LH biosynthesis and secretion in rat anterior pituitary cell cultures: stimulation of LH glycosylation and secretion by GNRH and an agonistic analogue and blockade by an antagonistic analogue.

In rat anterior pituitary cell cultures GnRH (1nM) stimulated a progressive increase in LH release into the medium from 1 to 8 h of incubation, while cellular LH showed a corresponding decrease. GnRH (1nM) neither modified the uptake nor the incorporation of [³H]-glucosamine and [³H]-proline into total protein. The incorporation of [³H]-proline into cellular LH also was unaffected by GnRH. In contrast, GnRH stimulated a 3 to 4-fold increase in [³H]-glucosamine incorporation into cellular LH. The agonistic analogue, [des GlyNH₂¹⁰]-LHRH ethylamide, mimicked the GnRH effects and was 5 to 6 times more potent than GnRH. The antagonistic analogue, [D-Phe², D-Phe⁶]-LHRH blocked the GnRH-stimulated effects. These results suggest that GnRH and agonistic analogues may preferentially regulate turnover or synthesis of the carbohydrate moiety of LH.     

Hydrocortisone binding receptor in the rat pituitary GH3 cell line.

A receptor with specificity and high affinity for hydrocortisone (HC) has been found in the cytosol of GH₃ cells, a growth hormone (GH) producing culture. Scatchard analysis indicated that the interaction of [³H]HC with the receptor has an apparent dissociation constant (K_d) of about 6.0 × 10^?9M and a concentration of binding sites of approx. 1 × 10^?13 mol/mg cytosol protein. The second order association rate constant was determined to be 1.5 × 10⁶ M^?1 min^?1. The receptor activity is stable at 2°C for several hours, but is destroyed completely by heating at 37°C for 1 hour, or by treatment with pronase, only partially by RNase, but not by DNase. The binding of [³H]HC to the cytosol receptor is inhibited by unlabeled progesterone (PR) or dexamethasone to the same extent as the inhibition by unlabeled HC. However, it is only partially inhibited by testosterone, 17-methyl-testosterone, 17α and 17β-estradiol, and 4-pregnen-20β-ol-3-one, and is unaffected by 5α-pregnan-3β,20β-diol. The biological role for these receptors in the regulation of GH synthesis is supported by the observations that the HC-stimulated production of GH is antagonized by PR, which competes with the binding of HC to the receptor.     

Rat ovary glucocorticoid receptor: Identification and characterization

A soluble, thermolabile protein with characteristics typical of glucocorticoid receptors has been identified in the ovaries of estrogenstimulated hypophysectomized immature rats. After the incubation of ³H-dexamethasone with ovarian cytosol, fractionation on a Sephadex G-200 column reveals a peak of radioactivity which elutes at the void volume. This peak, which represents saturable ³H-dexamethasone binding, disappears following heating (4 ° C × 15 min) or treatment of the cytosol with pronase. Scatchard analysis of the ³H-dexamethasone binding to cytosol shows it to be high affinity (Kd=5.1 nM) and saturable, with 327 fmol binding sites/mg cytosol protein. Binding site number rises linearly with increasing cytosol protein concentrations. The relative abilities of various steroids to inhibit ³H-dexamethasone binding are: triamcinolone acetonide ≥ dexamethasone > cortisol = progesterone > dihydrotestosterone > estradiol. This binding protein sediments at 9 S on a sucrose gradient, has a mean Stokes radius of 105 Å on gel exclusion chromatography, and has a calculated molecular weight of 388, 000 daltons and a frictional ratio of 2.1. ³H-Dexamethasone is not metabolized and does not bind specifically to serum. We have identified a protein in the rat ovary with characteristics of a glucocorticoid receptor and propose that this protein may be responsible for mediating direct effects of glucocorticoids on the ovary.     

