Brefeldin A inhibits oligosaccharide processing of glycoproteins in mouse hypothyroid pituitary tissue at several subcellular sites

We have studied the effects of brefeldin A (BFA) and monensin on the processing of the oligosaccharides of thyrotropin (TSH), free alpha-subunits, and cellular glycoproteins of mouse pituitary tissue to clarify the subcellular sites of action of BFA. BFA was previously shown to inhibit the translocation of glycoproteins from the rough endoplasmic reticulum to the Golgi apparatus but action at other sites was possible. Pituitaries from hypothyroid mice were incubated with [35S]methionine, [3H]mannose, [3H]galactose, [3H]fucose, N-[3H]acetylmannosamine, or [35S]sulfate for 2 hr in the absence or presence of 5 micrograms of BFA/ml or 2 microM monensin. TSH and free alpha-subunits were immunoprecipitated from tissue lysates and analyzed by sodium dodecyl sulfate-gel electrophoresis. The tryptic glycopeptides of TSH were separated using high-performance liquid chromatography. Total glycoproteins in cell lysates were precipitated using trichloroacetic acid. Labeled oligosaccharides were released from the tryptic glycopeptides of TSH and cellular glycoproteins by endoglycosidase H and they were analyzed by paper chromatography. Compared with control incubations, BFA caused the intracellular accumulation of glycoproteins having less than expected amounts of Man9GlcNAc2 units, but with excess Man8GlcNAc2, Man7GlcNAc2, Man6GlcNAc2, and Man5GlcNAc2 units. There was a lesser accumulation of glucose-containing oligosaccharides, especially Glc1Man9GlcNAc2. Monensin also caused the accumulation of certain high mannose species, but the pattern differed from that seen for BFA, since Man9GlcNAc2 units were preserved and there was less excess of Man8GlcNAc2, Man7GlcNAc2, Man6GlcNAc2, and Man5GlcNAc2 units. BFA did not block the initial attachment of oligosaccharides at any of the three Asn-glycosylation sites of TSH, but caused the accumulation of Man5-8GlcNAc2 units at each site. Both monensin and BFA inhibited fucosylation, sulfation, and sialylation more markedly than mannose incorporation. Thus, in addition to its previously described action of inhibiting rough endoplasmic reticulum to Golgi transport, BFA appears to partially inhibit the glucose-trimming enzymes as well as some Golgi enzymes.     

Susceptibility to endoglycosidase F and H at the individual glycosylation sites of mouse thyrotropin and free alpha-subunits

We have studied the differential susceptibility to endoglycosidase F and H of oligosaccharides at the individual glycosylation sites of mouse TSH and free alpha-subunits. Mouse thyrotropic tumor tissue was incubated with D-[2-3H]mannose for 6 h. [3H]Man-labeled TSH and free alpha-subunits were obtained from homogenates using specific antisera and were digested with endoglycosidase F and H in their native states or after heat-denaturation and reduction in the presence of detergents. Tryptic fragments of the digestion products were then analyzed by reverse phase HPLC so that effects of endoglycosidase at the individual glycosylation sites could be determined. There was very little preferential cleavage by endoglycosidase H and F among the glycosylation sites of TSH subunits. Endoglycosidase F treatment of native free alpha-subunits showed slight preferential cleavage at Asn 82 of alpha-subunits after a 4 h incubation, whereas endoglycosidase H cleaved oligosaccharides equally well at Asn 56 and Asn 82. The Asn 82 oligosaccharide of native TSH heterodimers was also slightly preferentially cleaved by endoglycosidase F, but endoglycosidase H cleaved oligosaccharides equally well at all TSH glycosylation sites. Heat denaturation, reduction and the presence of detergent did not alter this slight preferential cleavage by endoglycosidase F at Asn 82 of alpha-subunits, suggesting that the primary structures of the TSH subunits in part influenced the efficiency of enzyme action at specific sites. Thus, the susceptibility to endoglycosidase F differs very slightly at the individual glycosylation sites of mouse TSH and free alpha-subunits, and these small differences could be due to properties of either the enzyme or substrates.     

