Changes of Sertoli cell glycoproteins induced by removal of the associated germ cells

Sertoli cell glycoproteins were studied in culture where these cells were in contact with germ cells (Sertoli cell enriched cultures, SCEC) and in pure Sertoli cell cultures. Sertoli cell only cultures (SCOC) were prepared by a short treatment of SCEC with hypotonic solution or by culturing seminiferous epithelium fragments from prenatally irradiated rats. After metabolic labeling with [3H]fucose. [14C]N-acetylglucosamine or [3H]leucine, SCEC and SCOC particulate fractions (105 000 g pellet) were analyzed by one-dimensional slab gel electrophoresis and fluorography. The comparison of the electrophoretic patterns obtained, demonstrated that a glycoprotein of MW 48 000, undetectable in SCEC, was present in SCOC after labelling with both sugar precursors. The MW 48 000 glycoprotein was also present in the electrophoretic profile of particulate fraction from [3H]fucos-labelled Sertoli cell cultures from prenatally irradiated rat. Such difference was not observed after labelling with [3H]leucine; in this experimental condition a MW 48 000 band was present in the electrophoretic profile of polypeptides from SCEC as well from SCOC. The synthesis of this glycoprotein represented a specific and stable cell response, since it occurred only a few hours after germ cell removal, and it was still detectable 3 days later. FSH stimulation did not influence the synthesis of the MW 48 000 glycoprotein, whereas it increased the synthesis of high MW glycoproteins. The hypothesis is discussed that the appearance of a new glycoprotein when Sertoli cells have lost their contact with germ cells could represent a product of glycosylation of preexisting molecules and their possible location in the Sertoli cell membrane. The results presented here provide additional evidence that Sertoli cell functions may be dependent on the association with the germ cell.     

Protein Synthesis in Bromegrass (Bromus inermis Leyss) Cultured Cells during the Induction of Frost Tolerance by Abscisic Acid or Low Temperature

Bromus inermis Leyss cell cultures treated with 75 micromolar abscisic acid (ABA) at both 23 and 3°C developed more freezing resistance than cells cultured at 3°C. Protein synthesis in cells induced to become freezing tolerant by ABA and low temperature was monitored by [¹⁴C]leucine incorporation. Protein synthesis continued at 3°C, but net cell growth was stopped. Most of the major proteins detected at 23°C were synthesized at 3°C. However, some proteins were synthesized only at low temperatures, whereas others were inhibited. ABA showed similar effects on protein synthesis at both 23 and 3°C. Comparative electrophoretic analysis of [¹⁴C]leucine labeled protein detected the synthesis of 19, 21 and 47 kilodalton proteins in less than 8 hours after exposure to exogenous ABA. Proteins in the 20 kilodalton range were also synthesized at 3°C. In addition, a 31 kilodalton protein band showed increased expression in freezing resistant ABA treated cultures after 36 hours growth at both 3 and 23°C. Quantitative analysis of [¹⁴C]leucine labeled polypeptides in two-dimensional gels confirmed the increased expression of the 31 kilodalton protein. Two-dimensional analysis also resolved a 72 kilodalton protein enriched in ABA treated cultures and identified three proteins (24.5, 47, and 48 kilodaltons) induced by low temperature growth.     

Patterns of cell differentiation revealed by L-[3H]fucose incorporation in Dictyostelium

A study of the incorporation of l-[6-³H]fucose and d-[6-³H]glucosamine hydrochloride was conducted during the development of the cellular slime mold Dictyostelium discoideum 1-H. Autoradiographs revealed that pulse-labeled vegetative amoebae incorporated [³H]fucose intracytoplasmically within 15 min. The majority of the cells had randomly scattered silver grains but the remainder were distinguished by a dense localized labeling which suggested that oligo or polysaccharide synthesis was occurring. The localized pattern of labeling attributed to active synthesis declines at aggregation and early conus formation. As the pseudoplasmodium makes the developmental transition from the conus to the culmination stages the localized pattern of [³H]fucose labeling was restricted to the prespore cells while the prestalk cells were devoid of label. Prespore vacuoles were not present at the onset of this transition and consequently [³H]fucose incorporation occurred in the cells prior to their differentiation into prespore cells. In contrast to cells composing earlier stages, mature spores exhibited [³H]fucose-containing substances at the cell surface. At appropriate stages certain cells actively synthesize slime and stalk sheath which were labeled with either [³H]fucose or [³H]glucosamine.Prestalk isolates were obtained by transecting migrating slugs. [³H]Fucose was incorporated within 10 min among the basal cells of the isolate in the localized pattern typically found in prespore cells. The incorporation of [³H]fucose occurred prior to prespore differentiation as certain preparations were devoid of prespore vacuoles. Prespore isolates differentiate prestalk cells which have lost the capacity to incorporate [³H]fucose. This investigation suggests that cell contacts and interactions may affect the incorporation of [³H]fucose.     

