Neural Control of Muscle Androgen Receptors

The number of cytosolic androgen receptors in rat skeletal muscle increases following denervation and disuse. This increase was postulated to represent altered intracellular distribution and consequent diminished sensitivity of skeletal muscle to androgens. To test this hypothesis, we measured total (homogenate) androgen receptor levels after denervation. Total (homogenate) androgen receptor binding did not change in response to denervation of leg muscles from adult male rats. An increase in cytosolic receptor number with no increase in total (homogenate) receptor levels supports the hypothesis of altered intracellular distribution of androgen receptors in denervated muscle. Cytosolic androgen receptor binding in muscle from male rats increased by 40% after denervation, whereas in females the increase was 17%. These increases could not be altered by endocrine manipulations of males or females.     

Cytosolic androgen receptor in regenerating rat levator ani muscle.

The development of the cytosolic androgen receptor was studied after degeneration and regeneration of the rat levator ani muscle after a crush lesion. Muscle regeneration appears to recapitulate myogenesis in many respects. It therefore provides a model tissue in sufficiently in large quantity for investigating the ontogenesis of the androgen receptor. The receptor in the cytosol of the normal levator ani muscle has binding characteristics similar to those of the cytosolic receptor in other androgen-sensitive tissues. By day 3 after a crush lesion of the levator ani muscle, androgen binding decreased to 25% of control values. This decrease was followed by a 4-5 fold increase in hormone binding, which attained control values by day 7 after crush. Androgen binding remained stable at the control value up to day 60 after crushing. These results were correlated with the morphological development of the regenerating muscle after crushing. It is concluded that there is little, if any, androgen receptor present in the early myoblastic stages of regeneration; rather, synthesis of the receptor may occur after the fusion of myoblasts and during the differentiation of myotubes into cross-striated muscle fibres.     

Effect of castration and administration of testosterone on cytosol and nuclear androgen receptor in mouse submandibular gland

The effect of castration or administration of testosterone propionate on the subcellular distribution of androgen receptor in mouse submandibular gland was investigated. Within 10 h after castration of male mice, most of the androgen receptor in nuclei was significantly reduced, the androgen receptor in cytosol increased and the increased cytosol receptor retained for at least 40 h. A single injection of testosterone propionate to female mice resulted in the translocation of cytosol androgen receptor to the nuclei by 30 min. The nuclear receptor level remained for at least 24 h and the cytosol receptor was replenished by 24-72 h. These results reveal that the endocrine manipulations such as castration and testosterone injection cause the change in the subcellular distribution of androgen receptor from mouse submandibular gland in both sexes.     

Glucocorticoid regulation of hepatic cytosolic glucocorticoid receptors in vivo and its relationship to induction of tyrosine aminotransferase

Regulation of rat hepatic cytosolic glucocorticoid receptors was studied using our newly developed exchange assay. Injecting 1 mg of dexamethasone or corticosterone into 150-250 g adrenalectomized rats caused a rapid decline in glucocorticoid receptor binding. Glucocorticoid receptor levels were depressed 80-90% in less than 15 min after hormone treatment, and remained low for about 24-48 h after glucocorticoid administration. 80-90% of glucocorticoid receptor binding was regenerated by 48 h, and complete binding was recovered by 72 h. Regenerated glucocorticoid receptor binding (48-72 h after first hormone injection) could be re-depressed by a second injection of the hormone. Similar results were obtained using normal (intact) rats. Optimum induction of tyrosine aminotransferase activity was obtained within 2 h following the first hormonal injection. Induction of tyrosine aminotransferase activity (measured 2 h after a second injection of the glucocorticoid) correlated with glucocorticoid receptor levels. Thus, 1 mg of dexamethasone or corticosterone greatly enhanced the liver tyrosine aminotransferase activity in the adrenalectomized rats (not previously hormone treated) and in adrenalectomized rats previously injected (48-72 h) with 1 mg of the glucocorticoid hormone. Enhancement of tyrosine aminotransferase activity was lowest 16-24 h after the first hormone injection (when receptor levels were extremely low). These results indicate that the induction of liver tyrosine aminotransferase activity by glucocorticoid hormones is correlated with cytosolic glucocorticoid receptor levels.     

