Localization of glycoprotein glycosyltransferases in the Golgi apparatus of rat and mouse testis

Golgi fractions prepared from rat testis have been shown to be enriched in the following glycoprotein glycosyltransferases: N-acetylglucosaminyltransferase, 47-fold, galactosyltransferase, 33-fold, and N-acetylglucosaminide fucosyltransferase, 15-fold. Appreciably lower transferase levels were obtained in other subcellular fractions. In the mouse, Golgi fractions were prepared from testis homogenates, testis cell suspensions and partially purified testis germinal cells; these fractions were also enriched in the above glycoprotein glycosyltransferases. Electron microscopic analysis indicated that a major portion of the total transferase activity was located in the Golgi apparatus of both rat and mouse testis although these experiments could not rule out the possible presence of some transferase activity in other organelles.     

Intracellular localization of GDP-l-fucose: Glycoprotein and CMP-sialic acid: Apolipoprotein glycosyltransferases in rat and pork livers

A GDP-l-fucose:glycoprotein fucosyltransferase which transfers l-fucose to terminal β-N-acetyl-d-glucosaminyl residues of sialidase-, β-galactosidase-treated α₁-acid glycoprotein and a CMP-sialic acid:glycoprotein sialyltransferase acting on sialidase-treated apolipoprotein-Ala₁ from human very low density lipoprotein have been shown to be concentrated in rat liver Golgi apparatus preparations at enrichments of 40- and 45-fold, respectively, and in pork liver Golgi-rich fractions at enrichments of 35- and 20-fold, respectively. A second fucosyltransferase acting on sialidase-treated α₁-acid glycopretein was absent from rat liver and was enriched only 13-fold in a pork liver Golgi-rich fraction. The smooth-surfaced microsome fraction was the only other rat liver subcellular fraction with appreciable levels of the GDP-l-fucose: β-N-acetyl-d-glucosaminide fucosyltransferase and the lipoprotein sialyltransferase (enrichments of 2.6- and 5.2-fold, respectivley). This enrichment could not be attributed to the plasma membrane content of the smooth microsome fraction since plasma membrane fractions from rat liver were shown to have relatively low concentrations of these two transferases (enrichments of 0.3 or less). Rat liver plasma membrane was also shown to have similarly low relative specific activities for three other glycosyltransferases (sialyl-, galactosyl-, and N-acetylglucosaminyl-). The accurate determination of the glycosyltransferase activities of the plasma membrane fraction required the use of relatively low concentrations of plasma membrane and relatively high concentrations of nucleotide-sugars in order to avoid interference by the high nucleotide-sugar pyrophosphatase and hydrolase activities of this fraction.     

Developmental program of PGK-1 and PGK-2 isozymes in spermatogenic cells of the mouse: Specific activities and rates of synthesis

The specific activities and synthesis of the ubiquitous isozyme, PGK-1, and the testis-specific isozyme, PGK-2, have been quantitated and localized in spermatogenic cells of the mouse. There is a fivefold increase in total PGK specific activity between immature and adult testes which begins at approximately 30 days of age, coincident with the appearance of late-middle stage spermatids. The increase in total PGK is entirely due to the appearance and increase of the PGK-2 isozyme. Rates of PGK synthesis were measured by labeling testicular cells in vitro with [³H]leucine and purifying the PGK isozymes. When total testicular cells were examined, PGK-2 synthesis was detectable after 22 days of age at very low levels and increased in older testes to a level of 0.5% of total protein synthesis. PGK-1 synthesis remained relatively constant at all ages at a level 100-fold lower (0.005%). Testicular cells were separated into highly enriched fractions of particular spermatogenic stages by centrifugal elutriation. The PGK-1 synthesis rates were, again, very low and not significantly different between the various spermatogenic stages. PGK-2 synthesis was low to nondetectable in pachytene spermatocytes, increased to 0.07% in early spermatids and represented 0.7% of total protein synthesis in late spermatids. This increased rate of PGK-2 synthesis appears to require an increase in the amount of PGK-2 mRNA in late spermatids, cells in which no active RNA synthesis is detectable.     

Glycerol-3-phosphate acyltransferase-2 is expressed in spermatic germ cells and incorporates arachidonic Acid into triacylglycerols

Background

De novo glycerolipid synthesis begins with the acylation of glycerol-3 phosphate catalyzed by glycerol-3-phosphate acyltransferase (GPAT). In mammals, at least four GPAT isoforms have been described, differing in their cell and tissue locations and sensitivity to sulfhydryl reagents. In this work we show that mitochondrial GPAT2 overexpression in CHO-K1 cells increased TAG content and both GPAT and AGPAT activities 2-fold with arachidonoyl-CoA as a substrate, indicating specificity for this fatty acid.