Characterization of cyclic AMP-binding proteins in rat Sertoli cells using a photoaffinity ligand

Summary Protein-bound cyclic AMP (cAMP) levels in cultured rat Sertoli cells have been determined after exposure to follicle-stimulating hormone (FSH) and agents which elevate intracellular cAMP or mimic cAMP action. Changes in the content of protein-bound cAMP were correlated with changes in receptor availability determined by measuring [³H] cAMP binding. Using the photoaffinity analog of cAMP, 8-N₃ [³²P] cAMP, two major cAMP-binding proteins in Sertoli cell cytosol, with molecular weights of 47 000 and 53 000 daltons, were identified as regulatory subunits of type I and type II cAMP-dependent protein kinases, respectively. Densitometric analysis of autoradiograms demonstrated differential activation of the two isozymes in response to treatment with FSH and other agents. Results of this study demonstrate the value of measuring changes in protein-bound cAMP and the utility of the photoaffinity labeling technique in correlating hormone-dependent processes in which activation of cAMP-dependent protein kinase occurs.     

Rapidly metabolized glycoproteins in a neuroplastoma cell line

The metabolism of neuroblastoma cell glycoproteins was examined using l-[³H]fucose. Incubation of monolayer cultures with [³H]fucose resulted in a rapid uptake of the radioactive precursor and its incorporation into acid-insoluble macromolecules. Less than 3% of the [³H]fucose that was isolated from neuroblastoma cells by trichloroacetic acid precipitation was associated with glycolipids. The metabolism of fucosylated macromolecules was studied in cells which were labelled to a steady state, and then reincubated under conditions which limited reutilization of the radioactive precursor (40 mM unlabelled fucose). During reincubation of the cells, we observed a rapid metabolism (27% by 2 h)_ of the prelabelled macromolecules which stabilized within a cell generation time to give an overall rate of turnover of 9%. This rapid loss of radioactivity from the cells was not due to exocytosis since less than 4% of the [³H]-fucose was lost into the media as macromolecules during a 5 h reincubation period. The presence of 40 mM fucose in the media did not affect cell growth until after 24 h of incubation or cellular synthesis until after 15 h of incubation. When the metabolism of neuroblastoma cell glycoproteins was measured in the presence of 1.8 · 10^?4 M cycloheximide, there appeared to be a less rapid decrease in cell-associated specific activity, and an increased reutilization of [³H]fucose. Although the major proportion of the radioactivity remained as [³H]fucose, extensive incubation of neuroblastoma cells with this radioactive precursor led to increased amounts of tritium associated with other cellular components. However, a rapid rate of glycoprotein metabolism could also be demonstrated with cells incubated with [⁴C]fucose. This eliminated the possibility that the above results were restricted to the tritiated precursor and merely a reflection of hydrogen-tritium exchange.     

Mitochondrial protein synthesis in chinese hamster cells (line CHO) synchronized by isoleucine deprivation

Mitochondrial protein synthesis was measured in line CHO cells after phases of the cell cycle were synchronized by isoleucine deprivation or mitotic selection. Maximum incorporation of [³H] leucine into mitochondrial polypeptides occurred within 2 hours after isoleucine was added to initiate G₁ traverse. In cells synchronized in G₁ by mitotic selection, the rate of mitochondrial protein synthesis was fairly constant throughout the cell cycle. SDS-polyacrylamide gel electrophoretic profiles of labeled mitochondrial polypeptides were similar in cells synchronized by either isoleucine deprivation or mitotic selection. Obvious changes in the distribution of polypeptides were not detected during various phases of the cell cycle. The increased rate of incorporation of [³H] leucine into mitochondrial polypeptides after reversal of G₁-arrest may indicate that mitochondrial protein synthesis and possibly mitochondrial biogenesis are synchronized in CHO cells deprived of isoleucine.     

