N-glycans modulate the function of human corticosteroid-binding globulin

Human corticosteroid-binding globulin (CBG), a heavily glycosylated protein containing six N-linked glycosylation sites, transports cortisol and other corticosteroids in blood circulation. Here, we investigate the biological importance of the N-glycans of CBG derived from human serum by performing a structural and functional characterization of CBG N-glycosylation. Liquid chromatography-tandem MS-based glycoproteomics and glycomics combined with exoglycosidase treatment revealed 26 complex type N-glycoforms, all of which were terminated with α2,3-linked neuraminic acid (NeuAc) residues. The CBG N-glycans showed predominantly bi- and tri-antennary branching, but higher branching was also observed. N-glycans from all six N-glycosylation sites were identified with high site occupancies (70.5-99.5%) and glycoforms from all sites contained a relatively low degree of core-fucosylation (0-34.9%). CBG showed site-specific glycosylation and the site-to-site differences in core-fucosylation and branching could be in silico correlated with the accessibility to the individual glycosylation sites on the maturely folded protein. Deglycosylated and desialylated CBG analogs were generated to investigate the biological importance of CBG N-glycans. As a functional assay, MCF-7 cells were challenged with native and glycan-modified CBG and the amount of cAMP, which is produced as a quantitative response upon CBG binding to its cell surface receptor, was used to evaluate the CBG:receptor interaction. The removal of both CBG N-glycans and NeuAc residues increased the production of cAMP significantly. This confirms that N-glycans are involved in the CBG:receptor interaction and indicates that the modulation is performed by steric and/or electrostatic means through the terminal NeuAc residues.     

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.     

Origin of corticosteroid-binding globulin in fetal rat. Comparative dynamics of corticosteroid-binding globulin, alpha-fetoprotein, and albumin secretion in primary cultures of fetal rat hepatocytes

The origin of corticosteroid-binding globulin (CBG) and its evolution in comparison with alpha-fetoprotein (AFP) and albumin synthesis, during early development of rat liver (days 13 and 15 of fetal life), have been investigated using cultured fetal hepatocytes. Synthesis and secretion of CBG, AFP, and albumin is evidence by cycloheximide-sensitive [14C]leucine incorporation into immunoprecipitable polypeptides secreted by cultured hepatocytes into the medium, two-dimensional immunoelectrophoretic and autoradiographic identification of newly synthesized labeled proteins, corticosterone and estradiol-17 beta binding to CBG and AFP, respectively, and indirect immunofluorescence localization of AFP, albumin, and CBG in cultured fetal hepatocytes. CBG, albumin, and AFP accounted for 6, 11, and 25% (in 13-day-old rat fetuses) and 5, 15, and 28% (15-day-old rat fetuses), respectively, of the total secreted proteins in the culture medium. The rates of CBG, AFP, and albumin (counts/minute of secretion [14C]leucine incorporated per milligram of cell protein/hour of culture) in the hepatocytes of 15-day-old rat fetuses were 1.48-, 2.1-, and 2.57-fold higher, respectively, than in the 13-day-old rat fetuses. These results indicate that fetal liver is also active in CBG synthesis, along with AFP and albumin, as early as day 13 of fetal life and that the synthetic rates of these secretory proteins depend upon the developmental stage of the fetal liver. This developmental related change in the rate of synthesis of CBG by the fetal hepatocytes may regulate the level of free (active) glucocorticoid in the fetal circulation and thereby the initiation and regulation of glucocorticoid-dependent processes during the crucial stages of the differentiation of fetal liver and other developing tissues.     

Pregnancy-associated corticosteroid-binding globulin: high resolution separation of glycan isoforms.

Corticosteroid-binding globulin (CBG) is a glycoprotein that functions as a specific carrier of cortisol in the circulation. CBG contains six sites for N-glycosylation with, on average, five sites occupied by a mixture of biantennary and triantennary oligosaccharides with variable additional terminal sialic acid residues leading to glycoforms with significant heterogeneity in mass and isoelectric points. During pregnancy, a form of CBG possessing only triantennary oligosaccharides comprising approximately 10 % of total CBG appears specifically. We describe the first application of two-dimensional gel electrophoresis to the separation of human CBG glycoforms. This technique resolved a greater degree of charge heterogeneity than previous studies, and allowed simultaneous visualization of changes to the size and isoelectric points of CBG during pregnancy. Profiles of CBG glycoforms during pregnancy showed a general increase in size followed by a shift to lower pI in a large proportion of the glycoprotein. This may result from the enhancement of triantennary glycosylation, with the extent of incorporation of sialic acid increasing with the number of available sites for its addition. The pregnancy-specific CBG previously defined probably represents a subset of the acidic and high molecular weight glycoforms we have resolved by two-dimensional electrophoresis and now describe as pregnancy-associated CBG.     