Properties of free and occupied androgen receptor in rat skeletal muscle cytosol: effect of testosterone

Our aim was to investigate the effect of a single testosterone (T) injection on the androgen receptor (AR) in rat skeletal muscle (SM) cytosol. The properties of AR were studied in order to establish the protocol for differential determination of free and hormone-occupied AR in SM cytosols from non-hormone-deficient animals. Using the developed ligand-exchange protocol, we demonstrated that injection of T (1 mg/kg) caused alternating changes of the total AR binding. The binding minimum (23% of the control) was measured 1 h after the injection. It was followed by pronounced and lasting elevation of the AR binding. In the control cytosols, AR complexes constituted 25% of the total receptor content. Changes of their relative content immediately after T administration were consistent with rapid nuclear translocation of the AR. Inhibition of protein synthesis by cycloheximide (CHI) injection demonstrated that delayed and lasting increase of the AR binding after T injection partially depended on the stimulated protein synthesis. Altogether, the obtained evidence supports the assumption that the AR mediates elevation of its own gene expression in SM upon administration of T.     

Mechanism of the glucocorticoid regulation of growth of the androgen-sensitive prostate-derived R3327H-G8-A1 tumor cell line

The R3327H-G8-A1 cell line derived from the Dunning rat prostate adenocarcinoma contains both androgen and glucocorticoid receptors. Following steroid deprivation, androgens specifically increase the concentration of their receptors in these cells by approximately 2-fold within 6 h and 3-4-fold in 24 h. In the presence of potent glucocorticoids, androgen receptor augmentation is reduced by 40-50% in the first 6 h and completely inhibited during the subsequent 24 h. This event, which is specific for glucocorticoids, appears to be due to an inhibition of androgen receptor synthesis. Furthermore, glucocorticoids inhibit proliferation of these cells by inhibiting the release of growth factors and arresting them in the G0 or A state of the cell cycle. This inhibition can be overcome by addition of low concentrations of either epidermal growth factor or platelet-derived growth factor; however, the inhibitory effect of the glucocorticoid on androgen receptor augmentation is not released. These results suggest that glucocorticoids arrest cellular proliferation by altering the autoregulation of growth and that this event is not dependent upon inhibition of androgen receptor augmentation.     

Overload-induced androgen receptor expression in the aged rat hindlimb receiving nandrolone decanoate.

This study's purpose was to examine whether functional overload with nandrolone decanoate (ND) administration increased muscle mass and steroid receptor concentration in aged rat soleus (Sol) and plantaris (Plan) muscle. ND (6 mg/kg body wt) was administered once a week for 4 wk, whereas control rats received sesame seed oil injections. Functional overload of the hindlimb Sol and Plan was induced by synergistic gastrocnemius muscle ablation at the beginning of the fourth week. Adult (5 mo of age) and aged rats (25 mo of age) were randomly assigned to four groups: control, overload, control-ND, and overload-ND. Seven days of functional overload increased adult Sol muscle mass 27%, whereas the aged Sol muscle mass did not change. The aged overloaded Sol muscle receiving ND significantly increased muscle weight by 35% and total muscle protein by 24%. Aged Plan muscle did not increase muscle weight with overload or ND treatment. Androgen receptor protein was induced by ND treatment and functional Ov, and combining the two treatments induced Sol androgen receptor protein concentration above either alone. Sol glucocorticoid receptor protein concentration increased in overload groups of both ages. ND administration can increase aged Sol muscle mass and protein content after 7 days of functional overload, and the cooperative induction of androgen receptor may be important for this response.     

