Estrogen regulation of the central enzymes involved in O- and N-linked glycoprotein assembly in the developing and the adult rabbit endocervix

O-glycosylation of α-1-acid glycoprotein of human milk is lactation stage related

BACKGROUND

Human milk provides a multitude of glycoproteins, including highly glycosylated α-1-acid glycoprotein (AGP), which elicits anti-inflammatory and immunomodulatory properties. The milk AGP glycoforms may provide the breastfed infant with a wide range of biological benefits. Here, we analyzed the reactivity of O-linked sugar-specific lectins with human milk AGP over the process of lactation and compared the results with those of the lactating mother's plasma.

MATERIALS AND METHODS

Relative amounts of human skim milk AGP O-glycans were analyzed in early colostrum, colostrum, and transitional and mature milk samples of 127 healthy mothers by lectin-AGP enzyme-linked immunosorbent assay using sialyl T (sialyl-α2,3/α2,6 Galβ1,3GalNAc-), asialyl T (Galβ1,3GalNAc-), and Tn (GalNAc-) antigen-specific biotinylated Artocarpus integrifolia (Jacalin), Arachis hypogaea (PNA), and Vicia villosa (VVA) lectins, respectively.

RESULTS

Milk AGP elicited high expression of Jacalin- and PNA-reactive glycotopes and low expression of VVA-reactive glycotopes, which were absent on plasma AGP of lactating mothers and healthy individuals. The expression of sialyl, asialyl T, and Tn glycotopes of human milk AGP was lactation stage related. The relative amount of Jacalin-reactive AGP glycotope was highest in the colostrum samples and then decreased starting from Day 8 of lactation. In contrast, an increase of the relative amount of PNA-reactive glycotope with milk maturation was observed. The relative amount of VVA-reactive glycotope remained almost constant over the development of lactation.

CONCLUSIONS

Milk AGP differs from mother's plasma AGP by the presence of O-linked sialylated and asialylated T as well as Tn antigens. The variation of the expression of sialylated and asialylated T and Tn antigens on AGP is associated with milk maturation.

N-linked glycan profiling of mature human milk by high-performance microfluidic chip liquid chromatography time-of-flight tandem mass spectrometry

N-Linked glycans of skim human milk proteins were determined for three mothers. N-Linked glycans are linked to immune defense, cell growth, and cell-cell adhesion, but their functions in human milk are undetermined. Protein-bound N-linked glycans were released with peptidyl N-glycosidase F (PNGase F), enriched by graphitized carbon chromatography, and analyzed with Chip-TOF MS. To be defined as N-glycans, compounds were required, in all three procedural replicates, to match, within 6 ppm, against a theoretical human N-glycan library and be at least 2-fold higher in abundance in PNGase F-treated than in control samples. Fifty-two N-linked glycan compositions were identified, and 24 were confirmed via tandem mass spectra analysis. Twenty-seven compositions have been found previously in human milk, and 25 are novel compositions. By abundance, 84% of N-glycans were fucosylated and 47% were sialylated. The majority (70%) of total N-glycan abundance was composed of N-glycans found in all three milk samples.

Detection of glycosyltransferases in the golden hamster (Mesocricetus auratus) oviduct and evidence for the regulation of O-glycan biosynthesis during the estrous cycle

Recently, we provided evidence that the glycosylation of hamster oviductin, a member of the mucin family of glycoproteins, is regulated during the estrous cycle. In order to further elucidate the glycosylation process of oviductal glycoproteins, we identified biosynthetic pathways involved in the assembly of mucin-type O-linked oligosaccharide (O-glycan) chains in the hamster oviduct. Our results demonstrated that the hamster oviduct has high activities of glycosyltransferases that synthesize O-glycans with core 1, 2, 3 and 4 structures as well as elongated structures. Oviduct therefore represents a typical mucin-secreting tissue. Our results also showed that specific glycosyltransferase activities are regulated during the estrous cycle. Mucin-type core 2 beta6-GlcNAc-transferase (C2GnT2) is responsible for synthesizing core 2 and core 4 structures in the oviduct. Specific assays for C2GnT2 revealed a cyclical pattern throughout the estrous cycle with high activity at the stages of proestrus and estrus and low activity at diestrus 1. Using semiquantitative RT-PCR, the mRNA levels for C2GnT2 in the estrous cycle stages could be correlated with the enzyme activities. An increase in glycosyltransferase activity in the hamster oviduct at the time of ovulation suggests that glycosylation of oviductal glycoproteins may be necessary for these proteins to exert their functions during the process of fertilization.