Effect of thyrotropin-releasing hormone on the carbohydrate structure of secreted mouse thyrotropin. Analysis by lectin affinity chromatography

Thyrotropin (TSH) is a glycoprotein hormone whose secretion from the anterior pituitary is regulated, in part, by the hypothalamic tripeptide thyrotropin-releasing hormone (TRH). We have used serial lectin affinity analysis to explore whether TRH, in addition to promoting TSH secretion, alters the carbohydrate structure of secreted TSH. Hypothyroid mouse hemipituitaries were incubated in medium containing [3H] mannose, [3H]glucosamine, or [3H]fucose either with or without 10(-7) M TRH. TSH was immunoprecipitated, proteolytically digested into glycopeptides, and chromatographed on serial lectin-Sepharose columns. Under basal conditions, 37% of secreted [3H]mannose-labeled TSH glycopeptides failed to bind to concanavalin A (ConA)-Sepharose, 55% bound and eluted with 10 mM alpha-methylglucoside, and 8% bound and eluted with 500 mM alpha-methylmannoside. Approximately 35% of glycopeptides not binding to ConA-Sepharose were bound by pea lectin-Sepharose, suggesting the presence of certain core fucosylated triantennary complex oligosaccharides. TRH caused a 2-fold increase in secretion of [3H]mannose-labeled TSH glycopeptides due almost exclusively to a specific increase in structures that bound to ConA-Sepharose and eluted with 10mM alpha-methylglucoside, corresponding to biantennary complex or unusual hybrid species. There was no change in the distribution of intrapituitary TSH glycopeptides with TRH. Acid hydrolysis of secreted proteins showed little metabolism of the tritiated sugar precursors, except for a 20% conversion of [3H]mannose to [3H]fucose. Moreover, ConA-Sepharose chromatography of secreted [3H]glucosamine- and [3H]fucose-labeled TSH glycopeptides showed similar increases in ConA-Sepharose binding with TRH as noted with [3H]mannose labeling. Subsequent lectin analysis of secreted [3H] mannose-labeled TSH glycopeptides on erythroagglutinating phytohemagglutinin-Sepharose and leukoagglutinating phytohemagglutinin-Sepharose disclosed no significant differences in TRH-treated versus control samples. These data suggest that secreted mouse TSH has greater carbohydrate heterogeneity than has been recognized previously. In addition, TRH in vitro promotes the secretion of specific TSH molecules apparently enriched in biantennary complex or unusual hybrid oligosaccharides.     

Characterization of proteoglycans synthesized by rat thyroid cells in culture and their response to thyroid-stimulating hormone

A Fisher rat thyroid cell line was maintained in culture and the cells were labeled with [3H]glucosamine, [35S]sulfate, and [35S]cysteine to examine the synthesis of proteoglycans. 3H and 35S radioactivity from these precursors were incorporated into both chondroitin sulfate (CS) and heparan sulfate (HS) proteoglycans. CS proteoglycans were almost exclusively secreted into the medium while HS proteoglycans remained mainly associated with the cell layer. Single chain glycosaminoglycans released by papain digestion or alkaline borohydride treatment of either the CS or HS proteoglycans had average molecular weights of approximately 30,000 on Sepharose CL-6B chromatography. Both CS and HS proteoglycans were relatively small and contained only one or two glycosaminoglycans chains. 3H and 35S incorporation into both CS and HS proteoglycans were increased by thyroid-stimulating hormone (TSH) in a dose-dependent manner, which is in part explained by an adenylate cyclase-dependent mechanism as indicated by a similar effect in response to dibutyryl cAMP. TSH enhanced the incorporation of 35S into CS from [35S]cysteine about 1.5-fold and that from [35S]sulfate about 2-fold. This result demonstrated that the increased 35S incorporation from the [35S]sulfate precursor reflects an actual increase in sulfate incorporation and is not simply a result from an apparent increase in specific activity of the phosphoadenosine phosphosulfate donor. Analysis of disaccharides from chondroitinase digests revealed that the proportion of non-sulfated, 4-sulfated, and 6-sulfated disaccharides was not altered appreciably by TSH. These results, together with the disproportionate increase in 3H incorporation into CS from [3H]glucosamine, indicated that TSH increased the specific activity of the 3H label as well. Chase experiments revealed that CS proteoglycans were rapidly (t1/2 = 15 min) secreted into the medium and that the degradation of cell-associated proteoglycans was enhanced by TSH.     