Effects of cyclic AMP and of 2-mercapto-1-(β-4-pyridethyl)benzimidazole on composition of steroids secreted by a testicular tumour cell line

We studied the effect of cyclic AMP (cAMP) on steroidogenesis in a mouse Leydig cell tumor line (1–10). known to secrete exclusively progesterone (P) and 20α-dihydroprogesterone (20α-H₂P). Radioimmunoassays that distinguish these two steroids were used. Total steroidogenesis was stimulated by cAMP in a dose-dependent manner over the range tested (10⁻⁶-10⁻³ M). Up to 2 × 10⁻⁵ M cAMP, progesterone constituted 11–13% of the secreted progestins: at higher concentrations of cAMP (10⁻⁴-10⁻³ M), the P/(P + 20α-H₂P) ratio progressively increased (37% at 10⁻³ M), but the incremental progestin secretion consisted of 50% progesterone throughout this range. The change in progestin profile occurred within less than 45 min. 2-Mercapto-1-(β-4-pyridethyl)benzimidazole (MPB) reduced basal steroidogenesis, progesterone secretion being more severely affected than that of 20α-H₂P. MPB inhibited cell growth and noncompetitively inhibited cAMP-dependent protein kinase activity in the cytosol of 1–10 cells. In a faster-growing variant of 1–10. higher concentrations of exogenous cAMP were required to exert similar effects on steroidogenesis. and MPB was less effective in suppressing cell growth. The possibility is discussed that cAMP may accelerate an active process of progesterone release, thus minimizing the intracellular exposure of the hormone to 20α-hydroxysteroid dehydrogenase, and that MPB antagonizes cAMP at a site influencing both steroid synthesis and release.     

A specific glucocorticoid binding macromolecule of rabbit uterine cytosol

A high affinity (K_d=2.7 × 10^?10M at 0°) dexamethasone binding macro-molecule has been identified in the cytosol fraction of rabbit uteri. Competition studies show high specificity for glucocorticoids since binding of labeled dexamethasone is inhibited by cortisol and corticosterone but not by progesterone, testosterone, or estradiol 17β. The binding component has a sedimentation coefficient of 8S and its concentration in uterine cytosol is about 0.2 pmoles per mg protein. Uptake of labeled dexamethasone by isolated uterine nuclei requires the presence of cytosol and is temperature dependent. The KCl-extractable nuclear complex sediments at 4S. Thus the dexamethasone binding components of the rabbit uterus have properties similar to those described for steroid hormone receptors present in target tissues. Specific dexamethasone binding could not be demonstrated in rat uterine cytosol.     

Effect of mechanical stimulation on the production of soluble bone factors in cultured fetal mouse calvariae

Mechanical stimulation by intermittent compressive force (ICF) stimulates bone formation and inhibits bone resorption in cultured fetal mouse bone. Fetal bone tissue can produce autocrine factors that stimulate bone cell replication and matrix formation, and paracrine factors that increase the formation of osteoclast precursor-like cells from bone marrow. In the present study, we have tested whether ICF affects the production of such local factors in fetal mouse calvariae. Calvariae were cultured for 4 days in the presence and absence of ICF (130 mbar, 0.3 Hz). Conditioned medium was collected daily and pooled. We found that conditioned medium from ICF-exposed cultures stimulated [³H]-TdR incorporation into DNA, and [³H]-proline incorporation into collagenase digestible protein but not into non-collagen protein in fresh calvarial cultures. Treatment with conditioned medium from ICF-exposed cultures had earlier effects on [³H]-TdR and [³H]-proline incorporation than direct treatment with ICF. Conditioned medium from ICF-exposed cultures decreased the number of osteoclast precursor-like cells in bone marrow cultures stained for tartrate-resistant acid phosphatase. We conclude that ICF stimulates the release (activity) of an autocrine growth-factor from bone. In addition, ICF can stimulate the release (activity) of a paracrine factor, inhibiting the growth and/or differentiation of osteoclast precursor-like cells. These data suggest that mechanical forces may modulate skeletal (re)modeling by affecting the production of local growth factors.     

