed only under conditions which allow maximum rates of 17-oxo- and 5α-reductions.     

The effect of zinc on the 5α-reduction of testosterone by the hyperplastic human prostate gland

The present studies were performed to evaluate the role of zinc in the regulation of testosterone 5α-reduction by the 800 g supematants prepared from human benign prostate hyperplasia specimens. The results show that when zinc is added at low concentrations the 5α-reduction of testosterone is increased but at higher cation concentrations the metabolism is significantly inhibited. This decrease was mediated by both a non-competitive inhibition of the binding of testosterone to the 5α-reductase enzyme and by a reduction in the formation of the NADPH cofactor. We have also demonstrated that the decreased synthesis of NADPH was produced by a competitive inhibition of both G6P and NADP binding to the G6PD enzyme. The data also suggests that the increase in testosterone metabolism observed at low zinc concentrations does not produce any changes in the binding of testosterone to the 5α-reductase enzyme. In spite of the above observations we were unable to establish any correlation between the endogenous zinc content of the tissue and the the in vitro capacity of the BPH samples to 5α-reduce testosterone. The present study suggests a possible physiological role for the regulation of testosterone metabolism by zinc in the human prostate gland.     

The metabolism of androgens in rat preputial glands

The metabolism of testosterone, androstenedione and dehydroepiandrosterone in the rat preputial gland has been studied. A high activity of 5α-reductase is present as shown by the formation of 17β hydroxy-5α-androstan-3-one and 5α-androstan-3, 17-dione as the major products from testosterone and androstenedione respectively. Other enzyme activities are present including 17β-hydroxy steroid dehydrogenase, but the amounts of testosterone and 17β-hydroxy-5α-androstan-3-one formed from androstenedione and dehydroepiandrosterone are low. The main product of dehydroepiandrosterone metabolism was androstenedione indicating a high level of 3β-hydroxy steroid dehydrogenase 4-5 isomerase activity. The metabolism was compared with that in rat skin where it was found that the extent of metabolism was much less. The possible significance of the various products formed and of differences between skin and preputial gland metabolism is discussed. Some differences were noted between the metabolism of androgens by rat skin and preputial gland and the metabolism of androgens by human skin.     

The influence of androgens, anti-androgens, and castration on cell proliferation in the jejunal and colonic crypt epithelia, and in dimethylhydrazine-induced adenocarcinoma of rat colon

Androgenic hormones have previously been shown to promote cell proliferation in the small intestine of rat and androgen receptors have been demonstrated in carcinomata of the large intestine of rat. In this study the influence of testosterone and of castration on epithelial cell proliferation in the small intestine, the large intestine and in dimethylhydrazine-induced colonic tumours is compared. Cell proliferation in the small intestine and in colonic tumours was accelerated by testosterone treatment, and cell proliferation in colonic tumours, but not in the small intestine, was retarded following castration. Cell proliferation in colonic tumours was also inhibited by the anti-androgenic drug, Flutamide. Testosterone and castration each failed to influence cell proliferation in the colonic crypt epithelium of both normal and carcinogen-treated animals.     

Inhibitory effects of some steroidal 6-methylene derivatives on 5α-reductase activity in human and rat prostate

Using a short-term organ culture assay, some 6-methylene derivatives of progesterone and testosterone have been evaluated for their effects on testosterone metabolism in rat and human prostatic tissues, and on DNA synthesis in explants from 7-day castrated rats. Comparative studies showed that the ability to inhibit 5α-reductase activity was fairly specific with respect to structural requirements. Methylene substitution at the C₆ position of the progesterone molecule was associated with high inhibitory activity. In explants prepared from human prostates, 6-methylene progesterone (II) had 70–85% (mean of 79% for 4 BPH tissues) of the potency of unmodified progesterone (I). Its 17α-acetoxy-6-methylene analog (III), however, had only 32–73% (mean of 53% for 5 BPH specimens) of the activity of (I). The degrees of inhibition in rat and human prostatic tissues were similar. Inhibition of 5α-reductase activity in cultured explants by 6-methylene progesterone (II) could not be reversed by change in media. The 6-methylene derivatives had little or no effect on DNA synthesis. Histological examination confirmed a lack of effect on basal cell proliferation. However, morphological alterations affecting epithelial cell height and secretory activity were clearly evident. These results indicate that, under our experimental conditions, the main effect of inhibition of 5α-reductase activity in prostatic tissues by 6-methylene derivatives of progesterone is related to suppression of differentiated function.     