Differential processing and regulation of thyroid-stimulating hormone subunit carbohydrate chains in thyrotropic tumors and in normal and hypothyroid pituitaries

Thyroid-stimulating hormone (TSH) alpha- and beta-subunit glycosylation was investigated in mouse thyrotropic tumor and in normal and hypothyroid pituitary cells for various periods of time in the presence of [3H]mannose or [3H]galactose. After sequential precipitation with anti-alpha and anti-beta sera, subunits were treated with Pronase followed by endo-beta-N-acetylglucosaminidase H (Endo H) and analyzed by paper chromatography. In primary cultures of thyrotropic tumor cells incubated for 60 min with [3H]mannose, primarily Man9GlcNAc and Man8GlcNAc were found on TSH + alpha subunits, whereas Glc1Man9GlcNAc and Man9GlcNAc were prominent on free beta subunits. After preincubation of cells for 16 h in the presence or absence of glucose followed by a 60-min pulse of [3H]mannose, there was an 8-fold increase in labeled TSH + alpha but only a minimal change in free beta or total proteins. In the absence of glucose, there was a selective accumulation of Man8GlcNAc on TSH + alpha but not on free beta or total proteins; however, there was no detectable accumulation of Endo H resistant forms during glucose starvation on TSH subunits or total proteins. Normal mouse and rat pituitary minces incubated for 60 min with either [3H]mannose or [3H]galactose showed no glucose-containing species on TSH subunits, but equal amounts of Man9GlcNAc and Man8GlcNAc on TSH + alpha, and mostly Man9GlcNAc on free beta subunits. In contrast, hypothyroid mouse and rat pituitaries exhibited an increase in Glc1Man9NAc and Glc1Man8GlcNAc on free beta but not on TSH + alpha or total proteins.(ABSTRACT TRUNCATED AT 250 WORDS)     

Metabolism of Functional Groups Modifying the CNS Myelin-Associated Glycoprotein

We have examined the metabolic turnover of the peptide backbone of the CNS myelin-associated glycoprotein (MAG) and of the fucose and sulfate groups modifying this protein. Rats (20 or 90 days old) were injected intracranially with mixtures of [3H]fucose and [14C]glycine, [3H]glycine and [35S]sulfuric acid, or [3H]fucose and [35S]sulfuric acid. At times ranging from 30 min to 4 weeks later, myelin was isolated, and radioactivity in MAG was determined following electrophoretic separation. Following the peak of incorporation, glycine-derived radioactivity in the MAG peptide backbone declined several-fold during the first week and was then metabolically stable (half-life much greater than 1 month). Declines with time in [3H]fucose- and [35S]sulfate-derived radioactivity in MAG were similar to that of [3H]glycine, an observation indicating that the fucose and sulfate groups modifying MAG are metabolized together with the peptide backbone as a single metabolic entity. These results were confirmed by experiments involving selective immunoprecipitation of MAG. The rates of incorporation of labeled glycine, fucose, and sulfate into MAG all decreased approximately 12-fold between 20 days of age and adulthood, a finding providing further evidence for concerted turnover of the entire molecule. Because of this concerted turnover, we suggest that functional groups modifying MAG serve some permanent structural role in protein configuration.     

Sulfated tyrosines of thyroglobulin are involved in thyroid hormone synthesis.