Cell-specific fatty acylation of proteins in cultured cells of neuronal and glial origin

Distinct sets of cellular proteins were labeled with [³H]myristic and [³H]palmitic acids in primary (rat neurons and astroglia) and continuous (murine N1E-115 neuroblastoma and rat C6 glioma) cell cultures derived from the nervous system. Both soluble and membrane proteins were modified by myristate in a hydroxylamine-stable (amide) linkage, while palmitoylated proteins were esterlinked and almost exclusively membrane bound. Chain elongation of both labeled fatty acids prior to acylation was observed, but no protein amide-liked [³H]myristate originating from [³H]palmitate was detected. Fatty acylation profiles differed considerably among most of the cell lines, except for rat astroglial and glioma cells in which myristoylated proteins appeared to be almost identical based on SDS gel electrophoresis. An unidentified 47 kDa myristoylated protein was labeled to a significantly greater extent in astroglial than in glioma cells; the expression of this protein could be related to transformation or development in cells of glial origin.     

AUTORADIOGRAPHIC STUDIES OF SYNTHESIS AND INTRACELLULAR MIGRATION OF GLYCOPROTEINS IN THE RAT ANTERIOR PITUITARY GLAND

The incorporation of [³H]fucose in the somatotrophic and gonadotrophic cells of the rat adenohypophysis has been studied by electron microscope autoradiography to determine the site of synthesis of glycoproteins and to follow the migration of newly synthesized glycoproteins. The pituitaries were fixed 5 min, 20 min, 1 h, and 4 h after the in vivo injection of [³H]fucose and autoradiographs analyzed quantitatively. At 5 min after [³H]fucose administration, 80–90% of the silver grains were localized over the Golgi apparatus in both somatotrophs and gonadotrophs. By 20 min, the Golgi apparatus was still labeled and some radioactivity appeared over granules. At 1 h and 4 h, silver grains were found predominantly over secretory granules. The kinetic analysis showed that in both protein-secreting cells (somatotrophs) and glycoprotein-secreting cells (gonadotrophs), the glycoproteins have their synthesis completed in the Golgi apparatus and migrate subsequently to the secretory granules. It is concluded from these in vivo studies that glycoproteins which are not hormones are utilized for the formation of the matrix and/or of the membrane of the secretory granules. The incorporation of [³H]fucose in gonadectomy cells (hyperstimulated gonadotrophs) was also studied in vitro after pulse labeling of pituitary fragments in medium containing [³H]fucose. The incorporation of [³H]fucose was localized in both the rough endoplasmic reticulum (ER) and the Golgi apparatus. Later, the radioactivity over granules increased while that over the Golgi apparatus decreased. The concentration of silver grains over the dilated cisternae of the rough ER was not found to be modified at the longest time intervals studied.     

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.     

KINETICS OF ENTRY OF PROTEINS INTO THE MYELIN MEMBRANE1

Brain slices were prepared from 17-day old rats, and incubated with [³H]glycine or [³H]-leucine to label proteins. Myelin was isolated from the slices, and the proteins were separated by discontinuous gel electrophoresis in buffers containing sodium dodecyl sulfate. Radioactive basic and Wolfgram proteins appeared in myelin at similar initial rates, and their entry was nearly linear between 15 and 120 min with no detectable lag. Radioactive proteolipid protein appeared in myelin at one-fourth the rate of the basic and Wolfgram proteins between 0 and 30 min, then entered at a rate comparable to the other proteins between 45 and 120 min. When cycloheximide (0.2 mM) or puromycin (1.0 mM) was added, appearance of newly labeled basic and Wolfgram proteins in myelin stopped while proteolipid protein continued to appear in myelin at a normal rate for at least 30 min. Chase experiments with unlabeled glycine had similar effects. These results indicate the existence of a previously synthesized precursor pool of proteolipid protein with a 30-min interval between synthesis of proteolipid protein and its appearance in myelin. Incorporation of [³H]fucose into glycoprotein of the myelin sheath was studied, as was inhibition of incorporation of radioactivity by the use of either cycloheximide, or dilution with unlabeled fucose. The results indicated fucosylation of a sizable pool of presynthesized protein and a delay of 30 min between fucosylation of these polypeptides and their subsequent appearance in myelin as glycoproteins.     