Different patterns of 5alpha-reductase expression, cellular distribution, and testosterone metabolism in human follicular dermal papilla cells

Androgens regulate hair growth, and 5α-reductase (5αR) plays a pivotal role in the action of androgens on target organs. To clarify the molecular mechanisms responsible for controlling hair growth, the present study presents evidence that the human follicular dermal papilla cells (DPCs) from either beard (bDPCs) or scalp hair (sDPCs) possess endogenous 5αR activity. Real-time RT-PCR revealed that the highest level of 5αR1 mRNA was found in bDPCs, followed by sDPCs, and a low but detectable level of 5αR1 mRNA was observed in fibroblasts. Minimally detectable levels of 5αR2 mRNA were found in all three cell types. A weak band at 26 kDa corresponding to the human 5αR1 protein was detected by Western blot in both DPCs, but not in fibroblasts. Immuonofluorescence analysis confirmed that 5αR1 was localized to the cytoplasm rather than in the nuclei in both DPCs Furthermore, a 5αR assay using [¹⁴C]testosterone labeling in intact cells revealed that testosterone was transformed primarily into androstenedione, and in small amounts, into DHT. Our results demonstrate that the 5αR activities of either bDPCs or sDPCs are stronger than that of dermal fibroblasts, despite the fact that the major steroidogenic activity is attributed to 17β-HSD rather than 5αR among the three cell types. The 5αR1 inhibitor MK386 exhibited a more potent inhibitory effect on 5αR activity than finasteride (5αR2 inhibitor) in bDPCs.     

Steroid specificity of human placental 5-ene-3β-hydroxysteroid oxidoreductase

The properties of 5-ene-3β-hydroxysteroid oxidoreductase (3β-HSD) from human placental homogenates were studied invitro. The apparent Michaelis constants for 3β-HSD with the substrates pregnenolone (Δ⁵P) and dehydroepiandrosterone (DHA) were 170 nM and 40 nM respectively. The optimal pH for both these substrates was between 10 and 12. With NAD as the substrate, the Km for pregnenolone was 20 μM and for DHA, 17 μM. The activity of 3β-HSD was inhibited by various steroids. Competitive inhibitors (pregnenolone substrate) included: ethynylestradiol (inhibition constant Ki=7.3 nM), DHA (Ki=46 nM), estradiol-17β (Ki=46 nM), cholesterol (Ki=0.68 μM) and 16α-hydroxydehydroepiandrosterone (16αOHDHA) (Ki=2.2 μM). When the substrate was DHA, competitive inhibition occurred with the following steroids: ethynylestradiol (Ki=6.4 nM), estradiol-17β (Ki=69 nM), pregnenolone (Ki=91 μM), cholesterol (Ki=1.3 μM) and 16αOHDHA (Ki=1.9 μM). 4-Ene-3-ketosteroids such as androstenedione, progesterone (Δ⁴P), norethindrone and chlormadinone acetate acted as noncompetitive inhibitors towards both substrates.     

Metabolism of dehydroepiandrosterone by hormone dependent and hormone independent human breast carcinoma.

The metabolism of 7alpha-3H-dehydroepiandrosterone was studied in six human breast carcinomas in vitro. All mammary tumors transformed DHA to testosterone, dihydrotestosterone, 5alpha-androstane-3alpha, 17beta-diol and 5alpha-androstane-3,17-dione. Of the tumors investigated, three estrogen receptor-negative tumors converted DHA to estradiol and only one estrogen receptor-positive tumor produced estradiol from DHA. Observations on the relationship of androgen metabolism and hormone dependency are discussed.     

The inhibition of the conversion of testosterone into 5α-dihydrotestosterone in the reproductive organs of the male rat

The inhibition of testosterone 5α-reductase activity by 3-oxo-4-androstene-17β-carboxylic acid in the male reproductive organs of the rat was demonstrated $\text{in vitro}$. The medium for incubation of caput epididymis showed the highest concentration of 5α-dihydrotestosterone (5α-DHT) whereas the highest concentration of testosterone (T) was recorded in medium for incubation of decapsulated testis after two hours of incubation. The 3-oxo-4-androstene-17β-carboxylic acid (1.58 × 10^?5M) inhibited the conversion of T to 5α-DHT in all the organs tested (testis, caput and cauda epididymis and ventral prostate) under identical incubation conditions.     