Thyroid hormone synthesis is under the control of thyrotropin (TSH), which also regulates the sulfation of tyrosines in thyroglobulin (Tg). We hypothesized that sulfated tyrosine (Tyr[S]) might be involved in the hormonogenic process, since the consensus sequence required for tyrosine sulfation to occur was observed at the hormonogenic sites. Porcine thyrocytes, cultured with TSH but without iodide in the presence of [(35)S]sulfate, secreted Tg which was subjected to in vitro hormonosynthesis with increasing concentrations of iodide. A 63% consumption of Tyr[S] (1 residue) was observed at 40 atoms of iodine incorporated into Tg, corresponding to a 40% hormonosynthesis efficiency. In addition, hyposulfated Tg secreted by cells incubated with sodium chlorate was subjected to in vitro hormonosynthesis. With 0.5 Tyr[S] residue (31% of the initial content), the efficiency of the hormonosynthesis was 29%. In comparison, when hormonosynthesis was performed by cells, with only 0.25 Tyr[S] residue (16% of the initial content), the hormonosynthesis efficiency fell to 18%. These results show that there exists a close correlation between the sulfated tyrosine content of Tg and the production of thyroid hormones.     

A source of error in the chromatographic study of 35S-sulfate labeled mucous glycoproteins secreted by the gill epithelium of Mytilus edulis

HPLC combined with [35S]-sulfate/[3H]-glucosamine radiolabeling were employed to study the synthesis and secretion of mucous glycoproteins. The secreted radiolabeled glycoproteins were separated from the medium by precipitation with a mixture of trichloroacetic-phosphotungstic acids (TCA/PTA). The redissolved glycoproteins were chromatographed on an anion exchange protein column at varying pH of the mobile phase and fractions were collected for liquid scintillation counting. Varying the pH of the mobile phase from pH 3 to 7 resulted in a decrease of glycoprotein bound [35S] from 69.5 to 0.5% of the total recovered [35S]-sulfate with the remainder recovered as free [35S]-sulfate. The [3H]-labeled glycoprotein recovered under the uV peaks at this pH range was 99.5%. When high performance size exclusion chromatography was performed the change in mobile phase pH did not affect the 100% recovery of either [35S]-or [3H]-labels under the uV peaks. No free [35S]-sulfate was obtained when [35S]-labeled glycoproteins were separated from the medium using dialysis. These data suggest that the standard method of TCA/PTA precipitation of [35S]-labeled glycoproteins may cleave the [35S]-sulfate ester linkages to the oligosaccharide chains. The [35S]-sulfate may then rebind to the macromolecule by a relatively strong noncovalent bond. This may prove critical in anion exchange protein HPLC studies.     

Alterations in the glycosylation of secreted thyrotropin during ontogenesis. Analysis of sialylated and sulfated oligosaccharides

We have examined the carbohydrate structure of thyrotropin (TSH) secreted in vitro by pituitaries from prenatal, perinatal, and mature rats using concanavalin A (ConA)-agarose chromatography and anion-exchange high performance liquid chromatography (HPLC). [3H]Glucosamine-labeled TSH was immuno-precipitated and treated with either Pronase to generate glycopeptides or a mixture of endo-beta-N-acetyl-glucosaminidase F and peptide:N-glycosidase F to release oligosaccharides. The percentage of secreted TSH glycopeptides not bound to ConA was greater in mature animals (47 +/- 3%) than in either prenatal (29 +/- 3%) or perinatal animals (29 +/- 6%), suggesting more multiantennary oligosaccharides in the older animals. These structural changes were characterized further by performing anion-exchange HPLC on released oligosaccharides. Secreted TSH from prenatal rats predominantly contained oligosaccharides with 1 and 2 negative charges, while TSH from mature rats contained these structures as well as 15% with 3 negative charges. In addition, the ratio of sialylated to sulfated oligosaccharides was greater in mature compared to prenatal animals for species with 1 negative charge (1.9-fold) as well as for species with 2 negative charges (4.3-fold). We also correlated the structural alterations noted by ConA analysis with anion-exchange HPLC. Oligosaccharides that bound to ConA and were eluted with alpha-methylglucoside, when analyzed by anion-exchange HPLC, consisted of species with 1 and 2 negative charges, whereas oligosaccharides that were unbound to ConA were predominantly species with three negative charges. Together, these data suggest that with maturation of the hypothalamic-pituitary-thyroid axis secreted TSH contains more negatively charged multiantennary oligosaccharides with increased sialylation and decreased sulfation.     

The effects of cycloheximide on the biosynthesis and secretion of proteoglycans by chondrocytes in culture.