Glucocorticoid stimulation of Na+-dependent ascorbic acid transport in osteoblast-like cells

Ascorbic acid (AA) is an essential cofactor for osteoblast differentiation both in vivo and in vitro. Before it can function, this vitamin must be transported into cells via a specific Na⁺-dependent AA transporter. In this study, we examine the regulation of this transport activity by glucocorticoids, a class of steroid hormones known to stimulate in vitro osteoblast differentiation. Dexamethasone stimulated Na⁺-dependent AA transport activity approximately twofold in primary rat calvarial osteoblasts. Effects of hormone on ascorbic acid transport were rapid (detected within 24 h) and were maximally stimulated by 25–50 nM dexamethasone. Similar effects of dexamethasone on transport activity were also observed in murine MC3T3-E1 cells. This preosteoblast cell line was used for a more detailed characterization of the glucocorticoid response. Transport activity was stimulated selectively by glucocorticoids (dexamethasone > corticosterone) relative to other steroid hormones (progesterone and 17-β-estradiol) and was blocked when cells were cultured in the presence of cycloheximide, a protein synthesis inhibitor. Kinetic analysis of AA transporter activity in control and dexamethasone-treated cells indicated a K_m of approximately 17 μM for both groups. In contrast, dexamethasone increased V_max by approximately 2.5-fold. Cells also contained an Na⁺-independent glucose transport activity that has been reported in other systems to transport vitamin C as oxidized dehydroascorbic acid. In marked contrast to Na⁺-dependent AA transport, this activity was inhibited by dexamethasone. Thus, glucocorticoids increase Na⁺-dependent AA transport in osteoblasts, possibly via up-regulation of transporter synthesis, and this response can be resolved from actions of glucocorticoids on glucose transport. J. Cell. Physiol. 176:85–91, 1998. © 1998 Wiley-Liss, Inc.     

Steroid hormone receptor studies in melanoma model systems

The Transplantable B-16 melanotic melanoma carried in syngeneic C57B1/6J female mice and the Syrian hamster melanoma cell line, RPMI 3460, were utilized to determine whether steroid-hormone receptors are present in animal melanomas. In the B-16 melanoma, a cytoplasmic-estrogen receptor is detectable, but there is no evidence for androgen or progestin receptors. Some tumors contain a glucocorticoid-binding macromolecule. Sucrosedensity gradient centrifugation of cytosol after incubation with [³H]-estradiol revealed an 8S peak that was suppressed by excess radioinert diethylstilbesterol. Binding varied from 5–35 fmoles per mg cytosol protein. Scatchard analysis of [³H]-estradiol binding in cytosol yielded a single class of high-affinity binding sites; the dissociation constant is 6 × 10^?10 M. The receptor molecule is shown to be estrogen-specific by ligand competition assays. In contrast to B-16 melanoma, no estrogen, androgen, or progestin receptor can be found in the Syrian hamster melanoma cell line. However, a substantial level of specific binding is observed using [³H]-dexamethasone. Sucrose-gradient centrifugation of cytosol from this cell line after incubation with [³H]-dexamethasone revealed a 7S peak that was suppressed by excess radioinert dexamethasone. Scatchard analysis indicated a single class of high affinity sites with a dissociation constant of 2 × 10^?9 M. Binding levels from 70–610 fmoles per mg cytosol protein were observed. The Syrian hamster melanoma cells also exhibit a biological response to glucocorticoids: Dexamethasone causes both an inhibition of growth and a decrease in final-cell density in these cells.     

