Radioimmunoassay measurements of nuclear dihydrotestosterone in rat prostate. Relationship to androgen receptors and androgen-regulated responses.

The concentration of dihydrotestosterone was measured by radioimmunoassay in nuclear and cytoplasmic extracts from rat ventral prostates. In the regenerating prostates of castrated rats treated with dihydrotestosterone for 4 days, the nuclear concentration of this steroid increased from approx. 70nM to 800nM as a linear function of the injected dose, whereas the cytoplasmic concentration remained relatively constant (70-130nM). Isotope-exchange measurements of nuclear androgen receptors by using [3H]methyltrienolone indicated that, although the concentration of nuclear dihydrotestosterone was several-fold higher than the concentration of androgen receptors, they were logarithmically related. The recruitment of prostatic cells into the growth fraction and the stimulation of 5 alpha-reductase activity were more directly correlated to the nuclear concentration of androgen receptors than to the total nuclear concentration of dihydrotestosterone. Maximal restoration of a specific isoenzyme of acid phosphatase ws achieved when approx. 2000 androgen receptors were present in the prostatic nuclei; higher concentrations of nuclear androgen receptors were associated with decreased amounts of this enzyme. Hence the results imply, first, that the total amount of dihydrotestosterone accumulated by nuclei is not a direct consequence of carrier-mediated transport by androgen receptors, and, secondly, that, whereas acid phosphatase may be differentially controlled by androgens in the regenerating prostate, increases in the amount of cell proliferation and 5 alpha-reductase activity directly parallel increases in the nuclear concentration of androgen receptors.     

Androgen receptors: relationship to growth response and to intracellular androgen transport in nine variant lines of the Shionogi mouse mammary carcinoma.

Aspects of the biological significance of androgen receptors have been studied in nine variant lines of the Shionogi carcinoma, two of which are androgen dependent and seven of which are autonomous. The dependent lines, and two of the seven autonomous lines, contain androgen receptors; this finding demonstrates that the presence of receptors is not an accurate marker of hormonal dependence in vivo. Since the ability to transport androgens into the nucleus, as judged from the relative maximal rates of transport, is virtually restricted to dependent and autonomous lines which possess cytoplasmic receptors, it is clear that such receptors may play a role in regulating the intranuclear concentration of androgens. The absence of cytoplasmic receptors and the comparative lack of perceptible transfer of androgens across the nuclear membrane are features peculiar to the autonomous condition.     

Androgen receptors: Relationship to growth response and to intracellular androgen transport in nine variant lines of the shionogi mouse mammary carcinoma

Aspects of the biological significance of androgen receptors have been studied in nine variant lines of the Shionogi carcinoma, two of which are androgen dependent and seven of which are autonomous. The dependent lines, and two of the seven autonomous lines, contain androgen receptors; this finding demonstrates that the presence of receptors is not an accurate marker of hormonal dependence in vivo. Since the ability to transport androgens into the nucleus, as judged from the relative maximal rates of transport, is virtually restricted to dependent and autonomous lines which possess cytoplasmic receptors, it is clear that such receptors may play a role in regulating the intranuclear concentration of androgens. The absence of cytoplasmic receptors and the comparative lack of perceptible transper of androgens across the nuclear membrane are features peculiar to the autonomous condition.     

Androgen receptor in nuclei of rat testis.

Testis nuclei of hypophysectomized rats selectively accumulate labeled testosterone and 5alpha-dihydrotestosterone following the injection of tritiated testosterone in vivo. Testosterone and 5alpha-dihydrotestosterone are bound to macromolecules in nuclei and can be extracted with 0.5 M KCl. Accumulation of protein bound radioactive androgens in nuclei of isolated seminiferous tubules is similar to that of whole testis. The relative amounts of testosterone and dihydrotestosterone in purified nuclei were similar to the relative amounts bound to cytoplasmic receptors, suggesting that cytoplasmic androgen-receptor complexes may be transported into the nuclei. Binding of labeled androgen is saturable and inhibited by prior injection of unlabeled testosterone or cyproterone acetate. Nuclear binding sites are destroyed by the proteolytic enzyme pronase, but not by DNase. Like the cytoplasmic androgen-receptor complexes in rat testis, nuclear androgen-protein complexes are heat labile and dissociate slowly at 0 degrees C. androgens fail to accumulate in testis nuclei of the Stanley-Gumbreck androgen insensitive rat, a species lacking cytoplasmic androgen receptors in testis and other androgen target tissues.     