Methods and Results

Incubation of GPAT2-transfected CHO-K1 cells with [1-¹⁴C]arachidonate for 3 h increased incorporation of [¹⁴C]arachidonate into TAG by 40%. Consistently, arachidonic acid was present in the TAG fraction of cells that overexpressed GPAT2, but not in control cells, corroborating GPAT2''s role in synthesizing TAG that is rich in arachidonic acid. In rat and mouse testis, Gpat2 mRNA was expressed only in primary spermatocytes; the protein was also detected in late stages of spermatogenesis. During rat sexual maturation, both the testicular TAG content and the arachidonic acid content in the TAG fraction peaked at 30 d, matching the highest expression of Gpat2 mRNA and protein.

Conclusions

These results strongly suggest that GPAT2 expression is linked to arachidonoyl-CoA incorporation into TAG in spermatogenic germ cells.     

Synthesis and turnover of sulfogalactoglycerolipid, a membrane lipid, during spermatogenesis.

The synthesis and turnover of sulfogalactoglycerolipid (SGG) were studied by in vivo labelling of SGG with 35S. The loss of [35S]SGG from the testes and its appearance in the vas deferens plus epididymis were followed with time. DNA was labelled by administration of [3H]thymidine and the behavior of the two isotopes was compared. The results demonstrate that SGG snythesis occurs only in very early spermatocytes and that, once made, the compound does not turn over. The SGG is lost from the testes when germinal cells die or mature into spermatozoa.     

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.     

The presence of two GDP-L-fucose: glycoproteine fucosyltransferases in human serum

Two soluble fucosyltransferases have been demonstrated in human serum. One enzyme transfers l-fucose from GDP-l-fucose to the terminal galactose residues of lactose, N-acetyllactosamine, and sialidase-treated α₁-acid glycoprotein, to form the blood group H determinant, α-l-fucosyl-(1 → 2)-β-d-galactosyl-R. The second enzyme transfers fucose to the terminal N-acetylglucosamine residue of sialidase-, β-galactosidase-treated α₁-acid glycoprotein. Serum from a donor with the rare “Bombay” O_h blood group (genotype hh) cannot transfer fucose to terminal galactose residues but has normal levels of the enzyme acting on sialidase-, β-galactosidase-treated α₁-acid glycoprotein. This observation, as well as mixed substrate experiments, demonstrate that the two fucosyltransferase activities are due to two separate enzymes. The GDP-l-fucose:galactoside fucosyltransferase has a pH optimum of 5.5 and the following K_m values: lactose, 31 mm; N-acetyllactosamine, 7.5 mm; sialidase-treated α₁-acid glycoprotein, 6.4 mm. The GDP-l-fucose: N-acetylglucosaminide fucosyltransferase has a pH optimum of 5.0 and a K_m for sialidase-, β-galactosidase-treated α₁-acid glycoprotein of 1.2 mm. The serum GDP-l-fucose: N-acetylglucosaminide fucosyltransferase is distinct from the blood group Lewis-dependent enzyme in milk since the serum enzyme is present in serum from Le (a-b-)donors and since the Le-dependent fucosyltransferase could not be demonstrated in serum from donors carrying the Le gene.     

Cellular distribution, developmental changes and effects of cryptorchidism on uridine kinase in the rat testis

High specific activity of uridine kinase was found in cultured peritubular cells (3.0 nmol/min per mg protein) which was more than 3-fold higher than that found in cultured Sertoli cells (0.79 nmol/min per mg protein). In the various classes of germ cells a decrease in specific uridine kinase activity was associated with increased maturity of the cells, primary spermatocytes, round spermatids and spermatozoa showing 1.3, 0.65 and 0.16 nmol/min per mg protein, respectively. A relationship between uridine kinase activity and the rate of RNA synthesis in these cells is suggested. A decrease in specific uridine kinase activity in testis with increasing age supports the finding of lower uridine kinase in mature germ cells than in earlier germ cells and somatic cells. This finding is further supported by the observation that cryptorchidism, which is associated with a time-dependent depletion of germ cells, resulted in an increase in specific uridine kinase activity. The results indicate that pyrimidine salvage is important in earlier germ cells, as well as in somatic cells in the testis, to produce substrates for nucleic acid synthesis.     