Progestin binding in mammary tissue of prepartum,nonlactating and postpartum,lactating cows

Binding of [³H]R5020 (17,21-dimethyl-19-nor-4,9-pregnadiene-3, 20-dione) to bovine mammary cytosol indicated the presence of progestin binding sites of high-affinity and low-capacity in tissue from prepartum, nonlactating and from postpartum, lactating cows. To prevent binding of [³H]R5020 to glucocorticoid binding sites, a 200-fold molar excess of nonradioactive cortisol was included during all incubations, thus specific binding was limited to progestin binding sites. Nonradioactive R5020 and progesterone effectively inhibited [³H]R5020 binding to progestin binding sites, while estradiol-17β, dihydrotestosterone (17β-hydroxy-5α-androstan-3-one), dexamethasone (9-fluoro-11β, 17, 21-trihydroxy-16α-methyl-1,4-pregnadiene-3,20-dione) or additional cortisol were ineffective. Dissociation constants for specifically bound [³H]R5020 in cytosol from mammary tissue of nonlactating and lactating cows were nearly identical, averaging 1.9 ( ± 0.3) and 0.8( ± 0.2) × 10?⁹M, respectively. However, binding capacities (fmol/mg cytosolic protein) were greater in cytosol from prepartum, nonlactating (179 ± 53) than postpartum, lactating (41 ± 15) cows. Specific binding components in cytosol from lactating cows sedimented in the 6-7S region on linear sucrose density gradients. When subjected to isoelectric focusing, specific binders with isoelectric points (pI) of approximately 6.1, 7.9 and 8.3 were resolved. The decrease in number of binding sites during lactation was due to the virtual absence of the anionic binding species, suggesting that their presence is necessary for progesterone to inhibit milk secretion.     

Spectral characteristics of human fetal adrenal microsomes.

Investigations of human fetal adrenal gland microsomes indicated that a carbon monoxide binding pigment had an absorption maximum of 446 to 448 nm. This pigment, upon heat treatment at 37°C was degraded to the form of cytochrome p-420. NADPH reduced cytochrome p-450 slowly and completely. Typical concentrations of 0.75 and 0.16 nmoles/mg protein cytochrome P-450 and b₅, respectively, were observed. Reduced ethylisocyanide spectra were similar to those of rat hepatic microsomes with absorption maxima at 430 as well as 454 nm. Typical type I spectral changes were observed with progesterone, 17-α-OH-progesterone, pregnenolone and androstenedione when these steroids were added to the sample cuvettes. Androstenedione exhibited an apparent spectral dissociation constant (K_S) of 5×10⁻⁶M pregnenolone and progesterone exhibited higher affinities with apparent dissociation constants of 1.1×10⁻⁷M and 1.8×10⁻⁷M, respectively. The maximal absorbance change induced by androstenedione was lower (Emax = 0.027 per mg protien) than the changes in absorbance maxima induced by pregnenolone or progesterone (Emax = 0.060 and 0.047 per mg protein, respectively) when saturating concentrations of these steroids were added to the sample cuvettes. Ethylmorphine and aminopyrine (10⁻³M final concentrations) did not exhibit observable spectral changes; however, type II spectra could be elicited with aniline and nicotinamide and apparent dissociation constants of 3.5×10⁻²M and 2.5×10⁻²M, respectively, were obtained.     

The effect of insulin on collagen production in isolated chondrosarcoma chondrocytes

Insulin stimulated the incorporation of [³H]-proline into collagen of freshly isolated chondrosarcoma chondrocytes. In addition, insulin enhanced incorporation of radiolabeled precursors into general protein, RNA, and proteoglycans. The stimulatory effects on collagen and non-collagen protein occurred with 2 h while the effects on RNA and proteoglycan were observed at 5 h and 8 h, respectively. All responses were obtained with physiological concentrations (1–2 nM) and were proportional to concentrations to 2 uM. These results demonstrate that insulin, in addition to exerting a general anabolic action on chondrocytes, also stimulates the incorporation of [³H]-proline into a specific protein, i.e., collagen. The latter effect should provide a useful means to probe insulin's mechanism of action.     

Specific progesterone receptor in human renal cancer

It was possible, using a synthetic progestin R5020, to identify a specific progesterone cytosol receptor in six human renal adenocarcinoma. The receptor has a low capacity but a high affinity, with a dissociation constant ranging between 0.13 and 3.72 × 10⁻⁹M. Comparison between the results of quantitative experiments obtained with d-Norgestrel and R5020 is reported.     