Up-regulation of androgen receptor binding in male rat fat pad adipose precursor cells exposed to testosterone: study in a whole cell assay system

Binding of androgens to adipocytes has previously been evaluated using cytosol fractions without taking into account nuclear binding, although the latter is suggested to be close to the physiological site of action. In the present study, performed in differentiated fat pad adipose precursor cells, we describe a simple, reliable and reproducible androgen binding assay in a system with intact cells. Tritiated and unlabeled methyltrienolone (R1881) were used to define specific and unspecific androgen binding. Triamcinolone acetonide was added to prevent the binding of R1881 to other types of receptors. Differentiated adipose precursor cells contain a homogeneous class of high affinity androgen binding sites, and binding is saturable and reversible. Binding apparently occurs at one site, with a Kd in the range of physiological androgen concentration (about 4 nM). Competition studies indicate that the receptor is specific for R1881, testosterone and dihydrotestosterone, which have approximately the same affinity, while progesterone, estradiol and dexamethasone show much lower affinity. Androgen binding was markedly enhanced after cellular exposure to R1881 and testosterone but not dihydrotestosterone, and this increase was dependent on protein synthesis, suggesting the formation of new receptors by these androgens. In conclusion, fully differentiated adipocytes contain a specific, high affinity receptor, the density of which is dependent on androgens.     

Androgenic regulation of luteinizing hormone secretion: relationship to androgen binding in sheep pituitary

Castrated ram lambs (wethers) were investigated for sensitivity to androgen feedback and to determine whether this feedback inhibition of luteinizing hormone (LH) was associated with changes in pituitary androgen receptors. Administration of Silastic capsules containing either dihydrotestosterone or testosterone was found to produce dose-dependent inhibitory effects on serum LH levels in wethers. Physiological dosages of these androgens (i.e., those that produce serum levels of dihydrotestosterone [0.24 ng/ml] or testosterone [2.1 ng/ml] similar to those of intact rams) resulted in differential inhibition of serum LH and LH content of the anterior pituitary. Whereas the inhibitory effect of dihydrotestosterone on pituitary LH content was much more dramatic than that seen with testosterone, the high dosage of testosterone also produced a substantial decrease in pituitary LH content. Responses of the pituitary to changes in serum androgen were compared to responses of the seminal vesicle, which served as a control androgen target organ. Androgen levels were positively correlated with seminal vesicle weights, but pituitary weights were unaffected by castration and/or androgen replacement. Treatments with dihydrotestosterone were associated with decreased cytosol androgen binding activity (i.e., receptors) in pituitary and seminal vesicle, suggesting that both of these tissues were sites of androgen action. Although testosterone inhibited serum LH levels, pituitary cytosol androgen receptors were not affected by changes in serum testosterone. We conclude from these data that dihydrotestosterone is a physiological regulator of pituitary LH secretion in the ram and that further study is needed to investigate the complex actions of testosterone and its metabolites on pituitary function.     