N-andO-glycosylation of glycoprotein C synthesized by Herpes simplex virus type 1-infected ricin resistant cells

The progeny of Herpes simplex virus type 1 (HSV-1) grown in ricin-resistant 14 cells (Ric^R14) lackingN-acetylglucosaminyltransferase I was released in the extracellular medium at a very low rate. By using a monoclonal antibody immobilized on Sepharose we purified from HSV-1-infected Ric^R14 cells a viral glycoprotein (gC), which carries bothN-andO-linked oligosaccharides. Glycopeptides obtained from [³H]mannoselabeled gC by Pronase digestion were entirely susceptible to endo--N-acetylglucosaminidase H, and the major oligosaccharide released was Man₄GlcNAc. The accumulation of this high-mannose species was related to the enzymic defect of the host cells and to the long retention of the viral glycoprotein within the cells. The extent ofO-glycosylation evaluated in [¹⁴C]glucosamine-labeled gC from Ric^R14 cells as compared to that of gC from wild type cells did not appear to be significantly modified.Abbreviations Con A concanavalin A - BHK cells baby hamster kidney cells - HSV Herpes simplex virus     

Effects of ADP, ethanol and acetaldehyde on the relaxing complex of human muscle and its adsorption by polystyrene particles.

Protoplasts of Saccharomyces strain 1016 took up [³H]glucosamine in the presence of an energy source; mannose was chosen to minimize randomization. It accumulated in the soluble intracellular pool primarily as UDP-N-acetyl[³H]glucosamine along with a small amount of [³H]glucosamine 6-phosphate. The antibiotic tunicamycin (TM) at 10 μg/ml did not affect the levels of these metabolites or inhibit the formation of the Nacetylglucosamine polymer, chitin, but did prevent the incorporation of [³H]glucosamine into mannan peptides and the synthesis of invertase. In vitro incorporation of [¹⁴C]mannose from GDP-[¹⁴C]mannose into mannan in a membrane preparation was not sensitive to 100 μg of TM/ml. TM appears to inhibit an N-acetylglucosaminyl transferase essential for glycoprotein biosynthesis. Binding of [³H]TM reflects its association with the plasma membrane fraction. This material could be recovered in an unaltered form by extraction with chloroform/methanol. If 0.2% phosphatidyl choline or phosphatidyl serine was added simultaneously with the [³H]TM, the binding of [³H]TM was greatly reduced, and the inhibitory effects of TM on protoplasts were prevented; however, addition of phospholipid 20 min later did not eliminate the inhibition, although about 80% of the bound [³H]TM was removed. TM interacts with lipophilic membrane components as well as inhibiting glycoprotein synthesis.     

Acetylation of histones of rat testis.

When [1-¹⁴C]acetate was injected into rats intratesticularly in the presence of cycloheximide to inhibit protein synthesis, the label was incorporated into histone fractions F2a1 and F3 and into non-histone chromosomal proteins of each of the following stages of spermatogenesis: spermatogonia-preleptotene spermatocytes, leptotene-zygotene-pachytene-diplotene primary spermatocytes, and spermatids. Acetylation of histones was particularly active in the spermatid stages. There was no significant incorporation of acetate into the lysine-rich histone fractions F1 and X₁.In early periods of in vivo incorporation of [³H]amino acids into histones the acetylated histone F2a1 fractions had higher specific activities than the main band of F2a1, but with the passage of time the label moved into the principal band to the extent that specific activities in the acetylated and principal bands were approximately equal at 6 days. However, at 24–36 days the specific activities were again higher in the acetylated bands than in the principal band of F2a1. These data support the conclusions of Candido, Louie, and Dixon, from experiments with trout testis, that acetylation of histone F2a1 may be important in the process of combination of this protein with DNA in chromatin at the spermatogonia-primary spermatocyte stage and also in the subsequent removal of this histone for replacement by protamines at the spermatid stage.[³H]Amino acids were incorporated into histone fractions X₁ and F1 at approximately equal rates, and there was no evidence that one of these fractions was a precursor of the other.Chromatin of the seminiferous epithelial cells of rat testis has a firmly bound acetylase which catalyzes the in vitro acetylation of histones F3 and F2a1 by acetyl CoA.     

