Interactions between human plasma sex hormone-binding globulin and xenobiotic ligands

Human sex hormone-binding globulin (SHBG) binds sex steroids with high affinity. In plasma, the number of SHBG steroid-binding sites far exceeds the molar concentrations of sex steroids, and will accommodate other ligands such as phytoestrogens and fatty acids. We have therefore developed a screening assay to identify ligands for SHBG, which exist in our diet or environment. This assay allows the binding of potential ligands to SHBG to be assessed under physiological conditions, and is sensitive to the effects of plasma constituents. Several classes of endocrine active compounds were tested, including hydroxy-polychlorinated biphenyls (HO-PCBs), phthalate esters, monoesters, chlorinated pesticides, as well as synthetic estrogens and phytoestrogens. The relative binding affinities (RBAs) of various compounds to SHBG were determined in competitive displacement assays, by comparison with 17 beta-estradiol (RBA=100). Synthetic estrogens bound SHBG with RBAs of 0.4 (ethinylestradiol)-0.2 (diethylstilbestrol), while some phytoestrogens bound with RBAs of 0.12 (coumestrol)-0.04 (naringenin). Many compounds did not bind to SHBG with sufficient affinity to allow RBA measurements, and these include: several phytoestrogens, such as genistein and kaempferol, polychlorinated biphenyls, phthalate esters and monoesters. Of nine HO-PCB congeners tested only 4-OH-2', 3', 4', 5'-tetraCB and 4-OH-2, 2', 3', 4', 5'-pentaCB bound SHBG in undiluted serum with RBAs of 0.05 and 0.11. Although all test compounds bound to SHBG with much lower affinity than endogenous sex steroids, these interactions may be physiologically relevant in situations where plasma SHBG levels are high and endogenous sex steroid levels are low, such as in pre-pubertal children and women taking oral contraceptives.     

Rates of dissociation of sex steroid hormones from human sex hormone-binding globulin: a reassessment

A rapid filtration assay employing dextran-coated charcoal as acceptor particles for free hormone was used to measure the rates of dissociation of dihydrotestosterone (DHT), testosterone (T), and estradiol (E2) from their binding proteins in human serum at 37 degrees C. Because measurements were begun after each hormone had fully (greater than 99%) dissociated from albumin, the observed rates of dissociation correspond to the rates of dissociation of the sex hormone-binding globulin (SHBG)-hormone complexes. The dissociation rate constants of the hormone-SHBG complexes were determined to be 0.016 +/- 0.001, 0.056 +/- 0.002, and 0.083 +/- 0.003 s-1 for DHT, T, and E2, respectively, corresponding to half-times of dissociation (t1/2) of 43, 12 and 8.4 s, respectively. The physiological significance of these findings can best be appreciated by comparing these t1/2 s with the capillary and sinusoidal transit times of various tissues (less than 1 s to approximately 10 s).     

Biological function of the carbohydrate component of human sex hormone-binding globulin

The role of the carbohydrate component of sex steroid-binding globulin (SBP) from human blood in the glycoprotein interaction with the recognition system for SBP-estrogen complexes in human decidual endometrium plasma membrane was studied. It was shown that the removal of N-acetylneuraminic acid residues from the oligosaccharide chains of SBP did not affect the steroid-binding or immunochemical properties of the glycoprotein. At the same time, the above modification of the glycoprotein resulted in a loss by SBP of its ability to specifically interact with the membrane recognition system. It is concluded that the oligosaccharide chains of SBP are involved in the formation of determinants needed for recognition of the SBP-estrogen complexes by endometrium cell plasma membranes.     

Study of the carbohydrate moiety of human serum sex hormone-binding globulin

Sex hormone-binding globulin from human blood serum contains two biantennary N-linked oligosaccharide chains of the N-acetyllactosamine type and one O-linked oligosaccharide per one molecule of the glycoprotein. These conclusions have been based on the results of methylation analysis of the whole glycoprotein and investigation of the structures of its glycopeptides prepared using pronase digestion.     

Plasma variation of corticosteroid-binding globulin and sex hormone-binding globulin.

Sex hormone-binding globulin (SHBG) and corticosteroid-binding globulin (CBG) circulate in plasma and bind their cognate ligands with high affinity, offering a steroid delivery system to target tissues by a variety of mechanisms. Analysis of these steroid-binding proteins is gaining importance in the clinical setting, although more information is warranted on their diurnal and biological variation. This study shows that plasma SHBG (in normal subjects) exhibits little diurnal or biological variation over the 30 day period studied, in contrast to CBG, where plasma levels peak in the early afternoon. This leads to attenuation of the diurnal free cortisol level rhythm compared to total cortisol. We also show that plasma CBG is significantly lower in male subjects with the metabolic syndrome compared to age-matched lean counterparts, and may therefore act as a surrogate marker of insulin resistance. The consequence of lower levels of CBG in these obese male subjects is reflected by higher levels of circulating free cortisol, potentially offering a more favourable environment for adipogenesis.     