Suramin interrupts androgen-inducible autocrine loop involving heparin binding growth factor in mouse mammary cancer (Shionogi carcinoma 115) cells

The androgen-dependent clonal cell line SC-3, derived from Shionogi carcinoma 115, secretes a fibroblast growth factor (FGF)-autocrine growth factor in response to androgen, which is able to bind to FGF receptors. In SC-3 cells, FGF receptor expression is upregulated by the SC-3-derived growth factor, providing a means of amplifying an autocrine loop of cell growth. In the present investigations, the effect of the polysulfonated naphthylurea suramin on this autocrine loop and its amplification in SC-3 cells were studied. Suramin inhibited androgen-dependent growth of SC-3 cells in a concentration-dependent fashion: ～50% inhibition was observed at 25 μM. [³H]Thymidine incorporation into the cells stimulated with partially purified SC-3-derived growth factor was inhibited by suramin in a similar way. Additionally, suramin inhibited acidic (a) or basic (b) FGF-induced cell proliferation, though relatively high concentrations were necessary to achieve the maximal inhibition. Pretreatment of SC-3 cells with suramin decreased cell surface ¹²⁵I-bFGF binding without altering dissociation constant (Kd) of the binding sites. When the cells were incubated with 250 μM suramin for 24 h, the maximum binding (Bmax) decreased to almost 50% of the control. Treatment with suramin also decreased the levels of FGF receptor-1 mRNA to a similar extent, whereas it appeared not to affect the levels of β-actin mRNA. Moreover, suramin completely blocked androgen- or bFGF-induced accumulation of FGF receptor-1 mRNA. The inhibitory effects of suramin on FGF receptor expression were reversed by simultaneous addition of high concentrations of bFGF. These results indicate that suramin exerts its potent antiproliferative action on SC-3 cells through inhibition of an androgen-inducible autocrine loop involving SC-3-derived growth factor and FGF receptor. © 1993 Wiley-Liss, Inc.     

Evidence for natural transformation of Bacillus subtilis in foodstuffs

The effect of foodstuffs on the natural transformation of Bacillus subtilis was investigated. As examples of complex food matrices milk with various fat contents as well as chocolate milk were used. The frequencies of transformation varied with the fat content and ranged between 3.8×10⁻⁴ and 1.4×10⁻³. Highest frequencies of about 3×10⁻³ were observed in chocolate milk with 1.5% fat. Development of competence was observed in chocolate milk, resulting in maximal transformation frequencies upon incubation for 10–12 h at 37°C.     

EFFECTS OF PHENOLIC INHIBITORS ON GROWTH AND METABOLISM OF GLUCOSE-UL-14C IN PAUL'S SCARLET ROSE CELL-SUSPENSION CULTURES

ABSTRACT Paul's Scarlet rose cell-suspension cultures were incubated in varying concentrations of the following phenolic inhibitors; chlorogenic acid, cinnamic acid, p-coumaric acid, ferulic acid, and scopoletin. All test compounds except chlorogenic acid were completely inhibitory at a 10⁻³m concentration, resulting in death of the cells prior to completion of the growth cycle. To assess the cellular effects of two commonly named plant inhibitors, ferulic and cinnamic acids, these compounds were provided to cultures during incubation of cells with glucose-UL-¹⁴C. Incubation of cells with glucose-UL-¹⁴C in the presence of 10⁻⁴m ferulic acid resulted in increased incorporation of ¹⁴C into the soluble lipid fraction along with decreased incorporation of ¹⁴C into protein, organic acids, and soluble amino acids. Treatment of the cells with 10⁻⁵m cinnamic acid during the incubation period resulted in a significant decrease in incorporation of ¹⁴C into protein. These alterations in the flow of carbon into cellular constituents when cells are treated with cinnamic and ferulic acids explain, at least in part, why these compounds inhibit growth, seed germination, and seedling development.     