Glycoprotein synthesis in plants: I. Role of lipid intermediates

The enzymic processes involved in glycoprotein synthesis have been studied using crude extracts obtained from developing cotyledons of Phaseolus vulgaris harvested at the time of active deposition of vicilin. Radioactivity from GDP-[¹⁴C]mannose can be incorporated by crude extracts into a single chloroform-methanol-soluble product as well as into insoluble product(s). Mannose is the sole ¹⁴C-labeled constituent of the lipid. The kinetics of incorporation of ¹⁴C, as determined by pulse and pulse-chase experiments using GDP-[¹⁴C]mannose, as well as direct incorporation from added [¹⁴C]mannolipid, shows that the mannolipid is an intermediate in the synthesis of the insoluble product(s). The characteristics of the mannolipid are consistent with it being a mannosyl phosphoryl polyprenol. The mannose is apparently attached to the lipid via a monophosphate linkage. Of the radioactivity in the insoluble product(s), about 20% is pronase-digestible during a “pulse experiment.” After a chase with unlabeled GDP-mannose, about 40% is pronase-digestible; the other 60% is as yet uncharacterized. A radioactive product soluble in a mixture of chloroform-methanol-H₂O can be extracted from the insoluble residue obtained during a pulse, but is no longer present after a chase. This product may be a lipid oligosaccharide, the final intermediate in glycoprotein synthesis. Data are presented on incorporation from UDP-N-[¹⁴C]acetylglucosamine into both chloroform-methanol-soluble and -insoluble product(s). The results are consistent with an involvement of lipid intermediates in the glycosylation of protein in this system, and support the concept that the mechanisms of glycoprotein synthesis in higher plants are similar to those which have been reported for mammalian systems.     

Orientation and integrity of plasma membrane vesicles obtained from carrot protoplasts

Two fractions enriched in plasma membrane derived from suspension-cultured carrot (Daucus carota L.) cells were examined to determine if they differed from each other either in physical nature or in orientation. Parameters studied included the protein composition of purified membranes derived from trypsinized and nontrypsinized protoplasts as well as from trypsinized purified plasma membranes, the effect of inhibitors and membrane perturbants on ATPase activity, the binding of [acetyl-¹⁴C]concanavalin A to purified membrane fractions, and the competitive removal of [acetyl-¹⁴C]concanavalin A from purified membranes derived from [acetyl-¹⁴C]concanavalin A-labeled protoplasts. One fraction (at density of 1.102 grams per cubic centimeter on Renografin gradients) appears to be a mixed population of `tightly' sealed vesicles with the majority being rightside-out vesicles of plasma membrane, and the other fraction (density 1.128 grams per cubic centimeter) apparently is a population of predominantly `leaky' vesicles and/or nonvesicular fragments of plasma membrane, a large portion of which appear to be `leaky' inside-out vesicles. In addition, it is shown that plasma membrane-enriched fractions can be distinguished from cellular endomembranes on the basis of protein and glycoprotein composition.     

Glycoprotein Synthesis in Plants: III. Interaction between UDP-N-Acetylglucosamine and GDP-Mannose as Substrates

This report presents evidence that enzymes present in crude extracts prepared from developing cotyledons of Phaseolus vulgaris can catalyze the transfer of radioactivity from UDP-N-[¹⁴C]acetylglucosamine into a chitobiosyl-lipid, lipid-oligosaccharide, and glycoprotein. Kinetic evidence supports the concept that the N-acetylglucosamine-containing lipids are precursors to the glycoprotein. Evidence is also presented which shows an interaction between GDP-mannose and UDP-N-acetylglucosamine when used as substrates for the synthesis of lipid-oligosaccharide and glycoprotein. Kinetic evidence, as well as isolation and characterization of the oligosaccharides released from lipid by mild acid hydrolyses, support the conclusion that mannose and N-acetylglucosamine are contained in the same oligosaccharide and that N-acetylglucosamine is present at the reducing end of the oligosaccharide. Ninety-eight per cent of the radioactivity which is incorporated from UDP-N-[¹⁴C]acetylglucosamine into the insoluble residue is solubilized by protease treatment. The glycopeptide released is quite similar in size and composition to the glycopeptide released by proteolytic digestion of vicilin, the major storage protein of Phaseolus vulgaris.     

Defects in meiotic recombination delay progression through pachytene in <Emphasis Type="Italic">Tex19.1</Emphasis><Superscript><Emphasis Type="Italic">−/−</Emphasis></Superscript> mouse spermatocytes