Xenoestrogen interaction with human sex hormone-binding globulin (hSHBG).

This study reports on some environmental chemicals with estrogenic activity (xenoestrogens) and their binding interaction for human plasma sex-hormone binding globulin (hSHBG). The binding affinity constant of these xenoestrogens was measured in equilibrium conditions by solid phase binding assay, and their ability to displace endogenous testosterone and estradiol from hSHBG binding sites was determined with an ammonium sulfate precipitation assay in native plasma from normal men and women. The data showed that some of these xenoestrogens bind hSHBG, with a reversible and competitive binding activity for both [3H]testosterone and [3H]17beta-estradiol and with no apparent decrease in the number of hSHBG binding sites. Their respective binding affinity constants were low, ranging from 0.02 to 7.8 10(5) 1 x mol(-1). However, in native plasma from normal men and women, they were able to dose-dependently increase concentrations of hSHBG-unbound testosterone and/or estradiol. In this study, 4-nonylphenol and 4-tertoctylphenol, two alkylphenols used as surfactants in many commercial products, and bisphenol A and O-hydroxybiphenyl, widely used in the plastics industry, were identified as potent hSHBG-ligands. Additionally, the flavonoid phytoestrogens genistein and naringenin were also identified as hSHBG ligands, whereas their glucoside derivatives, genistin and naringin, had no binding activity for hSHBG. From these data, it is suggested that hSHBG binding may transport some contaminant xenoestrogens into the plasma and modulate their bioavailability to cell tissues. On the other hand, xenoestrogens may also displace endogenous sex steroid hormones from hSHBG binding sites and disrupt the androgen-to-estrogen balance. Whether xenoestrogen SHBG ligands could reach high enough concentrations in the blood to expose humans to any such effect merits further investigation.     

Influence of glycosylation on the clearance of recombinant human sex hormone-binding globulin from rabbit blood

Human sex hormone-binding globulin (hSHBG) is a plasma glycoprotein that binds sex steroids with high affinity. Variations in hSHBG glycosylation contribute to its electrophoretic microheterogeneity, but the functional significance of different SHBG glycoforms is unknown. Carbohydrates may influence the biological activities and half-lives of glycoproteins and we have examined how oligosaccharides at specific sites influence the plasma clearance of hSHBG in vivo. To accomplish this, fully-glycosylated hSHBG, or hSHBG mutants lacking specific oligosaccharides chains, were expressed in Chinese hamster ovary (CHO) cells and purified by immunoaffinity chromatography. The purified recombinant proteins were then biotinylated to study their plasma half-lives after intravenous injection into rabbits. When compared to hSHBG isolated from serum, recombinant hSHBG migrates with a slightly larger average molecular size during denaturing polyacrylamide gel electrophoresis. This is due to a greater proportion (33–39% vs. 3%) of more highly branched N-linked oligosaccharides on the recombinant proteins. When injected into rabbits, the disappearance of recombinant hSHBG showed two exponential components, as previously shown for natural hSHBG in the same animal model. The mean±S.E.M. plasma half-lives of recombinant hSHBG (t_1/2 0.11±0.03 h and t_1/2β 18.94±1.65 h) are shorter than previously measured for natural hSHBG (t_1/2 3.43±0.72 h and t_1/2β 38.18±7.22 h) and this is likely due to differences in the composition of their N-linked oligosaccharides. An O-linked chain at Thr⁷ does not influence the plasma clearance of hSHBG in the presence or absence of N-linked carbohydrates at Asn³⁵¹ and Asn³⁶⁷. However, a 1.5–1.6 fold (p<0.03) increase in plasma half-life of variants lacking both N-glycosylation sites was observed and this is probably due to the fact these variants are not recognized by the asialoglycoprotein receptor-mediated clearance system. Removal of either N-glycosylation consensus site also increased (p<0.0001) the plasma half-life of hSHBG by 2.3–2.4 fold. Thus, the metabolic clearance of hSHBG appears to be determined by the number of N-linked oligosaccharides rather than their location.     

The metabolism of human sex hormone-binding globulin in the rhesus monkey.