Mechanisms of replenishment of nuclear and rogen receptor in rat ventral prostate

1. The concentration of androgen receptor in the nucleus of the prostatic cell is rapidly elevated by the administration in vivo of 2μg of [³H]testosterone to 1-day-castrated rats. From a concentration of 2300 receptors/nucleus at 5min after intravenous injection of hormone, there is an increase to 21000 receptors/nucleus at 60min. At the same time, the amount of binding of androgen in the cytoplasm remains constant at a relatively low value. 2. An identical dose of [³H]testosterone administered to 7-day-castrated rats produces a much smaller change in the concentration of nuclear receptor, from 700 receptors/nucleus at 5min to only 4300 receptors/nucleus at 60min. Thus the reservoir from which nuclear receptor is replenished is considerably smaller in regressed prostatic cells. Again, the amount of binding of androgen in the cytoplasm remains unchanged at a low value over the experimental time course of 60min. 3. In contrast with the scant labelling of cytoplasmic receptor achieved by injecting animals with [³H]testosterone, labelling in vitro, by incubation of tissue slices with radioisotope, indicates that prostate of 1-day-castrated animals actually contains 21400 receptors/cell in the cytoplasmic compartment, and prostate of 7-day-castrated animals 3000 receptors/cell. 4. Owing to the similarity between the concentration of nuclear receptor measured in vivo and the concentration of cytoplasmic receptor measured in vitro, the labelling techniques in vivo and in vitro were used in sequence to demonstrate the movement of most of the cytoplasmic receptor into the nucleus. In the 5–60min interval after the administration of [³H]testosterone to 1-day-castrated rats, a decrease of 17400 receptor molecules in the cytoplasm is exactly mirrored by an increase of 17200 receptor molecules in the nucleus. 5. These results imply that, in prostate of 1-day-castrated rats, nuclear receptor is replenished exclusively by translocation of cytoplasmic receptor. However, in the regressed prostate of 7-day-castrated rats, only about 25% of the nuclear receptor is replenished through translocation of existing cytoplasmic receptor. The remainder is ultimately synthesized during new rounds of cell division induced by hormone.     

Androgen receptors from the epididymis of the rhesus monkey

The demonstration and partial characterization of androgen "receptors" in the epididymis of the rhesus monkey are reported. The affinity of specific binding sites for dihydrotestosterone was higher than that for testosterone while cortisol and corticosterone did not compete. Density gradient analysis of the cytosol revealed that macromolecules responsible for specific binding have a sedimentation coefficient of 8 S. The isoelectric point of the complex was 5.5 and thermoability was evidenced by the release of hormone during incubation at 27 degrees C (20% and 44% after 30 and 60 minutes, respectively.) A concomitant decrease in radioactivity bound to 8 S cytoplasmic components suggests the translocation into the nuclei of a modified 8 S-receptor complex. These data indicate the presence of similar cytoplasmic and nuclear androgen receptors in the monkey seminal vesicles and prostate gland.     

Rapid androgen actions on calcium signaling in rat sertoli cells and two human prostatic cell lines: similar biphasic responses between 1 picomolar and 100 nanomolar concentrations

