Benjamin J. Danzo

Steroid-binding proteins in rabbit plasma: Separation of testosterone-binding globulin (TeBG) from corticosteroid-binding globulin (CBG), preliminary characterization of TeBG, and changes in TeBG concentration during sexual maturation.

Two distinct steroid-binding proteins are present in rabbit plasma. One of the proteins (TeBG) binds [3-H]5 alpha-dihydrotestosterone (5 alpha DHT) and [3-H]testosterone. The affinity of this binding protein for 5 alpha DHT was 3-4 times greater than for testosterone. Binding of [3-H]5 alphaDHT could be inhibited by unlabeled 5 alpha DHT, testosterone, 5 alpha-androstan-3 alpha,17 beta-diol (3 alpha-diol), and 17 alpha-methyl- B-testosterone (skf) 7690). The relative affinity of the competitors was: 5 alpha DHT greater than 3 alpha-diol greater than testosterone greater than SKF 7690. The antiandrogens, cyproterone (1,2 alpha-methylene-6-chloro-pregn-4,6-diene-17 alpla-ol-3,20 dione), cyproterone-17-acetate, and 6 alpha-bromo-17 beta-hydroxy-17 alpha-methyl-4-oxa-5 alpha-androstan-3-ine (BOMT) were ineffective in competing for [3-H5d alpha DHT binding sites, as were 4-androstene-3, 17-dione, 17 beta-estradiol (E2), progesterone, and cortisol. The formation of the [3-H]5 alpha DHT-TeBG complex was extremely rapid; the binding reaction was essentially completed in 15 s. The complex dissociated rapidly in the presence of charcoal. The dissociation rate constant (Kdiss) was 0.157 min- minus 1 and the dissociation half-time t-1/2) was 4.5 min. In the presence of charcoal and unlabeled 5 alpha DHT the Kdiss was 0.268 min- minus 1 and the t=1/2 was 2.6 min. The sedimentation coefficient of TeBG was congruent to 4.6 S and its molecular weight, estimated by gel filtration on a calibrated Sephadex G-200 column, was congruent to 75,000. The concentration of TeBG in male rabbit plasma decreased with sexual maturation and was approximately three times higher in adult females than in adult males. The other protein (CBG) bound both [3-H]cortisol and [3-H]progesterone. Binding of these compounds could be inhibited by unlabeled cortisol and progesterone, but not by unlabeled 5 alpha DHT, testosterone, or E2. CBG had a sedimentation of congruent to 3.9 S and an apparent molecular weight of congruent to 105,000. TeBG could be separated from CBG by a 60% ammonium sulfate precipitation and by gel filtration chromatography. Both proteins are thermolabile; TeBG is inactivated at temperatures above 30 degrees C and CBG is inactivated at temperatures above 50 degrees C.

Studies on the site of origin of the androgen binding protein present in epididymal cytosol from mature intact rabbits

Abstract An examination of the site of origin of the 17β-hydroxy-5α-androstan-3-one (5αDHT) binding protein that exists in cytosol prepared from the caput epididymidis from sexually-mature intact rabbits was approached in the following way: Rabbits a) had the ductuli efferent es unilaterally ligated, b) were hemicastrated, c) were made unilaterally cryptorchid. These procedures were designed to decrease or eliminate the flow of testicular fluid into the epididymis. When this occurred, there was a marked decrease or total elimination of 5αDHT binding to cytosol prepared from the caput from the experimental epididymis, as compared to cytosol from the contralateral control side. These results suggest that the 5αDHT binding moiety in cytosol prepared from the caput epididymidis from intact sexually-mature rabbits is of testicular origin and is not the target tissue “receptor.”

Interaction of sex hormone-binding globulin with plasma membranes from the rat epididymis and other tissues

The binding of human sex hormone-binding globulin (hSHBG) to plasma membranes prepared from the adult rat epididymis and other potential target and non-target tissues was examined. Specific binding sites were detected in the epididymis, testis, prostate, skeletal muscle and liver. The first three organs exhibited a higher (KD approx. 0.1 nM; Bmax approx. 0.05-0.10 pmol/mg membrane protein, Site I) and a lower (KD approx. 5 nM; Bmax approx. 1.0-2.5 pmol/mg membrane protein, Site II) affinity binding site. Only Site I was detected in muscle membranes and only Site II was detected in membranes isolated from liver. Specific binding was not detectable in either spleen or brain. Regional distribution of hSHBG binding sites occurred in the epididymis. Both Site I and Site II were present in the proximal caput and distal cauda. The distal caput and proximal cauda contained only Site II; no specific binding was detected in the corpus. Binding of hSHBG to epididymal membranes was time- and temperature-dependent. The presence of Ca2+ did not affect binding. Non-liganded [125I]-labeled hSHBG can bind to both sites in epididymal membranes. The affinity of hSHBG for Site I increased 2-fold when it was complexed with 5 alpha-dihydrotestosterone, testosterone or estradiol. The hSHBG-androgen complex had little effect on Site II versus steroid-free SHBG. However, the affinity of the hSHBG-estradiol complex for these sites was increased 10-fold. Cortisol, which has a low affinity for hSHBG, did not influence its binding to either the higher or lower affinity membrane sites.