The metabolism of human sex hormone-binding globulin (hSHBG) was studied in eight female rhesus monkeys (Macaca mulatta) after the pulse injection of [125I]-hSHBG. hSHBG was iodinated with 125I using a chloramine T technique, and the [125I]-hSHBG was separated from other constituents by molecular sieve chromatography with a Sephadex G-25 column. The [125I]-hSHBG was administered intravenously as a pulse in 2 ml of phosphate buffer, pH 7.4, to each of eight rhesus monkeys. Blood samples (2.0 ml) were obtained at 2, 4, 6, 8, 24, 30, 45, and 54 hr after the injection. The glycoproteins were precipitated with concanavalin A-Sepharose, and the radioactivity was measured. The concentration of radioactivity as fraction of dose/ml of serum was plotted on a semilog scale against time. The disappearance of radioactivity could be expressed best as the sum of two exponentials, with a mean +/- SE t1/2 of 2.5 +/- 0.4 and 33.1 +/- 3.7 hr, respectively. The initial volume of distribution was 461 +/- 78 ml and the metabolic clearance rate was 559 +/- 66 ml/day. The very low clearance rate and prolonged t1/2 are compatible with a relative stability in the circulating mass of SHBG. Rapid changes in concentration of SHBG could be due to changes in serum volume, reversible changes in tissue distribution of SHBG, or the secretion of variable forms of desialylated SHBG.     

Yeast two-hybrid identification of prostatic proteins interacting with human sex hormone-binding globulin

Yeast two-hybrid (Y2H) screening of a prostate cDNA library with the cDNA for sex hormone-binding globulin (SHBG) has been used to identify proteins through which SHBG may exert autocrine or paracrine effects on sex steroid target tissues. The library screen gave 230 positive interactions of which around 60 have been sequenced. Of the proteins identified to date from database (BLAST) searches of these sequences, SHBG is one of those occurring most frequently. Amongst the proteins of interest are the membrane-associated proteins flotillin-1 and PRV-1, the enzymes cathepsin D, kallikrein 4 and acid phosphatase, various metallothioneins and translation elongation factor 1 alpha. The significance of the interaction of SHBG with these proteins is discussed.     

Relative binding affinity of norgestimate and other progestins for human sex hormone-binding globulin

The relative binding affinity of norgestimate for human sex hormone-binding globulin was compared with that of its metabolites and other progestins by measuring their abilities to displace [3H]testosterone from this carrier protein in vitro. Norgestimate and its 17-deacetylated and 3-keto metabolites did not significantly displace [3H]testosterone from sex hormone-binding globulin at concentrations up to 10,000 nM, whereas gestodene, levonorgestrel, and 3-keto desogestrel displaced [3H]testosterone from sex hormone-binding globulin with IC50 concentrations of 23.1, 53.4, and 91.0 nM, respectively. Since it is believed that a progestin may exert androgenic effects by displacing testosterone from sex hormone-binding globulin, thereby increasing circulating levels of free, active testosterone, these data are consistent with the results of preclinical and clinical studies demonstrating the selective progestational activity of norgestimate.     

Validity of the calculation of non-sex hormone-binding globulin-bound estradiol from total testosterone, total estradiol and sex hormone-binding globulin concentrations in human serum

Recent evidences indicate that biologically available serum testosterone (T) and estradiol (E2) include not only the free fractions but also most of the albumin-bound fractions. These two serum T or E2 fractions constitute most of non-sex hormone-binding globulin (SHBG)-bound T or E2, respectively. It has been reported that the estimation of serum non-SHBG-bound T gives identical results when it is assayed experimentally or when it is calculated by a formula derived from the law of mass action assuming two binding systems (T-SHBG and T-albumin). In the present work, we have compared the results of the experimental measurement of non-SHBG-bound E2 with the calculated value derived by an equation based on the law of mass action considering four binding systems (E2-SHBG, T-SHBG, E2-albumin, T-albumin). It was found that the two estimations of non-SHBG-bound E2 correlated closely in normal men (r = 0.80), normal women (r = 0.90) and hirsute women (r = 0.98). When compared with a more complex calculation which includes 21 steroids and 3 binding proteins results also agreed closely. Values for the different T and E2 fractions in these groups of subjects are given. These calculations could be used, not only for clinical research, but also in clinical practice as an useful tool for evaluation of the sex hormone status of patients.     