Androgen-induced calcium fluxes and gap junctional intercellular communication (GJIC) were studied in three different cell types. A transient (2-3 min duration) increase in intracellular calcium levels was observed within 20-30 sec of androgen addition, which was followed by a plateau phase with steroid concentrations higher than 1 nM. The kinetics of the calcium responses were similar in immature rat Sertoli cells, which contain normal nuclear receptors; the human prostatic tumor cell line, LNCaP, which contains a mutated nuclear receptor; and the human prostatic cell line, PC3, which does not contain a nuclear receptor. The human A431 tumor cell line did not respond to androgens. Concentrations of testosterone and the synthetic androgen, R1881, between 1-1000 pM induced transient calcium increases with ED(50) values near 1 pM and 1 nM, whereas dihydrotestosterone (DHT) was not active at these concentrations. At concentrations higher than 1 nM, testosterone, R1881, and DHT were equipotent in stimulating an increase in calcium that lasted for more than 10 min, with ED(50) values between 5 and 20 nM. Testosterone covalently bound to albumin was also active, whereas 11 related androstane compounds as well as progesterone and estradiol-17beta were inactive at 1000 nM. The calcium response induced by the three androgens (10 nM) was abolished in all cell types by hydroxyflutamide (1000 nM) and finasteride (1000 nM), but not by cyproterone acetate (1000 nM). The calcium response was also abolished in the absence of extracellular calcium and strongly inhibited by the presence of verapamil. Exposure of the responsive cells to brief (150-sec) pulses of androgens generated calcium responses that were similar to those after continuous exposure. After exposure of Sertoli cells for only 30 sec to 100 nM testosterone, the calcium response lasted for at least 50 min. Although nuclear binding of androgens could be demonstrated, there was no evidence for tight binding to the plasma membrane under similar conditions. When protein synthesis was inhibited, an enhancement of GJIC between rat Sertoli cells, but not between LNCaP cells or PC3 cells, was observed within 15 min of the addition of 10 nM testosterone. Because nuclear androgens are not present in PC3 cells and many functional properties of the responsive system are different from the nuclear receptor in all three cell types, we postulate the existence of an alternative cell surface receptor system with biphasic response characteristics (high and low affinity). The calcium signals are probably coupled to the regulation of gap junctional efficiency between Sertoli cells. The low-affinity receptors may convey complementary androgen signals at elevated local levels such as in the testis, when nuclear receptors are (over)saturated.     

Androgen receptor immunoreactivity in the male and female Syrian hamster brain.

To investigate potential mechanisms for sex differences in the physiologic response to androgens, the present study compared the hormonal regulation of intracellular androgen receptor partitioning and the distribution of androgen receptor immunoreactivity in select brain regions from male and female hamsters. Androgen receptors were visualized on coronal brain sections. Two weeks after castration, androgen receptor immunoreactivity filled the neuronal nuclei and cytoplasm in males and females. In gonad-intact males and females, androgen receptor immunoreactivity was limited to the cell nucleus. Whereas exogenous dihydrotestosterone prevented cytoplasmic immunoreactivity, estrogen at physiologic levels did not. These results suggest that nuclear androgen receptor immunoreactivity in gonad-intact females is maintained by endogenous androgens, and that androgens have the potential to influence neuronal activity in either sex. However, sex differences in the number and staining intensity of androgen-responsive neurons were apparent in select brain regions. In the ventral premammillary nucleus, ventromedial nucleus of the hypothalamus, and medial amygdaloid nucleus, androgen receptor staining was similar in gonadectomized males and females. In the lateral septum, posteromedial bed nucleus of the stria terminalis (BNSTpm), and medial preoptic nucleus, the number of androgen receptor-immunoreactive neurons was significantly lower in females (p < .05). Moreover, the integrated optical density/cell in BNSTpm was significantly less in females (1.28+/-0.3 units) than in males (2.21+/-0.2 units; p < .05). These sex differences in the number and staining intensity of androgen-responsive neurons may contribute to sex differences in the behavioral and neuroendocrine responses to androgens.     

Intracellular partitioning of androgen receptor immunoreactivity in the brain of the male syrian hamster: Effects of castration and steroid replacement

The effect of castration and steroid replacement on the intracellular partitioning of the androgen receptor in the brain of the male Syrian hamster was determined using immunocytochemistry. Androgen receptors were visualized using the PG-21 antibody (G. S. Prins) on 40-μm coronal brain sections from hamsters perfused with 4% paraformaldehyde with or without 0.4% glutaraldehyde. Control studies confirmed antibody specificity in gonad-intact and castrate males. In the normal adult male, androgen receptor immunocytochemistry reveals intense staining confined to the cell nucleus. Castration caused a gradual increase in cytoplasmic labelling within 2 weeks, accompanied by a reduction in nuclear staining intensity in androgen receptor-containing neurons throughout the brain. Cytoplasmic androgen receptor staining was eliminated after treatment of orchidectomized males for only 8 h with exogenous testosterone. Likewise, long-term exposure to testosterone and dihydrotestosterone, a nonaromatizable androgen, maintained nuclear androgen receptor immunoreactivity. However, exposure to low physiologic concentrations of estrogen was not effective in this regard. In addition, we determined that nuclear androgen receptor immunoreactivity decreases in response to inhibitory short-day photoperiod, but without an increase in cytoplasmic immunostaining. This appears to be due to the decrease in androgen production by the testis, rather than a direct photoperiodic effect, because testosterone supplementation to short-day males restored the intensity of nuclear androgen receptor immuno-reactivity to levels comparable to those in the intact male. These findings are compatible with a new model for the intracellular localization of androgen receptors, in which a subset of unoccupied receptors is located in the cell cytoplasm in the absence of ligand. They further demonstrate the repartitioning of such cytoplasmic receptors, thereby confirming and extending previous observations using biochemical techniques on the regulation of neuronal androgen receptors. © 1993 John Wiley & Sons, Inc.     