Proteoglycans synthesized by rat chondrosarcoma cells in culture are secreted into the culture medium through a pericellular matrix. The appearance of [35S]sulphate in secreted proteoglycan after a 5 min pulse was rapid (half-time, t 1/2 less than 10 min), but that of [3H]serine into proteoglycan measured after a 15 min pulse was much slower (t 1/2 120 min). The incorporation of [3H]serine into secreted protein was immediately inhibited by 1 mM-cycloheximide, but the incorporation of [35S]sulphate into proteoglycans was only inhibited gradually(t 1/2 79 min), suggesting the presence of a large intracellular pool of proteoglycan that did not carry sulphated glycosaminoglycans. Cultures were pulsed with [3H]serine and [35S]sulphate and chased for up to 6 h in the presence of 1 mM-cycloheximide. Analysis showed that cycloheximide-chased cells secreted less than 50% of the [3H]serine in proteoglycan of control cultures and the rate of incorporation into secreted proteoglycan was decreased (from t 1/2 120 min to t 1/2 80 min). Under these conditions cycloheximide interfered with the flow of proteoglycan protein core along the route of intracellular synthesis leading to secretion, as well as inhibiting further protein core synthesis. The results suggested that the newly synthesized protein core of proteoglycan passes through an intracellular pool for about 70-90 min before the chondroitin sulphate chains are synthesized on it, and it is then rapidly secreted from the cell. Proteoglycan produced by cultures incubated in the presence of cycloheximide and labelled with [35S]sulphate showed an increase with time of both the average proteoglycan size and the length of the constituent chondroitin sulphate chain. However, the proportion of synthesized proteoglycans able to form stable aggregates did not alter.     

Studies on the biosynthesis of sulfolipids in the Diatom Nitzschia alba.

Labeling of sulfolipids in Nitzschia alba was studied after growth of the cells in media containing L-[35S]cystine, L-[35S], L-[35S]cysteine, L-[35S]-methionine or a mixture of L-[Me-3H]methionine and L-[35S]methionine, [35S]Cysteine or [35S]cystine labeled the deoxyceramide sulfonate and the sulfonium analog, phosphatidylsulfocholine (and its lyso derivative) but not the sterol sulfate nor the sulfoquinovosyl diglyceride; [35S]methionine labeled only the phosphatidylsulfocholine and its lyso derivative. With the [35S]- and [Me-3H]methionine mixture (3H/35S ratio 1.0) the phosphatidylsulfocholine had a 3H/35 S ratio of 1.5 indicating that both sulfonium methyl groups were derived from methionine. Probable biosynthetic pathways for these novel sulfolipids are discussed.     

Removal of glycosaminoglycans from cultures of human skin fibroblasts.

Early-passage human skin fibroblasts were grown as monolayers for 2-3 days in minimum essential medium containing [35S]sulphate, [3H]glucosamine, [3H]fucose, [3H]proline or [3H]leucine to label proteoglycans, glycoproteins or collagen and other proteins. A crude enzyme preparation obtained from a supernatant from sonicated freeze-dried Flavobacter heparinum was added to the cell monolayers. This treatment removed most of the 35S-labelled glycosaminoglycans, with no appreciable removal of the 3H-labelled proteins or 3H-labelled glycoproteins. The cells remained attached and viable as a monolayer. The formation of 35S-labelled glycosaminoglycans was examined after pretreating cultures with crude F. heparinum enzyme, followed by addition of fresh growth medium containing [35S]sulphate. The F. heparinum enzyme did not significantly alter the amount or type of 35S-labelled glycosaminoglycans produced. Thus F. heparinum enzyme can be used to provide cultured-cell monolayers depleted of surface glycosaminoglycans. These cells remain attached, viable and subsequently synthesize normal amounts and type of glycosaminoglycans.     