The control of the interaction of sex hormone-binding globulin with its receptor by steroid hormones

Sex hormone-binding globulins (SHBG) is a plasma glycoprotein that binds certain steroids. It, in turn, binds to a specific receptor on cell membranes. This work was undertaken to investigate the role of steroids in the interaction of SHBG with its receptor. Because the probe for the interaction of SHBG with its receptor is 125I-SHBG, we first showed that 125I-SHBG binds [3H]dihydrotestosterone (DHT) at 4 degrees C and 37 degrees C with KD values similar to those published previously for pure radioinert SHBG. 125I-SHBG could be prevented from binding to its receptor by a variety of steroids whose relative inhibitory activity (dihydrotestosterone much greater than 2-methoxyestradiol greater than testosterone greater than estradiol much greater than methyltrienolone greater than cortisol) was almost identical to their relative ability to bind to SHBG. Because significant binding of [3H]DHT to the SHBG receptor could not be demonstrated, steroid inhibition of SHBG binding must be noncompetitive. If steroids bound to SHBG prevent binding to the SHBG receptor, then liganded SHBG should have a higher apparent KD for its receptor than unliganded SHBG. This is the case. The KD was 0.86 +/- 0.25 nM for the high affinity receptor site using liganded SHBG and 0.19 +/- 0.024 nM for unliganded SHBG. Thus, only liganded SHBG assumes a conformation that prohibits interaction with the SHBG receptor. However, when unliganded SHBG was prebound to its receptor, it retained its ability to bind [3H] DHT. The model that emerges from these observations is as follows. Unliganded SHBG can bind either steroids or receptor in a reversible reaction; SHBG bound to a steroid cannot bind to the receptor, but unliganded SHBG that first binds to the receptor can subsequently bind steroids.     

An enzyme-linked immunosorbent assay (ELISA) for human sex hormone-binding globulin

An enzyme-linked immunosorbent assay (ELISA) of the "sandwich-type" for sex hormone binding globulin (SHBG) has been developed. A rabbit anti-SHBG antibody (RAb) is immobilized to the microtitre plate. After incubation with standards and samples a second monospecific rabbit anti-SHBG antibody, labelled with alkaline phosphatase is added (RAb). Following further washing substrate is added, colour developed and the plate read at 405 nm wavelength on a standard ELISA plate reader. The assay is not influenced by the presence of steroids at the binding site, and shows good agreement to SHBG binding capacity assay and commercially available IRMA. Its sensitivity, specificity and precision allows its use in the routine laboratory. The SHBG ELISA has been used to measure SHBG concentrations in sera of normal men, women, pregnant women, and women receiving high-dose medroxyprogesterone acetate as a treatment of metastatic breast cancer.     

Diverse roles for sex hormone-binding globulin in reproduction

Sex hormone-binding globulin (SHBG) transports androgens and estrogens in blood and regulates their access to target tissues. Hepatic production of SHBG fluctuates throughout the life cycle and is influenced primarily by metabolic and hormonal factors. Genetic differences also contribute to interindividual variations in plasma SHBG levels. In addition to controlling the plasma distribution, metabolic clearance, and bioavailability of sex steroids, SHBG accumulates in the extravascular compartments of some tissues and in the cytoplasm of specific epithelial cells, where it exerts novel effects on androgen and estrogen action. In mammals, the gene-encoding SHBG is expressed primarily in the liver but also at low levels in other tissues, including the testis. In subprimate species, Shbg expression in Sertoli cells is under the control of follicle-stimulating hormone and produces the androgen-binding protein that influences androgen actions in the seminiferous tubules and epididymis. In humans, the SHBG gene is not expressed in Sertoli cells, but its expression in germ cells produces an SHBG isoform that accumulates in the acrosome. In fish, Shbg is produced by the liver but has a unique function in the gill as a portal for natural steroids and xenobiotics, including synthetic steroids. However, salmon have retained a second, poorly conserved Shbg gene that is expressed only in ovary, muscle, and gill and that likely exerts specialized functions in these tissues. The present review compares the production and functions of SHBG in different species and its diverse effects on reproduction.     

Solubilization and partial characterization of a phosphoprotein phosphatase from human myelin.

The phosphoprotein phosphatase (phosphoprotein phosphohydrolase, EC 3.1.3.16) solubilized from human central nervous system myelin has been shown to possess a comparatively high degree of specificity towards myelin basic protein, a constituent of the membrane and most likely its natural substrate, rather than the mixed histones. The enzyme has a pH optimum of 7.5. Hydrolysis of both the substrates is stimulated by dithiothreitol and is almost completely dependent upon the presence of divalent metal ions. The maximum rate of dephosphorylation of basic protein is attained in the presence of 125 micrometer Mn2+ whereas a much higher concentration of Mg2+ (50--100 mM) is required for the optimal dephosphorylation of histones. The dephosphorylation of basic protein was also stimulated by Triton X-100 (0.15%, v/v) and was shown to result from a 3-fold increase in the V of the reaction catalyzed by the phosphatase. The apparent Km values for basic protein and histones were unaffected by the presence of Triton X-100 and were found to be approx. 1 and approx. 160 micrometer, respectively. Under optimal conditions of assay, the phosphatase cleaved approx. 32 and approx. 0.7 nmol of orthophosphate.min-1.mg-1 of protein from basic protein and histones, respectively.