Mucin gene expression is not regulated by estrogen and/or progesterone in the ocular surface epithelia of mice

PURPOSE

Dry eye syndrome is prevalent in post-menopausal women, and post-menopausal women secrete less mucus in their reproductive tracts. Using a mouse model, the purpose of this study was to determine if estrogen and/or progesterone regulates Muc4 and Muc5AC gene expression in the ocular surface epithelia, as the hormones do in reproductive tract epithelia.

METHODS

Adult C57BL/6 mice were ovariectomized, and 19 days later, pellets containing estrogen, progesterone, or a combination were inserted subcutaneously. Ocular surface and reproductive tract tissues were harvested following seven days of hormone treatment. A control group consisted of ovariectomized mice that received no hormone treatment. Real-time reverse transcription-polymerase chain reaction was used to determine the tissue expression levels of mucin mRNA of each treatment group relative to the control. Muc4 mRNA expression levels were determined for the reproductive tract, and both Muc4 and Muc5AC expression levels were determined for the ocular surface epithelia. Muc4 and Muc5AC gene expression in ocular surface and Muc4 in reproductive tract epithelia was demonstrated by In Situ hybridization, and Muc4 and Muc5AC protein was demonstrated in the epithelia of animals in the experimental groups.

RESULTS

The mRNA expression levels of Muc4 and Muc5AC and the immunofluorescence localization pattern in the ocular surface epithelia were not significantly different in any hormone treatment group when compared to the control ovariectomized group. By comparison, mice that were administered estrogen had a significant increase of Muc4 mRNA in the reproductive tract epithelia, progesterone given in combination with estrogen antagonized the upregulatory effects of estrogen in the reproductive tract, and the amount of Muc4 mRNA in the reproductive tract of progesterone-treated animals was not different from ovariectomized controls. Immunofluorescence localization of Muc4 in the reproductive tract epithelia of the experimental groups correlated to message levels, with lack of Muc4 protein detected in the control and progesterone groups.

CONCLUSION

In comparison to reproductive tract epithelia, Muc4 and Muc5AC are not hormonally regulated by estrogen or progesterone in the ocular surface epithelia of mice. These data demonstrate that regulation of epithelial mucin genes is tissue specific.

Changes in glycosylation of human bile-salt-stimulated lipase during lactation

Bile-salt-stimulated lipase (BSSL) is an enzyme in human milk, which is important for the fat digestion in the newborn infant. BSSL is highly glycosylated and includes one site for N-glycosylation and several sites for O-glycosylation. BSSL has previously been found to express Lewis a, Lewis b, and Lewis x carbohydrate antigens. In this study, glycosylation of BSSL was studied at different times during lactation. BSSL was purified from milk collected individually from four donors at several different times during the first 6 months of lactation. The BSSL glycans were characterized through monosaccharide analysis, high-pH anion-exchange chromatography, matrix-assisted laser desorption-ionization mass spectrometry, and ELISA. Both total carbohydrate content and relative amount of sialic acid were higher in BSSL from the first lactation month as compared to BSSL from milk collected later in lactation. BSSL from the first lactation month also showed a different composition of sialylated O-linked glycans and the N-linked oligosaccharides consisted of lower amounts of fucosylated structures compared to later in lactation. We also found a gradual increase in the expression of the carbohydrate epitope Lewis x on BSSL throughout the lactation period. This study shows that glycosylation of BSSL is dependent on blood group phenotype of the donor and changes substantially during the lactation period.