Reduction in [3H]-corticosterone binding to cytoplasmic receptors in the brain of diabetic rats

The binding of [1, 2, 6, 7-³H]-corticosterone was studied in brain cytosol from normal and streptozotocin-diabetic male rats. The experiments were performed under conditions of incubation time (4h), temperature (0–4°C), time after adrenalectomy (6 days) and corticosterone concentrations (1.2 × 10⁻⁸ and 1.15 × 10⁻⁹M) previously established for determining binding activity in the brain of normal rats. The binding of [³H]-corticosterone was found invariably lower in cytosol of the brain from diabetic rats, studied under three different conditions: in non-adrenalectomized animals, in adrenalectomized using a non-saturating corticosterone concentration, and in adrenalectomized plus a saturating steroid concentration. These results support previous contentions that the diminished sensitivity to the negative feedback for steroids which is present in diabetics, may be related to a reduction in binding capacity for corticoids in the central nervous system     

Factors affecting l-arginine production in the continuous culture of an l-arginine producer of Corynebacterium acetoacidophilum

The effects of culture conditions on l-arginine production by continuous culture were studied using a stable l-arginine hyperproducing strain of Corynebacterium aceto-acidophilum, SC-190. Strain SC-190 demonstrated a volumetric productivity of 35 g l⁻¹·h⁻¹ at a dilution rate of 0.083h⁻¹ and feeding sugar concentration of 8%, and a product yield of 29.2% at a dilution rate 0.021h⁻¹ and feeding sugar concentration of 15%. The corresponding values for fed-batch culture are 0.85 g·l⁻¹·h⁻¹ and 26%. However, the product yield decreased with an increase in the volumetric productivity. To achieve stable l-arginine production, aeration and agitation conditions sufficient to maintain an optimal level of redox potential (>−100 mV) were necessary. The addition of phosphate to the feeding medium led to a decrease in l-arginine production. It was confirmed in the steady state that growth and l-arginine formation were inhibited by a high concentration of l-arginine.     

Effect of aldosterone on incorporation of amino acids into renal medullary proteins

Summary Studies on the effects of pretreatment with aldosterone on the incorporation of³H leucine or³H methionine into proteins in renal slices were carried out in Joklik-modified minimal essential medium. Administration of aldosterone (2 g/100 g body wt) to adrenalectomized rats increased³H leucine incorporation into trichloroacetic acid insoluble fractions of crude homogenates of cortical slices by 15.5±0.4% and of medullary slices by 53.5±1.3%. No increase in isotope incorporation was observed in slices of renal papilla or spleen prepared from the same rats. Aldosterone had no effect on the³H-leucine content of the trichloroacetic acid-soluble fractions of all three renal zones and the spleen. The dose of aldosterone that elicited a half-maximal increase in³H-methionine incorporation into proteins of renal medullary slices (0.45 g of aldosterone/100 g body wt) was indistinguishable from that needed to elicit a halfmaximal increase in the urinary K⁺/Na⁺ ratio (0.35 g of aldosterone/100 g body wt). Dexamethasone, a potent glucocorticoid, at a dose of 0.8 g/100 g body wt did not augment³H-leucine incorporation into renal medullary proteins but was effective at 8 g/100 g body wt. Spirolactone (SC-26304), a potent anti-mineralocorticoid, abolished the effect of aldosterone on amino acid incorporation into medullary proteins when administered at a 100-fold higher dosage [i.e., 80 gvs. 0.8 g (per 100 g body wt)]. These results imply that the action of aldosterone on amino acid incorporation is mediated by the mineralocorticoid rather than the glucocorticoid pathway, presumably the mineralocorticoid receptors. Moreover, pretreatment of the rats with actinomycin D (70–80 g/100 g body wt) erased the effect of aldosterone (0.8 g/100 g body wt) on amino acid incorporation into medullary proteins.In paired experiments with³H and³⁵S methionine, aldosterone (0.8 g/100 g body wt) increased methionine incorporation into trichloroacetic acid precipitable proteins of subcellular fractions of the renal medulla. The effect of aldosterone on incorporation of methionine into medullary cytosol proteins was analyzed further by polyacrylamide gel electrophoresis at pH 8.3 in tris-glycine buffer. The gel profiles indicate that aldosterone significantly increased methionine incorporation into at least one protein (independent of the isotope) with a molecular weight of 31,000. This increase was inhibited by either pretreatment of the rat with actinomycin D (70–80 g/100 g body wt or SC-26304 (80 g/100 g body wt). Dexamethasone (0.8 g/100 g body wt) did not increase incorporation of methionine into the medullary cytosol proteins resolved by polyacrylamide gel electrophoresis.     