Autoradiographic labeling of spinal cord neurons with high affinity choline uptake in cell culture

Embryonic chick spinal cord neurons grown in dissociated cell culture have a high affinity uptake mechanism for choline. We find that, in addition to acetylcholine synthesis, the accumulated choline is used for the synthesis of metabolites such as lipids that are retained in part by conventional fixation techniques. As a result autoradiographic methods can be used to identify the cells that have the uptake mechanism in spinal cord cultures. About 60% of the neurons are labeled by [³H]choline uptake in cultures prepared with spinal cord cells from 4-day-old embryos, and about 40% are labeled in cultures prepared with cord cells from 7-day-old embryos. Neurons that innervate skeletal myotubes in spinal cord-myotube cultures are consistently labeled by [³H]choline uptake. Neurons unlabeled by the procedure are viable: they exclude the dye trypan blue and accumulate ¹⁴C-amino acids for protein synthesis. Most of the neurons unlabeled by [³H]choline uptake can instead be labeled by uptake of γ-[³H]aminobutyric acid, and vice versa. These results suggest that high affinity choline uptake can be used to label cholinergic neurons in cell culture, and that at least some populations of noncholinergic neurons are not labeled by the procedure. It cannot yet be concluded, however, that all labeled neurons are cholinergic since more labeled neurons are obtained per cord than would be expected from the number of neurons making up identified cholinergic populations in vivo. A three- to fourfold increase in the amount of high affinity choline uptake is observed between Days 3 and 15 in culture for spinal cord cells obtained from 4-day-old embryos. The number of [³H]choline-labeled neurons in such cultures decreases slightly during the same period, suggesting that the increase in uptake reflects neuronal growth or development rather than an increase in population size. Both the magnitude of the uptake and the number of [³H]choline-labeled neurons are the same for spinal cord cells grown with and without skeletal myotubes.     

Acetylcholine synthesis by chick spinal cord neurons in dissociated cell culture

Acetylcholine (ACh) synthesis was examined in cultures of chick spinal cord cells to follow the development of the cholinergic neurons. The cells, prepared from 4-day-old embryonic chick spinal cords, were grown either alone in dissociated cell cultures (SC cultures) or with chick myotubes (SC-M cultures). ACh synthesis was measured by incubating the cultures in [³Hcholine and using high-voltage paper electrophoresis to quantitate the amount of [³H]ACh present in cell extracts prepared from the labeled cultures. The amount of [³H]ACh synthesized in SC-M cultures was strictly proportional to the number of spinal cord cells used to prepare the cultures, and was linear with the time of incubation in [³H]choline for periods up to 1 hr. Maximal rates of synthesis were observed with [³H]choline concentrations in excess of 100 μM. Such rates for 1-week-old SC-M cultures were approximately 10–20 pmoles of [³H]ACh/hr/10⁵ spinal cord cells. Studies on the stability of the intracellular [³H]ACh revealed the presence of a major pool with a half-time of 20–30 min. A second, small pool decayed more rapidly. No detectable [³H]ACh was spontaneously released from the cells, suggesting that most of the decay represented intracellular degradation. Development of cholinergic neurons as monitored by [³H]ACh synthesis continued over a 2-week period in SC-M cultures and paralleled general cell growth. When examined at 1 week, SC-M cultures had about a 50% greater capacity for [³H]ACh synthesis and 60% more choline acetyltransferase activity than did SC cultures. No difference was observed in the stability of the [³H]ACh formed for the two types of cultures at 1 week, and no further difference was observed in the rates of [³H]ACh synthesis at 2 weeks. Growth of SC cultures in medium containing different amounts of chick embryo extract (2–10%) or in medium with fetal calf serum (10%) instead of extract produced only small differences in the measured rates of [³H]ACh synthesis. Thus chick spinal cord cells can undergo some of the early stages of cholinergic development in cell culture without sustained contact with skeletal myotubes, one of the normal postsynaptic target cells for the cholinergic neuron population. No absolute requirement for muscle factors was revealed under these conditions, although such factors may have been provided by other cell types in the spinal cord population or may have been present in other additions to the culture medium.     