Intracellular inhibition of chromatin binding and transformation of androgen receptor by 3'-deoxyadenosine

Incubation of minced rat ventral prostate with 3'-deoxyadenosine (3'-dA) prior to labeling with the androgen, tritiated 7 alpha, 17 alpha-dimethyl-19-nortestosterone, reduced the level of androgen receptor bound to chromatin and increased the level of cytosolic androgen receptor and the fraction of cytosolic androgen receptor that did not bind to DNA. This effect was specific for 3'-dA and not mimicked by adenosine, 2'-deoxy-adenosine, cytidine, guanosine, or uridine. Adenosine was a competitive inhibitor of the 3'-dA effect. Labeled cytosolic androgen receptor from 3'-dA-treated prostate had properties that were similar to those exhibited by untransformed androgen receptor from prostate cytosol prepared in the presence of Na2MoO4, an inhibitor of receptor transformation in cell-free systems. Both androgen receptors had sedimentation coefficients of 8-9 S in low-salt gradients, did not bind to DNA tightly, and had a high affinity for DEAE-cellulose. The 3'-dA effect on these properties was not observed if androgen receptor from 3'-dA-treated prostate was isolated on high-salt gradients. These findings show that androgen receptor transformation does take place in intact prostate cells and suggest that 3'-dA inhibits chromatin binding of androgen receptor by interfering with androgen receptor transformation. The transformation process appears to involve removal of components from androgen receptor. Since 3'-dA is a potent inhibitor of the synthesis, polyadenylation, and nucleocytoplasmic transport of RNA, the 3'-dA effect may indicate a role for RNA in the mechanism of receptor transformation in intact target cells.     

Androgen regulation of androgen receptor content and distribution in the ventral and dorsolateral prostates of aging AXC rats

Total androgen receptor content of ventral or dorsolateral prostate of intact, aged (730–740 day old) rats is decreased 50% when compared to intact, young mature (150–170 day old) rats. Treatment with exogenous testosterone increased ventral and dorsolateral prostate androgen receptor content per cell in aged rats to values identical to those of prostates of young mature rats. The increase in prostate receptor content was not attributable to testosterone mediated cellular hypertrophy or hyperplasia. At 24 hr post-orchiectomy ventral prostate cytoplasmic androgen receptors are depleted of endogenous androgen, without any decrease in number of receptors per cell, and nuclear androgen receptors are undetectable. During 30 to 60 min after a single 200 μg testosterone injection, ventral prostate nuclear receptor content increased to the level of intact control rats without producing any reduction in total cytoplasmic androgen receptor content. Although dorsolateral prostate is devoid of cytoplasmic androgen receptor, the effects of orchiectomy and testosterone treatment upon nuclear androgen receptor are comparable to those seen in ventral prostate. These effects of orchiectomy and testosterone injection upon prostatic receptor content and distribution were identical in prostates of young and aged rats. Our studies show that receptor processing in prostates of young and aged rats does not involve a process by which nuclear receptor is derived by depletion of cytoplasmic receptor. Moreover, our studies of the effect of short-term (48 hr) exogenous testosterone treatment upon androgen receptor content in prostates of aged rats are the first demonstration that androgen receptor content may be enhanced independent of generalized androgen mediated anabolic effects in prostate.     

EFFECTS OF DENERVATION ON THE INCORPORATION OF 32P INTO PHOSPHATIDYL INOSITOL AND OTHER PHOSPHOLIPIDS OF RAT DIAPHRAGM

Abstract— At 24 h after denervation of the rat hemidiaphragm, incorporation of ³²P into phosphatidyl inositol was depressed relative to incorporation of ³²P into phosphatidyl choline (measured 75 min after injection of the isotope intraperitoneally). The ratio of the specific radioactivity of phosphatidyl choline to the specific radioactivity of P_i was unaffected by denervation which implies that denervation had depressed incorporation of isotope into phospatidyl inositol. Denervation did not cause a measurable change in the pool size of phosphatidyl inositol relative to that of phosphatidyl choline. The effect of denervation on incorporation of ³²P into phosphatidyl inositol was not entirely a direct consequence of the cessation of ACh release at the motor end-plate since the effect was clearly manifest in strips of muscle not containing motor end-plates, but the magnitude of the denervation effect was slightly greater in the strips of denervated hemidiaphragm which contained motor end-plates.     