Androgen receptor immunoreactivity in the male and female Syrian hamster brain

To investigate potential mechanisms for sex differences in the physiologic response to androgens, the present study compared the hormonal regulation of intracellular androgen receptor partitioning and the distribution of androgen receptor immunoreactivity in select brain regions from male and female hamsters. Androgen receptors were visualized on coronal brain sections. Two weeks after castration, androgen receptor immunoreactivity filled the neuronal nuclei and cytoplasm in males and females. In gonad‐intact males and females, androgen receptor immunoreactivity was limited to the cell nucleus. Whereas exogenous dihydrotestosterone prevented cytoplasmic immunoreactivity, estrogen at physiologic levels did not. These results suggest that nuclear androgen receptor immunoreactivity in gonad‐intact females is maintained by endogenous androgens, and that androgens have the potential to influence neuronal activity in either sex. However, sex differences in the number and staining intensity of androgen‐responsive neurons were apparent in select brain regions. In the ventral premammillary nucleus, ventromedial nucleus of the hypothalamus, and medial amygdaloid nucleus, androgen receptor staining was similar in gonadectomized males and females. In the lateral septum, posteromedial bed nucleus of the stria terminalis (BNSTpm), and medial preoptic nucleus, the number of androgen receptor–immunoreactive neurons was significantly lower in females (p < .05). Moreover, the integrated optical density/cell in BNSTpm was significantly less in females (1.28 ± 0.3 units) than in males (2.21 ± 0.2 units; p < .05). These sex differences in the number and staining intensity of androgen‐responsive neurons may contribute to sex differences in the behavioral and neuroendocrine responses to androgens. © 1999 John Wiley & Sons, Inc. J Neurobiol 39: 359–370, 1999     

Binding properties of androgen receptors. Evidence for identical receptors in rat testis, epididymis, and prostate.

Androgen receptors in crude and partially purified 105,000 X g supernatant fractions from rat testis, epididymis, and prostate were studied in vitro using a charcoal adsorption assay and sucrose gradient centrifugation. Androgen metabolism was eliminated during receptor purification allowing determination of the kinetics of [3H]-androgen-receptor complex formation. In all three tissues, receptors were found to have essentially identical capabilities to bind androgen, with the affinity for [3H] dihydrotestosterone being somewhat higher than for [3H] testosterone. Equilibrium dissociation constants for [3H] dihydrotestosterone and [3H] testosterone (KD = 2 to 5 X 10(-10) M) were estimated from independently determined rates of association (ka congruent to 6 X 10(7) M-1 h-1 for [3H] dihydrotestosterone and 2 X 10(8) M-1 h-1 for [3H] testosterone) and dissociation (t 1/2 congruent to 40 hr for [3H] dihydrotestosterone and 15 h [3H] testosterone). Evaluation of the effect of temperature on androgen receptor binding of [3H]testosterone allowed estimation of several thermodynamic parameters, including activation energies of association and dissociation (delta H congruent to 14 kcal/mol), the apparent free energy (delta G congruent to -12 kcal/mol), enthalpy (delta H congruent to -2.5 kcal/mol), and entropy (delta S congruent to 35 cal col-1 K-1). Optimum receptor binding occurred at a pH of 8. Receptor stability was greatly enhanced when bound with androgen. Receptor specificity for testosterone and dihydrotestosterone was demonstrated by competitive binding assays. The potent synthetic androgen, 7 alpha, 17 alpha-dimethyl-19-nortestosterone, inhibited binding of [3H] testosterone or [3H] dihydrotesterone nearly as well as testosterone and dihydrotestosterone while larger amounts of 5 alpha-androstane-3alpha, 17 beta-diol and nonandrogenic steroids were required. Sedimentation coefficients of androgen receptors in all unfractionated supernatants were 4 and 5 to 8 S. Differences in sedimentation coefficients were observed following (NH4)2SO4 precipitation which did not influence the binding properties of the receptors. These results, together with measurements of3alpha/beta-hydroxysteroid oxidoreductase activity in vitro, suggest that organ differences in receptor binding of [3H] dihydrotestosterone and [3H] testosterone in vivo result from relative differences in intracellular concentrations of these androgens rather than from differences in receptor affinities.     