Bovine thyrotropin inhibits DNA synthesis inversely with stimulation of cyclic AMP production in cultured porcine thyroid follicles

The effects of bovine thyrotropin (TSH) on DNA synthesis and cyclic AMP production were studied in porcine thyroid follicles using suspension culture. During the early 72 hours incubation, the time-dependent uptake of [3H]thymidine by the follicles was observed. In the presence of 10 mU/ml TSH, the uptake of [3H] thymidine was significantly depressed at 72 hours incubation. TSH inhibition of [3H] thymidine incorporation was related to its concentration and the 50% inhibition was observed by using 1.0 mU/ml TSH. Under the same conditions, cyclic AMP production was stimulated by TSH and the stimulation was observed to be related to TSH concentration. In these experiments, the incubation time was 30 min. Dibutyryl cyclic AMP, an analogue of cyclic AMP, inhibited the [3H] thymidine uptake at 72 hours incubation. From these results, it is suggested that TSH inhibits DNA synthesis, and that the inhibition may be mediated by cyclic AMP that is produced by TSH stimulation.     

Evidence for a signal sequence at the N terminus of the common precursor to adrenocorticothrophin and beta-lipotropin in mouse pituitary cells

The precursor to corticotropin and beta-endorphin was synthesized in a reticulocyte cell-free system under the direction of mRNA from mouse AtT-20 pituitary tumor cells in the presence of [3H]proline, [3H]phenylalanine, [3H]leucine, [3H]valine, [3H]isoleucine or [35S]methionine. Automatic Edman degradation of the radioactive cell-free product showed the following N-terminal sequence: Pro-1, Met-2, Leu-11, Leu-12, Leu-13, Leu-15, Leu-16, Leu-17, Ile-21 and Val-23. The corticotropin-endorphin precursor was also labeled in AtT-20 cells with [3H]valine, [3H]leucine, [3H]tryptophan, [3H]serine, [35S]methionine or [35S]cysteine. Automatic Edman degradation of the radioactive intact cell form gave the following N-terminal sequence: Trp-1, Cys-2, Leu-3, Ser-5, Ser-6, Val-7, Cys-8, Leu-11, Leu-17, Leu-18 and tentatively Met-27. The sequence of the intact cell form from AtT-20 cells matches the sequence of the cell-free form of bovine pituitary precursor beginning at Trp-27, as determined by recombinant DNA technology [Nakanishi, S., Inoue, A., Kita, T., Nakamura, M., Chang, A. C. Y., Cohen, S. N., and Numa, S. (1979) Nature (Lond.) 278, 423-427]. The sequence of the mouse pituitary mRNA-directed cell-free translation product also matches the bovine precursor beginning at Pro-2. The results suggest that both the mouse and bovine precursors possess a signal sequence of 26 amino acids which is cleaved in intact cells. CNBr cleavage of [35S]cysteine-labelled intact cell precursor gave rise to an N-terminal fragment of a size compatible with the presence of a methionyl residue at or near position 27.     

A Source of Error in the Chromatographic Study of S-Sulfate Labeled Mucous Glycoproteins Secreted by the Gill Epithelium of Mytilus Epulis

HPLC combined with [³⁵S]-sulfate/[³H]-glucosamine radlolabellng were employed to study the synthesis and secretion of mucous glycoproteins. The secreted radiolabeled glycoproteins were separated from the medium by precipitation with a mixture of trichloroacetic-phosphotungstic acids (TCA/PTA). The redissolved glycoproteins were chromatographed on an anion exchange protein column at varying pH of the mobile phase and fractions were collected for liquid scintillation counting. Varying the pH of the mobile phase from pH 3 to 7 resulted in a decrease of glycoprotein bound [³⁵S] from 69.5 to 0.5% of the total recovered [³⁵S]-sulfate with the remainder recovered as free [³⁵S]-sulfate. The [³H]-labeled glycoprotein recovered under the uV peaks at this pH range was 99.5%. When high performance size exclusion chromatography was performed the change in mobile phase pH did not affect the 100% recovery of either [³⁵S]-or [³⁵H]-labels under the uV peaks. No free [³⁵S]-sulfate was obtained when [³⁵S]-labeled glycoproteins were separated from the medium using dialysis. These data suggest that the standard method of TCA/PTA precipitation of [³⁵S]-labeled glycoproteins may cleave the [³⁵S]-sulfate ester linkages to the oligosaccharide chains. The [³⁵S]-sulfate may then rebind to the macromolecule by a relatively strong noncovalent bond. This may prove critical in anion exchange protein HPLC studies.     