Estradiol binding in cytosol from epididymides of immature rabbits

A highly specific, high affinity binding protein for estradiol-17beta (E2) is present in cytosol prepared from the epididymides of immature (21-53 day old) rabbits. This binding moiety sediments on sucrose gradients as an 8S species under low ionic strength conditions and as a 4S species under conditions of high ionic strength (0.3 M KCL). The relative binding affinities of estrogens for the binding protein was E2 is greater than estrone is greater than estriol. Neither 5alpha-dihydrostestosterone (5alphaKHT), progesterone, nor cortisol were able to inhibit binding of [3H]E2 to epididymal binding sites. An 8S binding moiety for E2 was present in testicular cytosol but not in muscle. An apparently non-specific binding component for E2 was present in plasma which sedimented in the 4S region of low ionic strength gradients. The epididymal E2 binding moiety was distinct from a 4S androen binding protein of testicular origin which is detectable in cytosol prepared from epididymides of rabbits at certain stages development. We were unalbe to detect a specific E2 binding protein in epididymal cytosol from mature intact or 4-day castrated rabbits. The E2 binding component in the cytosol of immature rabbits had an Kd congruent to 2-10 X 10-10 M and the concentration of binding sites was in the order of 1-4 X 10-13 mmoles/mg of protein. The binding component was thermo-labele and pronase, but not nuclease, sensitive.

The presence of an estradiol binding component in cytosol from immature rat epididymides.

Cytosol prepared from epididymides of sexually immature (21-23-day-old) rats contains a macromolecular binding component for estradiol-17 beta. This binding moiety sediments as an 8-S species on 5-20% sucrose gradients containing 0.01 M KCl. Under conditions of high ionic strength (0.4 M KCl) the 8-S peak of estradiol binding is shifted to the 4-S region, suggesting dissociation of receptor aggregates. Time-course studies indicated that binding equilibrium was essentially achieved after 2 hours incubation at 0 degrees C. Although unlabeled estrone and estriol are capable of inhibiting [3H]estradiol binding to epididymal cytosol, they are less effective than unlabeled estradiol. Unlabeled 5 alpha-dihydrotestosterone (5 alpha-DHT) at a 100-fold molar excess did not cause a statistically significant inhibition of [3H]estradiol binding. Unlabeled estrogens, but not unlabeled 5 alpha-DHT or cortisol (at the concentrations used), were capable of displacint [3H]estradiol from its binding sites. The dissociation of [3H]estradiol from the binding component is very slow, with half-time of dissociation being greater than 16 hours. The epididymal estrogen binder is saturable at low concentrations of ligand. The dissociation constant was of the order of 10(-11)M and the concentration of binding sites was approximately 10(-14) mol/mg protein. This estrogen binder has the characteristics which are usually attributed to steroid receptors and is clearly different from the testicular androgen-binding protein and the epididymal androgen receptor.

Identification of cytoplasmic estrogen receptors in the accessory sex organs of the rabbit and their comparison to the cytoplasmic estrogen receptor in the epididymis

Estrogen receptors are present in cytosol prepared from the accessory sex organs (vesicular gland, proprostate, prostate, bulbourethral gland) of sexually immature and of sexually mature rabbits. The receptor in these organs from animals of both age groups has a sedimentation coefficient of 8-10S on low ionic strength (0.01 M KCl) sucrose gradients. Under high ionic strength (0.4 M KCl) conditions, the receptor sediments at approximately 4S. The cytoplasmic estrogen receptor from the epididymis shows age-dependent changes in its sedimentation coefficient. It is 8S under low ionic strength conditions when prepared from immature rabbits and 4S under identical conditions when prepared from sexually mature animals. Although the dissociation constant of the cytoplasmic estrogen receptor in the immature and mature epididymis and accessory sex organs remains constant during development (approximately 0.1 nM), the number of available cytoplasmic estrogen binding sites declines from about 160 fmoles/mg cytosol protein in the immature rabbit to about 40 fmoles/mg cytosol protein in the adult animal. The estrogen receptor in the accessory sex organs is highly specific, the relative affinities of various potential competitors being: estradiol and estrone = 1, diethylstilbestrol = 0.3, estriol = 0.2, tamoxifen = 0.08, testosterone = 0.0004 and 5 alpha-DHT = 0.00005. Changes with age in the physicochemical characteristics of the estrogen receptor and in the concentration of binding sites suggest that the estrogen receptor may be involved in the development and physiological regulation of the male reproductive tract.