Cultured human skin fibroblasts: a model for the study of androgen action

Human skin may be considered as a target organ for androgens, as are male sex accessory organs, since all events involved in testosterone action have been observed in this tissue. As a corollary, the mechanism of androgen action can be studiedin vitro in cultured skin fibroblasts. The advantages of this system are that studies can be performed with intact human cells under carefully controlled conditions, differentiated genetic and biochemical characteristics of the cells are faithfully preserved and the biological material is renewable from a single biopsy specimen. The metabolism of androgens, in particular the 5α-reduction of testosterone to the active metabolite, dihydrotestosterone, the intracellular binding of androgen to its specific receptor protein and its subsequent translocation to the nucleus have been studied in skin fibroblasts. The intracellular androgen receptor content of genital skin fibroblasts is higher than that from nongenital skin sites. In addition, the androgen receptor has been characterized as a specific macromolecule with properties of high affinity and low capacity similar to that of other steroid hormone receptors. The pathophysiology of three genetic mutations which alter normal male sexual development and differentiation has been identified in the human skin fibroblast system. In 5α-reductase deficiency, an autosomal recessive disorder in which dihydrotestosterone formation is impaired, virilization of the Wolffian ducts is normal but the external genitalia and urogenital sinus derivatives are female in character. At least two types of X-linked disorders of the androgen receptor exist such that the actions of both testosterone and dihydrotestosterone are impaired and developmental abnormalities may involve both Wolffian derivatives and the external genitalia as well. These two forms of androgen insensitivity result from either the absence of androgen receptor binding activity (receptor(−)form) or apparently normal androgen receptor binding with absence of an appropriate biological response (receptor (+) form). In addition, studies with human skin fibroblasts may also be of value in defining the cellular mechanisms underlying the broad spectrum of partial defects in virilization. In summary, we have correlated our studies of the molecular mechanism of androgen action in human genital skin fibroblasts with those of other investigators as these studies contribute to our understanding of male sexual development and differentiation.     

Prostatic involution: effect on androgen receptors and intracellular androgen transport.

In the regressing rat prostate gland the concentration of cytoplasmic receptor declines from a maximal level of 174 ± 24 fmoles/mg protein 1 day after orchiectomy and is virtually undetectable after 7 days. The results of tissue mixing experiments in which equal amounts of prostate from rats orchiectomized 1 day and 7 days previously are incubated and homogenized together indicate that at the latter time the prostate contains factors, presumed to be proteolytic enzymes, which can eradicate the binding of radioactive dihydrotestosterone to cytoplasmic receptor. In the apparent absence of cytoplasmic receptor, the capacity of the cell to transfer androgens into the nucleus is kept intact at a level 30–60% of the experimentally determined maximum, and the competence to form intranuclear receptor is preserved. However, the nuclear receptor observed 7 days after orchiectomy is smaller than the one observed 1 day after orchiectomy.     