Inhibition of testosterone 5α-reductase by a proposed enzyme-activated,active site-directed inhibitor

RMI 18,341 (5α,20-R)-4-diazo-21-hydroxy-20-methylpregnan-3-one, was designed to be an enzyme-activated irreversible inhibitor of testosterone 5α-reductase. It produced time-dependent, apparently first-order inactivation of the enzyme, which can be antagonized by substrate, indicative of irreversible inactivation occurring at the enzyme active site. Unlike conventional 5α-steroids, RMI 18,341 has a high affinity for the enzyme:apparent K_i = 3.5 × 10^?8M. At 25°C, formation of the reversible EI complex is not rate-limiting for enzyme inactivation, and this is expressed as saturation kinetics for the inhibition reaction. RMI 18,341 produces no inhibition of 3α-hydroxysteroid oxidoreductase of rat prostate, in contrast to other 3-keto-5α-steroids. The specificity, irreversibility and high affinity for testosterone 5α-reductase should make RMI 18,341 a useful tool in elucidation of the physiological roles of testosterone metabolites.     

Effect of dietary docosahexaenoic acid on biosynthesis of docosahexaenoic acid from alpha-linolenic acid in young rats

Docosahexaenoic acid (DHA), a crucial nervous system n-3 PUFA, may be obtained in the diet or synthesized in vivo from dietary alpha-linolenic acid (LNA). We addressed whether DHA synthesis is regulated by the availability of dietary DHA in artificially reared rat pups, during p8 to p28 development. Over 20 days, one group of rat pups was continuously fed deuterium-labeled LNA (d5-LNA) and no other n-3 PUFA (d5-LNA diet), and a second group of rat pups was fed a d5-LNA diet with unlabeled DHA (d5-LNA + DHA diet). The rat pups were then euthanized, and the total amount of deuterium-labeled docosahexaenoic acid (d5-DHA) (synthesized DHA) as well as other n-3 fatty acids present in various body tissues, was quantified. In the d5-LNA + DHA group, the presence of dietary DHA led to a marked decrease (3- to 5-fold) in the total amount of d5-DHA that accumulated in all tissues that we examined, except in adipose. Overall, DHA accretion from d5-DHA was generally diminished by availability of dietary preformed DHA, inasmuch as this was found to be the predominant source of tissue DHA. When preformed DHA was unavailable, d5-DHA and unlabeled DHA were preferentially accreted in some tissues along with a net loss of unlabeled DHA from other organs.     

Effects of fatty acid unsaturation numbers on membrane fluidity and α-secretase-dependent amyloid precursor protein processing

Fatty acids may integrate into cell membranes to change physical properties of cell membranes, and subsequently alter cell functions in an unsaturation number-dependent manner. To address the roles of fatty acid unsaturation numbers in cellular pathways of Alzheimer's disease (AD), we systematically investigated the effects of fatty acids on cell membrane fluidity and α-secretase-cleaved soluble amyloid precursor protein (sAPP(α)) secretion in relation to unsaturation numbers using stearic acid (SA, 18:0), oleic acid (OA, 18:1), linoleic acid (LA, 18:2), α-linolenic acid (ALA, 18:3), arachidonic acid (AA, 20:4), eicosapentaenoic acid (EPA, 20:5), and docosahexaenoic acid (DHA, 22:6). Treatments of differentiated human neuroblastoma (SH-SY5Y cells) with AA, EPA and DHA for 24h increased sAPP(α) secretion and membrane fluidity, whereas those treatments with SA, OA, LA and ALA did not. Treatments with AA and DHA did not alter the total expressions of amyloid precursor protein (APP) and α-secretases in SH-SY5Y cells. These results suggested that not all unsaturated fatty acids but only those with 4 or more double bonds, such as AA, EPA and DHA, are able to increase membrane fluidity and lead to increase in sAPP(α) secretion. This study provides insights into dietary strategies for the prevention of AD.     