Corticosterone regulates the level of hepatic glucocorticoid receptors in mice

The effect of exogenous corticosterone on the level of mouse hepatic glucocorticoid receptor was monitored to ascertain whether agonist-induced glucocorticoid receptor regulation takes place in living animals as it does in isolated cell systems. Adrenalectomized male Swiss-Webster mice were given 1 mg of corticosterone ip and 24 hr later the glucocorticoid receptor binding capacity of a high-speed cytosolic extract of liver was measured. It was shown that at this time point the administered steroid had been totally cleared and thus, the decrease in binding capacity was a reflection of downregulation. Receptor binding capacity was decreased by 25%. Downregulation was not permanent; 48-72 hr after the injection receptor content returned to baseline. Multiple daily injections of corticosterone were no more effective at causing downregulation than a single injection. It is concluded that glucocorticoid agonists downregulate their own receptors in the glucocorticoid target organs of intact animals as they do in cloned cell models.     

Dynamics of oestrogen-receptor distribution between the cytosol and nuclear fractions of immature rat uterus after oestradiol administration.

1. The nuclear-myofibrilar (800g pellet) fraction of the uterus from immature (22-23 days old) rats not exposed to oestrogen exhibits saturable binding of oestradiol. The nuclear binding capacity represents approximately 10% of that of the cytosol fraction (approx. 3.5 fmol/mug of DNA). The predominant part (0.3.5 fmol/mug of DNA) of the nuclear binind sites are present in the residual pellet after extraction with 0.5 M-KC1. 2. By using an exchange technique in vitro, determinations of the nuclear binding sites have been carried out after administration of 1 mug of oestradiol in vivo. Within 0.5h after the hormone injection, the concentration of nuclear bindng sites increased to approx. 0.4 fmol/mug of DNA in the 0.5 M-KC1-extractable fraction, and to approx. 1.2 fmol/mug of DNA in the residual fraction. Meanwhile the cytosol oestrogen-receptor concentration decreased to approx. 10% of its initial value. In the following period from 0.5 h after the oestradiol injection onwards, the concentration of nuclear oestrogen receptors decreased with halflife values of approx. 140 and 200 min for the KC1(0.5 M)-extractable and residual form respectively. At the same time, the cytosol receptor concentration increased to reach approx. 50% of the initial value by the 6h. This increase could not be blocked by cycloheximide. The initial concentration of cytosol receptor was restored approx. 11h after the injection and the increase during the 6-11h period was sensitive to cycloheximide inhibition, suggesting protein-synthesis-dependence of the process. 3. With the (more) physiological dose of oestradiol (0.1 mug), the decrease the cytosol receptor was only 50% by 4h and this was followed by a period (up to 12h after injection) during which the initial concentration was restored. During this period the increase of the receptor can be blocked by cycloheximide.     

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.     

Relationship of testosterone pulses to androgen binding in the pituitary of rams

The effects of testosterone on cytosol and nuclear androgen receptors of ram pituitary were examined in two experiments. In Exp. I, 500 micrograms testosterone were injected intravenously and groups of 4 rams were slaughtered at 0, 15, 30, 45, 90 and 360 min after injection. Cytosolic receptor concentration decreased from 21 +/- 0.9 to 6 +/- 0.9 fmol/mg protein 30 min after the testosterone injection (P less than 0.001), and then returned towards the preinjection level after 90 min. The pattern of nuclear receptor concentration was the opposite; a maximal increase (12 +/- 3.5 to 32 +/- 5.7 fmol/mg protein) was observed 30 min after injection (P less than 0.001), followed by a progressive but incomplete decrease by 360 min. In Exp. II, blood was collected every 20 min for 17 h in three successive series, each of 12 rams, which were then slaughtered. Plasma LH and testosterone concentrations were measured by radioimmunoassay. No changes were observed in cytosol receptor concentration, but nuclear receptor concentration was negatively correlated with the interval elapsed since the beginning of the last testosterone pulse (r = -0.62; P less than 0.001). The highest values for nuclear receptor concentrations were observed at an interval equal to or less than 120 min. These results indicate that natural pulses are associated with androgen binding particularly in the pituitary nuclei.     