Biosynthesis of proteodermatan sulfate in cultured human fibroblasts

Biosynthesis and secretion of proteodermatan sulfate produced by cultured human skin fibroblasts were investigated employing immunological procedures. During an incubation period of 10 min in the presence of [3H]leucine, two core protein forms of Mr = 46,000 and 44,000, respectively, were synthesized. They were converted to mature proteodermatan sulfate with a half-time of approximately 12 min. Fifty per cent of total mature proteodermatan sulfate were found in the culture medium after a 35-min chase. Six to eight per cent remained associated with the cell layer after a chase of 6 h. In the presence of tunicamycin, fibroblasts synthesized a single core protein of Mr = 38,000 that was converted to mature proteodermatan sulfate and secreted with similar kinetics as the N-glycosylated species. Subtle differences in the molecular size of core proteins were noted when cell-associated and secreted proteodermatan sulfate were degraded with chondroitin ABC lyase, but core proteins free of N-linked oligosaccharides were identical. Labeling with [3H]mannose revealed that secreted proteodermatan sulfate contains two or three complex-type or two complex-type and one high-mannose-type N-linked oligosaccharide chains. The N-glycans are bound to a 21-kDa fragment of the core protein. After incubation in the presence of [3H]glucosamine, the [3H]galactosamine/[3H]glucosamine ratio was 3.76 and 3.30 for secreted and cell-associated proteodermatan sulfate, respectively. Evidence for the presence of O-linked oligosaccharides could not be obtained. Small amounts of core protein free of dermatan sulfate chains were secreted when the cultures were treated with p-nitrophenyl-beta-D-xyloside.     

Secreted proteins from rat Sertoli cells.

Sertoli cell cultures were prepared from the testes of 20-day-old rats. The proteins which were secreted by the cells into the culture medium were labeled with [³H]leucine or l-[³H]fucose. The proteins were concentrated by ultrafiltration and analysed by polyacrylamide slab gel electrophoresis (PAGE) in the presence of sodium dodecyl sulfate (SDS). Autofluorography of the gels at ?70 °C showed that the rat Sertoli cells synthesized and secreted at least 7 major polypeptides. The polypeptides had molecular weights ranging from 16 000 to 140 000 D. Proteins which were secreted from cultures of testicular fibroblasts and myoid cells had electrophoretic properties on SDS-PAGE which were different from Sertoli cell secreted proteins. Addition of FSH and testosterone to the Sertoli cell cultures increased the total synthesis and secretion of [³H]leucine-labeled proteins. No qualitative changes in the proteins as a result of hormone application could be detected. However, the synthesis of a polypeptide of molecular weight 48 000 was increased relative to the other secreted peptides if the cells were maintained in FSH and testosterone. The Sertoli cell secreted proteins were shown to be glycoproteins which can bind to ConA-Sepharose and can be labeled with [³H]fucose. Tunicamycin, a specific inhibitor of N-glycosylation, inhibited the secretion of [³H]proteins by 50% but had little effect on the intracellular protein synthesis.     

The glycophospholipid anchor of Thy-1. Biosynthetic labeling experiments with wild-type and class E Thy-1 negative lymphomas

The Thy-1 antigen of the surface of lymphocytes and neurons is anchored to the plasma membrane via a glycophospholipid moiety. In contrast, the Thy-1 synthesized by the class E Thy-1 negative mutant lymphoma is secreted as a hydrophilic species. The present investigation uses the approach of biosynthetic labeling to investigate further the structure of the intracellular Thy-1 of wild-type cells and the secreted Thy-1 of these mutant cells. In the wild-type cells, Thy-1 can be labeled with [3H] mannose, [3H]galactose, [3H]fucose, [3H]ethanolamine, and [3H]palmitic acid. In the latter two cases the label is recovered almost exclusively in a detergent-binding Pronase fragment of the protein. The incorporated label is in the form of [3H]ethanolamine, or [3H]palmitate and stearate, respectively. Reductive methylation of biosynthetically labeled Thy-1 and a nonradioactive sample of Thy-1 shows that [3H]ethanolamine is incorporated equally into two residues of ethanolamine, only one of which has a free amino group. A single residue of glucosamine with a free amino group is also detected. Each of the sugar precursors is incorporated with extensive conservation of chemical identity. In the class E cells, each of the labeled sugars but neither [3H]ethanolamine nor [3H]palmitate is incorporated into Thy-1. The anchor moiety therefore appears to be entirely missing, although N-linked oligosaccharide processing is essentially normal. We postulate that the anchor deficiency in the mutant cells results from a biosynthetic lesion.     