Induction of testosterone 16β-hydroxylase in rat liver microsomes by phenobarbital pretreatment

Oxidation products of testosterone in control rat liver microsomes were 16α-, 2α-, 6β-, 7α-hydroxytestosterone and 4-androstene-3,17-dione, but no 2β-hydroxytestosterone was detected. Increased testosterone 16β-hydroxylase activity and 4-androstene-3,17-dione production were found upon incubation of testosterone with phenobarbital-pretreated rat liver microsomes.     

Glutathione Oxidase from Bovine Skim Milk Membranes: Its Copurification with γ-Glutamyltransferase

Two hundred thirteen cytochrome P450 (P450) genes were collected from bacteria and expressed based on an Escherichia coli expression system to test their hydroxylation ability to testosterone. Twenty-four P450s stereoselectively monohydroxylated testosterone at the 2α-, 2β-, 6β-, 7β-, 11β-, 12β-, 15β-, 16α-, and 17-positions (17-hydroxylation yields 17-ketoproduct). The hydroxylation site usage of the P450s is not the same as that of human P450s, while the 2α-, 2β-, 6β-, 11β-, 15β-, 16α-, and 17-hydroxylation are reactions common to both human and bacterial P450s. Most of the testosterone hydroxylation catalyzed by bacterial P450s is on the β face.     

The effects of diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxamide (4-MA) and (4R)-5,10-SECO-19-norpregna-4,5-diene-3,10,20-trione (SECO) on androgen biosynthesis in the rat testis and epididymis

We have investigated the effects of two 4-ene-steroid 5 alpha-reductase inhibitors, diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxamide (4-MA) and (4R)-5,10-seco-19-norpregna-4, 5-diene-3,10,20-trione (SECO), on testicular and epididymal androgen biosynthesis. Kinetic analyses revealed that both compounds inhibited epididymal DHT biosynthesis. 4-MA was a competitive inhibitor of epididymal nuclear and microsomal 4-ene-steroid 5 alpha-reductases (3-oxo-5 alpha-steroid: NADP 4-ene-oxidoreductase EC 1.3.1.22) with Kiapp values of 12.8 and 15.1 nmol/l compared to the respective Kmapp values of 185 and 240 nmol/l. Values for the Vmaxapp were always within 70-130% of the control. SECO at 1.0 mumol/l, also inhibited epididymal nuclear and microsomal 4-ene-steroid-5 alpha-reductases, causing respectively 2.9 and 5.2-fold increases in Kmapp. The Vmaxapp values were unchanged. However, SECO concentrations of 5 and 25 mumol/l abolished 4-ene-steroid 5 alpha-reductase activity at all testosterone concentrations. To examine the specificity of these compounds, we investigated their effects on the enzymes that convert pregnenolone to testosterone. Rat testis microsomes converted pregnenolone to testosterone via the 4-ene-3-oxo pathway, with the major metabolites being progesterone, 17-hydroxyprogesterone, 4-androstenedione and testosterone; some 17-hydroxypregnenolone was also formed. Very small amounts of dehydroepiandrosterone (DHA) and 5-androstenediol were detected. SECO, at a concentration that completely inhibited epididymal 4-ene-steroid 5 alpha-reductase activity, did not alter the metabolic profile of pregnenolone metabolism. However, 4-MA prevented the appearance of 4-ene steroids, and large quantities of 17-hydroxypregnenolone and DHA accumulated, suggesting that inhibition of the 3 beta-hydroxysteroid: NAD(P)+ oxidoreductase (EC 1.1.1.51) and 3-oxosteroid 5-ene-4-ene-isomerase (EC 5.3.3.1) [3 beta-hydroxysteroid dehydrogenase-isomerase] was occurring. Optimal conditions for the microsomal conversion of DHA to 4-androstenedione were determined; kinetic analyses of the 3 beta-hydroxysteroid dehydrogenase-isomerase activity revealed that 4-MA inhibited this reaction non-competitively, reducing Vmaxapp values to 25% of the control. The Kiapp determined from the intercept replot, was 121 nmol/l, and the Kmapp was always between 90 and 130% of the control value. It is concluded that SECO is more specific than 4-MA in its effects on androgen biosynthesis in the testis and epididymis and that both these drugs should provide useful tools in assessments of the relative contributions of 5 alpha-reduced androgens to androgen dependent processes.