Recombination, synapsis, chromosome segregation and gene expression are co-ordinately regulated during meiosis to ensure successful execution of this specialised cell division. Studies with multiple mutant mouse lines have shown that mouse spermatocytes possess quality control checkpoints that eliminate cells with persistent defects in chromosome synapsis. In addition, studies on Trip13^mod/mod mice suggest that pachytene spermatocytes that successfully complete chromosome synapsis can undergo meiotic arrest in response to defects in recombination. Here, we present additional support for a meiotic recombination-dependent checkpoint using a different mutant mouse line, Tex19.1^?/?. The appearance of early recombination foci is delayed in Tex19.1^?/? spermatocytes during leptotene/zygotene, but some Tex19.1^?/? spermatocytes still successfully synapse their chromosomes and we show that these spermatocytes are enriched for early recombination foci. Furthermore, we show that patterns of axis elongation, chromatin modifications and histone H1t expression are also all co-ordinately skewed towards earlier substages of pachytene in these autosomally synapsed Tex19.1^?/? spermatocytes. We also show that this skew towards earlier pachytene substages occurs in the absence of elevated spermatocyte death in the population, that spermatocytes with features of early pachytene are present in late stage Tex19.1^?/? testis tubules and that the delay in histone H1t expression in response to loss of Tex19.1 does not occur in a Spo11 mutant background. Taken together, these data suggest that a recombination-dependent checkpoint may be able to modulate pachytene progression in mouse spermatocytes to accommodate some types of recombination defect.     

No-carrier-added (NCA) (±)-N-(3-[18F]fluoropropyl)-N-normetazocine-Synthesis and PET studies in a baboon

No-carrier-added (NCA) (±)-N-(3-[¹⁸F]Fluoropropyl)-N-normetazocine (2) was synthesized by N-alkylation of (±)-N-normetazocine (1) with NCA 1-[¹⁸F]fluoro-3-iodopropane in an overall radiochemical yield of 10% (EOB) with a mass of 3.5 nmol in a synthesis time of 90 min from end of bombardment (EOB). PET studies of 2 in a baboon did not indicate specificity for opiate receptor sites alone: The activity declined rapidly in the striatum the frontal cortex and the cerebellum. The baboon total arterial plasma radioactivity clearance was very rapid and the metabolism of compound 2 in plasma was also very rapid. These results suggest that compound 2 is not a suitable radioligand for imaging opiate receptors in the human brain by positron tomography.     

Biopterin

The active synthesis of [¹⁴C]7,8-dihydrobiopterin (BH₂) from intraventricularly administered U-[¹⁴C]GTP was demonstrated in rat brain. The identity of [¹⁴C]BH₂ isolated from brain was confirmed by mass fragmentography. Evidence is presented that [¹⁴C]BH₂ in brain was not synthesized in the peripheral organs. The rate of cerebral synthesis of [¹⁴C]BH₂ from [¹⁴C]GTP was maximal at 2 h; it was 0.53 nmol/g per h, which is consistent with the estimated turnover rate of cerebral BH₂ (0.43 nmol/g per h). Intraventricularly injected 2,4-diamino-6-hydroxypyrimidine (DAOPyr) and 6-thioguanosine were effective inhibitors of the synthesis. U-[¹⁴C]dGTP and 8-[¹⁴C]GTP, when given intraventricularly, did not yield [¹⁴C]BH₂. Simultaneous intraventricular injection of U-[¹⁴C]GTP and DAOPyr resulted in the accumulation of a compound with properties identical to a formamidopyrimidine derivative isolated from the nonenzymatic hydrolysis of GTP. The data from preliminary experiments demonstrated the synthesis of [¹⁴C]BH₂ from U-[¹⁴C]GTP incubated with 12,000g supernatants of rat brain homogenates.     

Radiotracer evidence implicating phosphoryl and phosphatidyl bases as intermediates in betaine synthesis by water-stressed barley leaves

In barley, glycine betaine is a metabolic end product accumulated by wilted leaves; betaine accumulation involves acceleration of de novo synthesis from serine, via ethanolamine, N-methylethanolamines, choline, and betaine aldehyde (Hanson, Scott 1980 Plant Physiol 66: 342-348). Because in animals and microorganisms the N-methylation of ethanolamine involves phosphatide intermediates, and because in barley, wilting markedly increases the rate of methylation of ethanolamine to choline, the labeling of phosphatides was followed after supplying [¹⁴C]ethanolamine to attached leaf blades of turgid and wilted barley plants. The kinetics of labeling of phosphatidylcholine and betaine showed that phosphatidylcholine became labeled 2.5-fold faster in wilted than in turgid leaves, and that after short incubations, phosphatidylcholine was always more heavily labeled than betaine. In pulse-chase experiments with wilted leaves, label from [¹⁴C]ethanolamine continued to accumulate in betaine as it was being lost from phosphatidylcholine. When [¹⁴C]monomethylethanolamine was supplied to wilted leaves, phosphatidylcholine was initially more heavily labeled than betaine. These results are qualitatively consistent with a precursor-to-product relationship between phosphatidylcholine and betaine.