Biosynthesis of hepatic corticosteroid-binding globulin: ontogeny and effect of thyroid hormone.

The present study reports on the ontogeny and the effect of thyroid hormones on liver corticosteroid-binding globulin (CBG) biosynthesis, in relation to plasma CBG binding capacity in the rat. We show that mRNACBG contents were high in liver of 18-day-old fetuses and decreased with age to reach almost undetectable levels by postnatal day 1. Interestingly, at the latter time point plasma CBG concentration remained elevated and disappeared thereafter from the circulation with a half-life of about 3 days. The messenger was localized in parenchymatous cells and not in hematopoietic ones, although the latter constitute the major cell population in fetal liver. It is not until after 10 days of age that mRNACBG and plasma CBG levels increased in concert, with a sex-difference being noticed by postnatal day 30. Treatment of rats with 3,3',5-triiodo-L-thyronine (T3), but not reverse T3 (rT3) (the predominant form present in fetal serum), enhanced CBG biosynthesis. These findings show that liver mRNACBG contents undergo dramatic changes during ontogeny and suggest the existence of a differential regulation of the messenger in fetal and neonatal rats.     

Kinetic and equilibrium studies on steroid interaction with human corticosteroid-binding globulin

Kinetic and equilibrium studies on the interaction of steroids with human corticosteroid-binding globulin (CBG, transcortin) were performed with pH, temperature, and steroid structure as variables. Dissociation rate constants were determined fluorometrically; the values for cortisol, corticosterone, deoxycorticosterone, and progesterone are 0.031, 0.047, 0.10, and 0.16 s-1, respectively, at 20 degrees C, pH 7.4. The pH dependence of the dissociation rate constant for the corticosterone complex below pH 10.5 at 20 degrees C is given by koff = 0.043 (1 + [H+]/10(-6.50)) s-1; above pH 11, koff = 0.030 (1 + 10(-12.15/[H+] s-1. A temperature-dependence study of koff for the cortisol and progesterone complexes gave values of 0.0028 s-1 and 0.012 s-1 at 4 degrees C, respectively, and 0.88 s-1 and 4.5 s-1 at 37 degrees C, with progesterone dissociating about four to five times faster over the entire temperature range. The affinity constants, determined by equilibrium dialysis, for the binding of cortisol, corticosterone, and progesterone at 4 degrees C were 7.9, 7.2, and 7.0 X 10(8) M-1; values of 0.40 and 0.26 X 10(8) M-1 were determined at 37 degrees C for cortisol and progesterone. The close similarity of the affinity constants of the three steroids combined with differing dissociation rates implies that the association rate changes with steroid structure, in contrast to our earlier findings with progesterone-binding globulin.     

Rabbit corticosteroid-binding globulin: primary structure and biosynthesis during pregnancy

The cDNA-deduced primary structure of rabbit corticosteroid-binding globulin (CBG) contains 383 amino acids (mol wt, 42,326), including three cysteine residues and four sites for N-glycosylation. It is primarily the product of a 1.68-kilobase hepatic mRNA, but small amounts of CBG mRNA were also found in maternal lung, spleen, and ovary and fetal kidney. In the fetus, hepatic CBG mRNA concentrations increase markedly after day 11 and were 2- to 5-fold higher than those in maternal liver during days 17-23. They then declined to very low levels at term (31 days). By contrast, maternal hepatic CBG mRNA levels did not increase until day 23; reached a peak at about day 27, and then declined to prepregnancy values by 3 days after delivery. In general, fetal and maternal hepatic CBG mRNA concentrations reflect the corresponding serum CBG levels. Our data, therefore, indicate that the marked changes in fetal and maternal plasma CBG levels during pregnancy reflect changes in the biosynthesis of the protein rather than alterations in compartmentalization or clearance.     