Glycosylation site-binding protein is not required for N-linked glycoprotein synthesis

In prior studies we identified a 57-kDa protein in the lumen of the endoplasmic reticulum that, in addition to having both protein disulfide isomerase and thyroid hormone-binding protein activities, bound a photoaffinity probe containing the N-glycosylation-site sequence Asn-Xaa-Ser/Thr. It was hypothesized that this multifunctional protein, called glycosylation site-binding protein (GSBP), participated in the process of N-glycosylation of proteins. To test this hypothesis we have employed various conditions to deplete the lumen of GSBP and then assess the level of N-glycosylation catalyzed by oligosaccharyltransferase (OTase). Although most conditions leading to depletion resulted in partial loss of OTase activity, this loss was independent of the extent of GSBP depletion. Indeed, virtually complete loss (greater than 99%) of GSBP with partial retention of OTase activity was frequently observed. Moreover, repletion of the microsomal lumen with GSBP did not restore OTase activity to control levels. Thus, no correlation between GSBP content and OTase activity before or after reconstitution was found. These results suggest that this multifunctional 57-kDa protein is not an essential component of the enzymatic reaction in which oligosaccharide chains are transferred from dolichyl-P-P-GlcNAc2Man9Glc3 to nascent polypeptides or to synthetic tripeptide acceptors.

Steroid receptors in the developing and the adult rabbit endocervix and in endocervical epithelial cells isolated by flow cytometry

Immunocytochemistry with monoclonal antibodies H222 and JZB39 was used to study nuclear estrogen (ER) and progesterone (PgR) receptors, respectively, in the cervix during differentiation and in the adult rabbit. The undifferentiated state of the cervix of 2-week-old rabbits correlates with a paucity of immunoreactive nuclear ER, while the epithelium of most of these animals showed moderate immunostaining for the nuclear PgR. The cervical epithelium, stroma and muscle cells of 1-month-old rabbits, showed weak immunostaining for the ER, while staining for PgR remained comparable to that of 2-week-old rabbits. For 2-4-month old rabbits the epithelium was characterized by moderate immunostaining for the nuclear ER and strong immunostaining for the PgR. Strong, heterogeneous immunostaining for nuclear ER and PgR receptors in endocervical epithelial cells from 6-month-old (adult), estrous rabbits suggested there are subpopulations of cells that express differential sensitivity to steroid hormones. In order to characterize such subpopulations, live endocervical epithelial cells were sorted with a flow cytometer on the basis of forward angle light scatter (FSC) and side scatter (SSC) signals which correlated with cell size and secretory granule content, respectively. Secretory cells, as verified by ultrastructural analysis and histochemical staining, expressed the highest FSC and SSC signals and were designated fraction "a". Changes in the hormonal status of the animals altered the intrinsic light scatter properties of fraction "a" cells as follows: maximum FSC and SSC signals were reported for cells from estrous animals; ovariectomy or progesterone-dominance decreased cell size (FCS) and secretory granule content (SSC), while treatment of ovariectomized rabbits with estradiol increased both parameters. When fraction "a" cells from estrous rabbits were incubated with the monoclonal antibodies, two distinct subpopulations of secretory cells were identified by intensity and pattern of nuclear staining for the ER and PgR. Changes in the hormonal status of the animals produced changes in the intensity of nuclear immunostaining, however both cell types remained distinguishable on the basis of immunostain pattern reflecting either permanent or transitory differences in them, and differential hormone sensitivity. The presence of nuclear ER and PgR proteins in these cells confirms their function is bireceptor-mediated.

Regulation of sex hormone-binding globulin production by growth factors

Sex hormone-binding globulin (SHBG) is a glycoprotein whose production has been demonstrated to be regulated by both sex steroids, as well as by thyroid hormone and peptide hormones such as insulin. However, none of these regulatory factors would explain the marked decrease in serum SHBG seen throughout the prepubertal and pubertal time period in both boys and girls. Furthermore, current in vitro data show that both androgens and estrogens can stimulate SHBG production by the human hepatoblastoma cell line Hep G2; yet, in vivo androgens appear to suppress SHBG levels, while estrogens are associated with elevated levels. This study was undertaken to determine possible mechanisms to explain this phenomenon. Hep G2 cell cultures were incubated with insulin-like growth factor I (IGF-I), epidermal growth factor (EGF), transforming growth factor alpha (TGF-alpha), or dehydroepiandrosterone (DHEA). Significant decreases in the level of SHBG in the culture medium relative to control cultures occurred for each of the growth factors (P less than .01), whereas an increase in SHBG levels was observed in the medium of DHEA-treated cells. When cells were coincubated with IGF-I and thyroxine (T4), which alone stimulates SHBG production both in vivo and in vitro, the SHBG response to T4 was blunted. These results suggest that growth factors, as well as insulin, may be important determinants in SHBG production.