Binding characteristics of estrone,estradiol and estriol to the human myometrial estrogen receptor

The human myometrial estrogen receptor in cytosol from pre-menopausal uterine samples has been characterized. At 0° estradiol (K_D 0.38 × 10⁻¹⁰M) has the highest affinity to the receptor followed by estrone (K_D 0.76 × 10⁻¹⁰M) and estriol ((K_D 1.33 × 10⁻¹⁰M). The association rate constant is 2.8 × 10⁵M⁻¹s⁻¹ for estradiol, 2.1 × 10⁵M⁻¹s⁻¹ for estrone and 0.79 × 10⁵M⁻¹s⁻¹ for estriol. The dissociation constants and the association rate constants increase with temperature. The calculated thermodynamic parameters indicate a positive change in entropy for the formation of the estrogen receptor complex.The cytoplasmic estrogen receptor has a sedimentation coefficient of 4 s in low salt sucrose gradients. In buffer containing diisopropylfluorophosphate (DFP) to inhibit proteolytic activity the estrogen receptor complex sediments solely as an 8 s peak if [³H]-estradiol is added to the buffer prior to homogenization and the tissue sample is used immediately after hysterectomy. Estrogen receptor complexes that sediment at 4 s and 8 s are found if [³H]-estradiol is omitted from the homogenization buffer and instead added after the cytosol preparation. Most likely a protease is involved the activity of which is not completely inhibited by DFP.Addition of low concentrations of Cu²⁺ (10 μM) to the cytosol increases the dissociation constant and decreases the estrogen-binding capacity of the receptor. The rate of association is reduced in the presence of 20 μM Cu²⁺. The estrogen receptor complexes do not show any change in their sedimentation profiles in the presence of Cu²⁺.     

Protein Metabolism in Cultured Plant Tissues

Rates of protein synthesis in normal callus tissues (either tight or loose morphological form), in crown gall callus tissues and in cultured pith cells were measured for both the lower surface cells (those in contact with the original growth medium) and upper surface cells (those never in contact with the growth medium until labeling). Cells of both surfaces of loose and crown gall callus and the upper-surface cells of tight callus had similar rates of protein synthesis, 29–31 mg of protein synthesized × (g protein)⁻¹× h⁻¹. The lower surface cells of tight callus had a 35% lower rate of synthesis, 20 mg × g⁻¹× h⁻¹. Pulse-chase experiments suggested that rates of protein degradation for all tissues were the same, 21–23 mg protein × (g protein)⁻¹× h⁻¹. Thus, there probably was no accumulation of protein in the lower surface cells of tight callus tissue, but the other tissues had rates of accumulation equaling 10 mg × (g protein)⁻¹× h⁻¹. Autoradiography and electron-microscopic examination of cells in tight callus labeled with ³H-leucine show that: (a) the lower-surface cells were more degenerate than cells within the callus or on the upper surface; and (b) the first few cell layers nearest the medium were preferentially labeled. Pulse-chase experiments were also used to quantitate the nonprecursor pool (defined as that tritium in the soluble amino acid pool that does not equilibrate with protein during a pulse-chase experiment). The nonprecursor pool increased linearly with time at the same rate as incorporation of ³H-leucine into protein. Furthermore, the nonprecursor pool copurified with leucine and was probably either D- or L-leucine.