1,2-Diacylglycerol and ceramide levels in insulin-resistant tissues of the rat in vivo

Phorbol esters have been reported to decrease sensitivity or responsiveness to insulin in cells in vitro. Since phorbol esters are analogues of endogenously produced 1,2-diacylglycerol, the present study investigated whether 1,2-diacylglycerol concentration is elevated in insulin-resistant tissues of the rat in vivo. Studies were done on 11-12-week-old genetically obese Zucker rats, which are insulin-resistant. Lean Zucker rats served as controls. Levels of 1,2-diacylglycerol in obese rats were increased 82% in liver, 136% in calf muscles, 72% in soleus muscle, a slow-twitch muscle, and 40% in plantaris muscle, a fast-twitch muscle. Ceramide levels in the same tissues were increased 26, 52, 69, and 13%, respectively. Studies were also done on normal, non-obese Sprague-Dawley rats 3 h, 1, 3, 8, and 15 days after interrupting the nerve supply to hindlimb muscles. We have previously shown that 3-17 days after denervation, soleus muscles are completely unresponsive to insulin and do not increase glucose uptake in response to insulin stimulation in vivo, whereas plantaris muscles show a normal glucose uptake when stimulated by insulin; however, the insulin-induced increment in glucose uptake is reduced 68% because it is superimposed on already elevated basal glucose uptake (Turinsky, J. (1987) Am. J. Physiol. 252, R531-R537). In the present study, the denervated soleus muscles exhibited a sustained increase of 23-56% in 1,2-diacylglycerol concentration between 3 h and 15 days after interruption of nerve supply. The denervated soleus muscles also showed 34 and 42% increases in ceramide concentration at 3 and 8 days after denervation, respectively. In contrast, no increases in 1,2-diacylglycerol concentration were observed in plantaris muscles at shorter intervals than 15 days after denervation. Ceramide concentrations in plantaris muscles were increased 43 and 75% at 8 and 15 days after denervation, respectively. These observations demonstrate that tissue insulin resistance is frequently associated with a long term increase in tissue 1,2-diacylglycerol concentration. This suggests the possibility that augmented 1,2-diacylglycerol levels contribute to the development of some types of tissue insulin resistance.     

Associated effects of sodium butyrate on histone acetylation and estrogen receptor in the human breast cancer cell line MCF-7

Sodium butyrate at a concentration of 5mM causes significant hyperacetylation of the core histones in the human breast cancer cell line MCF-7. Histone hyperacetylation was achieved in rapidly-growing cells at 40% confluency after 24 hours in 5mM sodium butyrate. More nearly confluent cells did not reach as high a level of histone hyperacetylation. Upon assaying the estrogen receptors, both cytosolic and KCl-extractable nuclear, we found that butyrate treatment had lowered the estrogen receptor levels in both compartments. To our knowledge this is the first report of an effect of sodium butyrate on estrogen receptor levels.     

Increased insulin-stimulated Akt pSer473 and cytosolic SHP2 protein abundance in human skeletal muscle following acute exercise and short-term training.

The purpose of the present study was to determine in human skeletal muscle whether a single exercise bout and 7 days of consecutive endurance (cycling) training 1) increased insulin-stimulated Akt pSer(473) and 2) altered the abundance of the protein tyrosine phosphatases (PTPases), PTP1B and SHP2. In healthy, untrained men (n = 8; 24 +/- 1 yr), glucose infusion rate during a hyperinsulinemic euglycemic clamp, when compared with untrained values, was not improved 24 h following a single 60-min bout of endurance cycling but was significantly increased ( approximately 30%; P < 0.05) 24 h following completion of 7 days of exercise training. Insulin-stimulated Akt pSer(473) was approximately 50% higher (P < 0.05) 24 h following the acute bout of exercise, with this effect remaining after 7 days of training (P < 0.05). Insulin-stimulated insulin receptor and insulin receptor substrate-1 tyrosine phosphorylation were not altered 24 h after acute exercise and short-term training. Insulin did not acutely regulate the localization of the PTPases, PTP1B or SHP2, although cytosolic protein abundance of SHP2 was increased (P < 0.05; main effect) 24 h following acute exercise and short-term training. In conclusion, insulin-sensitive Akt pSer(473) and cytosolic SHP2 protein abundance are higher after acute exercise and short-term training, and this effect appears largely due to the residual effects of the last bout of prior exercise. The significance of exercise-induced alterations in cytosolic SHP2 and insulin-stimulated Akt pSer(473) on the improvement in insulin sensitivity requires further elucidation.