Lactosaminoglycans synthesized by mouse male germ cells are fucosylated by an epididymal fucosyltransferase

We have studied the synthesis of protein-bound carbohydrates in differentiating male germ cells in the mouse. Spermatocytes and spermatids synthesize asparagine-linked and high-molecular-weight glycopeptides as the major classes of protein bound carbohydrates. Asparagine-linked glycopeptides were found to be mainly composed of the complex bi-antennary type as shown by affinity chromatography on concanavalin-A Sepharose; high-molecular-weight glycopeptides were represented by nonfucosylated lactosaminoglycans since they were metabolically labeled with [¹⁴C]glucosamine but not with [³H]fucose, did not bind to DEAE-cellulose, and were susceptible to endo-β-galactosidase. Labeling with galactose oxidase/Na B³H₄ technique demonstrated that lactosaminoglycans were present on the surface of differentiating germ cells and of testicular and epididymal spermatozoa. Since lactosaminoglycans from germ cells and testicular spermatozoa were not retained on a column of fucose-binding lectin, it was concluded that these molecules do not contain fucose. On the other hand, epididymal spermatozoa lactosaminoglycans bound to the lectin and therefore contained fucose. A soluble fucosyltransferase, capable of transferring fucose to germ cell lactosaminoglycans, was found to be present in the epididymis but not in the testis. These data show that developing germ cells synthesize nonfucosylated lactosaminoglycans which are probably preserved throughout spermiogenesis. We suggest that these molecules are fucosylated in vivo by a fucosyltransferase secreted by the epididymal epithelium.     

Lymphocyte function-associated antigen 1 (LFA-1) contains sulfated N-linked oligosaccharides

The murine lymphocyte function-associated antigen 1 (LFA-1) is a glycoprotein heterodimer consisting of an Mr 180,000 alpha-chain and an Mr 95,000 beta-chain. Although LFA-1 has been studied extensively in the past few years due to its involvement in various antigen-specific T lymphocyte responses, virtually nothing is known about its glycosylation. In this report, we have analyzed the oligosaccharide moieties of the murine LFA-1 molecule. Utilizing a T lymphoma cell line, EL-4, it was found that [35S] sulfate, [3H]glucosamine, [3H]mannose, and [3H]fucose were incorporated into both the alpha- and beta-chains of LFA-1. Isolated alpha- and beta-chains from anti-LFA-1 immunoprecipitates of [3H]glucosamine-labeled NP-40 lysates were subjected to tryptic-chymotryptic digestion, and the resulting glycopeptides were fractionated by reverse-phase high performance liquid chromatography. Five major [3H]glucosamine-labeled glycopeptides were generated by this procedure from each of the two polypeptide chains. Treatment of the individual glycopeptides with almond emulsin peptide:N-glycosidase or Endo F demonstrated that the [3H]glucosamine label existed almost entirely in N-linked oligosaccharide structures (Mr 5000 to 10,000). By using similar techniques, the majority of the [35S]sulfate moieties were also found covalently bound to N-linked oligosaccharides. In addition, both [35S]sulfate-labeled alpha- and beta-chains were susceptible to Keratanase and endo-beta-galactosidase digestions, indicating the presence of sulfated N-acetyllactosamine sequences. The expression of [35S]sulfate-labeled LFA-1 on various cell types was also examined. LFA-1 was found to be sulfated only on thymocytes and splenic T cells, but not on macrophages, splenic B, or bone marrow cells.