Effects of sex steroids and antihormones on growth, adhesiveness and receptors of L-929 cells cultured in serum-containing and serum-free media.

L-929 cells contain distinct steroid hormone receptors for glucocorticosteroids, for androgens and for estrogens. We studied the effects of different hormones at physiological concentrations on androgen and estrogen receptor protein accumulation and on cell multiplication. The cells were cultured in steroid-free serum-containing medium, either in Petri dishes or in suspension cultures, and in serum-free medium in Petri dishes. The presence of androstanolone (30 nM) in suspension cultures decreased the concentration of estradiol receptor-binding sites in the cytoplasmic fraction. This decrease was progressive following 3, 5 or 10 days of suspension culture in the presence of the androgen; simultaneously a parallel increase in cell multiplication and DNA was observed. The estradiol receptor decrease was approx. 50% after 10 days of treatment and was unaltered after a further 5 days. It was verified that the low androstanolone concentration in the medium did not provoke the translocation of the estradiol receptor into the nucleus. Progesterone 50 nM also decreased the cytoplasmic estradiol binding sites but had no influence on cell growth and no cytoplasmic progesterone receptor could be found. Diethylstilbestrol (30 nM) did not decrease the concentration of androgen receptor.Cell multiplication was stimulated after several days of suspension culture in the presence of either diethylstilbestrol, estradiol or androstanolone at a concentration of 10–30 nM. The specific anti-hormones, tamoxifen and cyproterone acetate, inhibited selectively the growth effects of estrogens and androgen, respectively. L-929 cells could be cultured for a long period of time in serum-free medium in Petri dishes. Cell adhesiveness was increased in the presence of 40 nM androstanolone or 40 nM estradiol, as well as cell multiplication. Dexamethasone had a negative effect on cell adhesiveness and cell growth. The experimental data suggest that at low concentrations the different steroids operated each through its own receptor and were active on cell growth even in serum-free medium.     

Androgen metabolism and inhibition of interleukin-1 synthesis in primary cultured human synovial macrophages

The presence of androgen receptors on synovial macrophages in human normal and rheumatoid synovial tissues has been described previously. It is now reported that primary cultured human macrophages obtained from normal and rheumatoid synovia express functional androgen receptors. We have investigated the capacity of cultured macrophages to metabolize androgens and have found that these cells were capable of metabolizing testosterone to the bioactive metabolite dihydrotestosterone. Therefore, macrophages contain the key enzymes of steroidogenesis, in particular the 5alpha-treductase. Furthermore, interleukin-1beta production by primary cultured rheumatoid macrophages was analysed, following exposure to physiological concentrations of testosterone (10(-8) M). A significant decrease of IL-1beta levels in conditioned media after 24 h (p < 0.05) was observed. It is concluded that androgens may act directly on human macrophages and may interfere with some of their functions via receptor-dependent mechanisms.     

Proliferation of a highly androgen-sensitive ductus deferens cell line (DDT1MF-2) is regulated by glucocorticoids and modulated by growth on collagen

Proliferation of the hamster ductus deferens cloned tumor cell line (DDT1MF-2) in monolayer culture is markedly stimulated by androgens in a dose dependent fashion. Furthermore, growth on collagen confers upon these cells a greater dependence on this class of hormones, such that testosterone (10 nM) induces a 15-fold elevation in cell number compared to controls. Addition of either dexamethasone (10 nM) or triamcinolone acetonide (TA; 10 nM) dramatically blocks this stimulation by reversibly arresting the cells in the G1 phase of the cell cycle as assessed by flow cell cytometry. Associated with the decreased growth rate is a change from a rounded to a more flattened morphology that may also implicate cell shape in the regulation of proliferation. These steroid effects presumably are mediated through specific receptor proteins for which dihydrotestosterone (DHT) and TA bind with equilibrium dissociation constants (Kd) of 0.3 and 1.0 nM, respectively. Moreover, not only do androgens increase growth rate but treatment with 1 nM [3H]DHT also results in an elevation in androgen receptor concentration from 1.6 to 3.6 f mol/micrograms DNA in 7 h. Simultaneous treatment with 10 nM TA, however, reduces this increase by 53%. Inasmuch as neither progesterone nor estradiol-17 beta display similar inhibitory activity, this effect also seems to be glucocorticoid specific. These observations may be important in elucidating the mechanism of androgen action and should provide some insight into the role of glucocorticoids in regulating the growth of androgen dependent tissues.     