Structural conversion of cytosolic steroid receptors by an age-dependent epididymal protease

Epididymides from sexually mature rabbits contain a factor that induces a discrete reduction in the sedimentation coefficient of cytosolic estrogen receptors from various tissues (rabbit epididymis and accessory sex organs; rabbit, rat and mouse uterus) and of cytosolic progesterone receptors from the rabbit uterus. The factor is not species-specific since a similar activity was detected in extracts of mature rat epididymides. Although present in cytosol, the factor is obtained in much higher yield in hypertonic extracts of the nucleomyofibrillar fraction of mature rabbit epididymal tissue. Using rabbit uterine estrogen receptor as substrate, we have determined the following details about the rabbit epididymal factor: (1) it is tissue-specific (undetectable in extracts from rabbit accessory sex organs, testis, uterus, liver, lung, kidney and intestine); (2) it is age-dependent (undetectable in extracts from sexually immature rabbit epididymides); (3) its maintenance is testis-independent following its post-pubertal induction or activation; (4) it is primarily localized in the caput region of the epididymis; (5) it is inactivated by elevated temperature; (6) it is macromolecular in nature; (7) it is DNase- and RNase-resistant; (8) it is irreversibly inactivated by leupeptin, indicating that it is a protease; and (9) it is effective on unoccupied and occupied receptors.

Some characteristics of rete testis fluid from rabbits.

The composition of rete testis fluid collected from the efferent ducts of ligated testes of the rabbit is similar to that obtained from other species. However, sodium and chloride ion concentrations decrease with time after ligation of the efferent ducts.

Nuclear binding of [3H]-androgens by the epididymis of sexually mature castrated rabbits.

Abstract We have demonstrated that when minces of epididymides from castrated rabbits are incubated with [3H]-testosterone radioactivity bound to a macromolecular component, it enters the nuclei. This entry is a temperature dependent phenomenon which is greater upon incubation at 23°C than at 0°C. In contrast, no macromolecular bound hormone could be detected in leg muscle cytosol or nuclei. The amount of radioactivity extractable from epididymal nuclei was a function of the molar concentration of KC1 in the extraction medium. However, even when 1.0 M KC1 was used, greater than 30% of the radioactivity bound to nuclei remained unextractable. Of the naturally occurring steroids that we used (testosterone, estradiol-17β, and cortisol) in competition studies, unlabeled testosterone was the most effective in preventing the nuclear accumulation of labeled androgen. Estradiol-17β also was effective in this regard, but was much less potent than testosterone under the conditions employed. Unlabeled cortisol was an ineffective inhibitor. The antiandrogens, cyproterone and SKF 7690, both of which inhibit binding to the epididymal cytoplasmic androgen receptor, completely inhibited nuclear accumulation of radioactivity, implying that nuclear accumulation is dependent on an initial binding to the cytoplasmic receptor. We have also demonstrated that the rabbit epididymis is capable of converting testosterone to 5α-dihydrotestosterone (5α-DHT). Although the tissues were incubated with [3H]-testosterone, 5α-DHT was selectively bound by the cytoplasmic receptor and concentrated in the nuclei.

Androgen binding to cytosol prepared from epididymides of sexually mature castrated rabbits: Evidence for a cytoplasmic receptor ☆

The presence of androgen-binding activity in cytosol prepared from the major anatomical segments (caput, corpus, and cauda) of the epididymis of castrated sexually mature rabbits has been demonstrated. A portion of this binding activity is likely to be the epididymal androgen receptor. When epididymal cytosol from adult castrated rabbits is analyzed on low-ionic strength (0.01 MKCl) sucrose gradients, two peaks of macromolecular binding could be detected, one congruent to 4.6S and one congruent to 8S. On gradients containing 1.0 M KCl, only one sedimenting form congruent to 4.6S could be demonstrated, suggesting that the 8S component is composed of aggregates. If cytosol was preincubated with labeled androgen, followed by an incubation with unlabeled androgen, and subsequently analyzed for binding on low-ionic strength gradients, only the congruent to 8S peak could be detected, indicating that most of the binding in the congruent to 4.6S region was rapidly dissociable. This suggests that binding in this region was to moieties other than receptor. Since androgen binding proteins (ABP) of testicular origin would have been cleared from the epididymis at the timepoints that we concentrated on for most of these studies, the 4.6S binding probably represents the association of androgen with plasma testosterone binding globulin (TeBG). The binding of androgen to the receptor can be inhibited by cyproterone, while this antiandrogen does not inhibit binding to either ABP or TeBG at the concentration used.