The order of processing events in mouse mammary tumor virus envelope protein maturation: implications for the location of the glucocorticoid-regulated step

Treatment of the W7MG1 mouse T lymphoma cell line with glucocorticoid stimulates directly or indirectly two observable steps in the processing of mouse mammary tumor virus (MMTV) envelope glycoprotein precursor Pr74: cleavage of Pr74 to yield the mature glycoprotein products gp52 and gp33, and processing of the N-linked oligosaccharides to endoglycosidase H (endo H)-resistant forms found on the mature products but not on the precursor. Therefore, the primary hormone-regulated event in this pathway must occur at or before the point where MMTV envelope proteins become endo H resistant. Pulse-chase analyses identified a novel endo H-resistant 80-kDa species (designated gp80) as a processing intermediate. Therefore, in contrast to conclusions drawn for the envelope proteins of several other retroviruses, proteolytic cleavage of MMTV envelope proteins occurs after acquisition of endo H resistance. Also, proteolytic cleavage cannot be the primary hormone-regulated step. Second, inhibition of mannosidase II by the drug swainsonine did not prevent Pr74 from being proteolytically processed, thus demonstrating that conversion of oligosaccharide chains from endo H-sensitive to -resistant forms was not a prerequisite for proteolytic cleavage. Therefore, the requisite hormone-regulated event in MMTV glycoprotein processing must precede both acquisition of endo H resistance and proteolytic cleavage. This places the regulated event in the endoplasmic reticulum or early Golgi.

Enhanced glycosyltransferase activity during thermotolerance development in mammalian cells

The cellular heat shock response leads to the enhanced synthesis of a family of heat shock proteins and the development of thermotolerance. In CHO cells, however, heat shock also leads to enhanced synthesis of a 50 kD glycoprotein and elevated activity of N-acetylgalactosaminyltransferase (GalNAcT). In this study we showed increased GalNAcT activity during thermotolerance expression in all of five mammalian cell lines included in the study. However, there was no simple correlation between cellular heat sensitivity of unheated control cells and basal levels of GalNAcT activity, measured toward the same exogenous acceptor apomucin. Although GalNAcT was elevated in thermotolerant cells, GalNAcT activity itself did not exhibit thermotolerance in terms of reduced sensitivity to heat inactivation. The increase in GalNAcT activity after heating was similar in exponentially growing and plateau-phase cultures and was inhibited neither by cycloheximide nor actinomycin D. However, the inhibitors by themselves also increased GalNAcT activity in unheated control cells. Chemical inducers of thermotolerance (arsenite and diamide) increased GalNAcT activity, but the increase was modest when compared to that following hyperthermia. In addition to GalNAcT, two other glycosyltransferases with specificity for O-glycans, alpha 1,2-fucosyltransferase and alpha 2,6-sialyltransferase, also showed increased activity after hyperthermia and during thermotolerance development. Together with previously published data, these results support the hypothesis that heat-induced activation of O-glycan-specific glycosyltransferases plays a physiological role in the cellular heat shock response and in thermotolerance development.

Glycosylation site binding protein, a component of oligosaccharyl transferase, is highly similar to three other 57 kd luminal proteins of the ER

A 57 kd component of oligosaccharyl transferase, termed glycosylation site binding protein, specifically recognizes a photoaffinity probe containing the N-glycosylation site sequence Asn-Lys-Thr. It is present in the lumen of the ER (endoplasmic reticulum) and its release from this compartment results in a loss of N-glycosylation. Antibodies against this protein were used to identify cDNA clones from a lambda gt11 expression library. Analysis of its cDNA sequence reveals high sequence similarity to three other 57 kd luminal endoplasmic reticulum proteins: protein disulfide isomerase, the beta-subunit of prolyl hydroxylase, and thyroid hormone binding protein. This finding suggests that the capacity to recognize multiple polypeptide domains may reside in a single luminal protein that participates in co- and/or posttranslational modifications of newly synthesized proteins.