A rapid immunological procedure for the isolation of hormonally sensitive rat fat-cell plasma membrane.

1. The administration of dihydrotestosterone to rats orchidectomized 7 days previously stimulated the synthesis of nuclear receptor in prostatic cells several hours in advance of DNA synthesis and mitosis. 2. The synthesis of nuclear receptor is tightly coupled to cell proliferation; consequently, in resting cells, there is no further net synthesis of nuclear receptor above the maximum of approx. 8000 molecules/cell. 3. After orchidectomy a rapid decline in the concentration of free androgen in the nuceus and a slower decline in the concentration of nuclear receptor are observed. 4. Owing to the apparent scarcity of receptor-inactivating factors in the nucleus, and the inverse relationship between amounts of nuclear and cytoplasmic receptors, it is concluded that the nuclear receptor is discharged into the cytoplasm after orchidectomy. 5. The formation of the cytoplasmic receptor is an early event preceding the onset of cellular autolysis. 6. Regressing prostate develops the capacity to eliminate cytoplasmic receptor, and this capacity is retained by the regenerating prostate for at least 14 days. 7. The synthesis of nuclear receptor in early G1 phase may control the entry of cells into the cell cycle and the prolonged retention of receptor in the nucleus may prevent the activation of autophagic processes.     

Inhibition of growth and induction of apoptosis by androgens of a variant of LNCaP cell line

Here are described the effects of androgens, and other molecules known to bind to androgen receptors (AR), on MOP cells established from the human prostate cancer cell line LNCaP. MOP cells contained AR: 100 000 binding sites/cell, K_D for 5 dihydrotestosterone (DHT) 0.5 nM, size 110 kDa. The AR gene has the same repetition polymorphism in exon 1 and the T876A mutation in exon 8 as LNCaP. The proliferation of MOP cells in culture was repressed by the synthetic androgen 17β-hydroxy-17-methyl-estra-4,9,11-trien-3-one (R 1881), the antiandrogen cyproterone acetate (CYPA), estradiol (E2), progesterone and the synthetic progestin promegestone: 17,21 dimethyl-19 nor-4,9 pregnandiene-3,20 dione (R 5020). The number of cells recovered after 7 days decreased to ≈40% of controls. ED₇₀s ranged between 50 pM for R 1881 to 50 nM for E2 and CYPA. Treatment with R 1881 decreased [³H]thymidine incorporation into DNA and increased dramatically the doubling time. R 1881, CYPA and E2 blocked the cell cycle between G1 and S phases and they induced apototosis as demonstrated by the increase of blebs on the plasma membrane, nuclear fragmentation, TdT-mediated dUTP nick end-labeling (TUNEL)-positive cells and internucleosomal DNA breaks. In athymic nude mice, testosterone enanthate prevented the growth of MOP tumors and, when tumors did develop, brought about regression. However, the tumors did not regress completely and finally escaped treatment. In conclusion, a variant of the LNCaP cell line has been established. With these cells it was possible to confirm that androgens paradoxically repress the growth of some prostate cancer cells both in culture and in vivo. In addition it is demonstrated in culture but not in vivo, for the first time to the authors’ knowledge, that a synthetic androgen is able to induce apoptosis of cells established from human prostate carcinoma.