Structure and function of corticosteroid-binding globulin: Role of carbohydrates

To study the site-specificity of human corticosteroid-binding globulin (CBG) glycosylation and the functional significance of individual carbohydrate chains in its molecule, a panel of recombinant CBG mutants containing each of the six potential glycosylation sites alone and in various combinations has been expressed in Chinese hamster ovary (CHO) cells. Analyses of these mutant glycoproteins showed that three of the glycosylation sites are only partially utilized, and this may contribute to the production of glycoforms with distinct physiological functions. Processing of individual carbohydrate chains (branching and fucosylation) is site-specific and may, thus, account for the formation of structural determinants essential for the recognition of CBG by cell membranes. Glycosylation at the only phylogenetically conserved consensus site, Asn²³⁸-Gly²³⁹-Thr²⁴⁰, is essential for the biosynthesis of CBG with steroid-binding activity. Evidence has been obtained to support the hypothesis that transient carbohydrate-polypeptide interactions between Trp²⁶⁶ and the maturing carbohydrate chain at Asn²³⁸ occur during early stages of the CBG biosynthesis which affect protein folding and formation of the steroid-binding site. Another tryptophan residue, Trp³⁷¹, has been found to be critical for CBG-steroid interactions and is likely located in the steroid-binding site.     

皮质醇结合球蛋白的生理功能及其编码基因突变

皮质醇结合球蛋白（CBG）对皮质醇具有高亲和力,在调节血液中的皮质醇水平,转运孕酮,参与炎症反应等过程发挥作用。目前已发现的影响CBG的基因突变或单核苷酸多态性有9种,往往影响CBG水平或是CBG与皮质醇的结合能力,CBG缺陷先证者多表现为慢性疲乏,往往伴随着低血压、高血压或者是肥胖,但并不是所有CBG缺陷患者均有上述症状,由于病例报道数量较少,突变与症状的相关性很难确定,仍需更多针对CBG的遗传学研究。     

Purification and characterization of the corticosteroid-binding globulin of pregnant guinea pig serum.

The corticosteroid-binding globulin from guinea pig pregnancy serum was purified by the sequential use of affinity chromatography, hydroxylapatite chromatography, and gel filtration chromatography at a cumulative yield of 80%. The protein was found to be homogeneous by analytical gel electrophoresis, equilibrium sedimentation ultracentrifugation, immunoelectrophoresis, and stoichiometry (1:1) of steroid binding. Guinea pig corticosteroid-binding globulin has a molecular weight of 43 300 and contains 29% carbohydrate. The intrinsic fluorescence of the corticosteroid-binding globulin is quenched by about 73% when 1 mol of cortisol is bound. The association constants (pH 7.4) at 4 and 37 degrees C are 2.5 X 10(7) and 1.5 X 10(6) M-1 for cortisol and 1.4 X 10(6) and 0.2 X 10(6) M-1 for progesterone, respectively.     

Importance of arginine residues in the determination of the biological activity of human corticosteroid-binding globulin

The binding activity of human corticosteroid-binding globulin (CBG) is pH dependent and governed in alkaline pH ranges by the pK of arginine. No essential arginine residues is located in the binding site. The loss of biological activity is rapid and complete as soon as one arginine residue is modified by phenylglyoxal. There is also a transconformation of the CBG molecule. Therefore the surprising stability of CBG up to pH 11.5 may be explained by a large dependence of the CBG tertiary structure on the integrity of one arginine residue : as long as the ionized state of this single residue is not changed (pH less than pK of the guanidyl group) the tertiary structure of the biologically active CBG is maintained in alkaline pH ranges.     

Expression and differential glycosylation of human sex hormone-binding globulin by mammalian cell lines.

The human sex hormone-binding globulin (SHBG) gene is responsible for the production of plasma SHBG by the liver and androgen-binding protein in the testis. Cell-specific glycosylation events during synthesis may account for minor differences in the biochemical properties of SHBG and androgen-binding protein, and we have, therefore, expressed a human SHBG cDNA in chinese hamster ovary (CHO) cells and a mouse hepatoma cell line (BW-1), and compared the products to SHBG in serum. The SHBG produced in this way is a homodimer of subunits that exhibit size microheterogeneity similar to SHBG in human serum, and its affinity for 5 alpha-dihydrotestosterone (Kd = 0.6 nM) and other steroids is essentially identical to that of natural SHBG. When medium from transfected CHO and BW-1 cells was subjected to Concanavalin-A (Con-A) chromatography, the relative amounts of SHBG retained by Con-A were 74% and 86%, respectively. In addition, when SHBG produced by CHO cells was separated into two fractions by Con-A chromatography and analyzed by polyacrylamide gel electrophoresis, SHBG that did not interact with Con-A migrated with a slightly larger apparent mol wt than that of SHBG that binds Con-A; this can be explained by the presence of triantennary, rather than biantennary, N-linked oligosaccharide chains. These data also demonstrate that the subunit microheterogeneity associated with plasma SHBG reflects differences in glycosylation during synthesis, which appear to be cell type specific.