The removal of cell surface material by enzymes used to dissociate mammary-gland cells

Summary Treatment of mouse mammary epithelial cells (MMEC) with various enzymes used for dispersing and transferring cells results in extensive digestion of materials on the cell surfaces. MMEC biosynthetially labeled with [³H]fucose, [¹⁴C]fucose and [³H]amino acids or with¹²⁵I by the lactoperoxidase method were exposed to either collagenase plus hyaluronidase, followed by pronase, or to trypsin in concentrations and conditions currently used for cell dispersion. Whereas the latter enzyme preparation solubilized 76% of the trichloroacetic acid precipitable radioactive fucose and 96% of the protein-bound¹²⁵I, collagenase plus hyaluronidase treatment released lesser amounts of each label. Subsequent treatment of the cells with pronase removed additional surface-labeled materials, but the total amounts released were still less than when the trypsin preparation alone was employed. Released cell surface materials were analyzed by gel chromatography. Some of the peaks obtained also were examined by polyacrylamide gel electrophoresis. The labeled materials that remained attached to the MMEC after enzymatic treatment were investigated by these two methods as well. We could show that collagenase plus hyaluronidase solubilized three main glycoprotein components from the cell surface. In addition, we could show that the extensive cell surface damage caused by these two enzyme preparations was due to the high proteolytic activity present in these preparations as judged by their ability to hydrolyze rabbit gamma globulin labeled with¹²⁵I. Even though their membranes were extensively damaged by the enzyme treatments, the dispersed cells could be cultured successfully in vitro and could incorporated fucose into their surfaces in a manner similar to that by intact tissue. Through the use of gel-filtration (cochromatography of [¹⁴C]fucose and [³H]fucose cell surface materials), we could demonstrate the identity of cell surface glycoproteins synthesized by cultured cells and by intact tissue. This work was supported by Grant Nos. CA 11736 and CA 19455 from the National Cancer Institute, and Biomedical Research Support Grant No. RR05467 from the National Institutes of Health, DHEW.     

Growth factor requirements for DNA synthesis by Leydig cells from the immature rat.

Puberty in the male is dependent upon the elevated production of testosterone by the Leydig cells. LH affects this increase in testosterone output by increasing the total number of Leydig cells in the testis and by stimulating the steroidogenic pathway in these cells. Since Leydig cell proliferation is a prerequisite for the onset of puberty, we have examined the ability of LH and growth factors known to be present in the testis to promote DNA synthesis. Leydig cells were isolated from 21-day-old rats, cultured in serum-free medium for 48 h to become quiescent, and then treated with LH and growth factors for 18 h. [3H]Thymidine incorporation into DNA was assessed over the subsequent 4-h incubation period. Cells in control cultures incorporated low levels of [3H]thymidine into DNA and were stimulated after treatment with LH (100 ng/ml). Insulin/insulin-like growth factor-1 (IGF-1) and transforming growth factor-alpha (TGF-alpha), previously localized in Leydig cells by immunohistochemistry, also stimulated [2H]thymidine incorporation into DNA. The responses of the Leydig cells to maximum levels of insulin and TGF-alpha were dependent on the cell density. Insulin and TGF-alpha alone and in combination increased the number of cells labeled with [3H]thymidine, as assessed by autoradiography. TGF-beta, known to be secreted by Sertoli cells, also stimulated DNA synthesis under basal conditions, but the maximum response was significantly lower than that achieved in the presence of TGF-alpha.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of transmembrane calcium influx induces decrease in proteoglycan synthesis in immature rat sertoli cells

Beyond increased cAMP synthesis, calcium influx has been involved in signal transduction triggered by the gonadotropin follicle‐stimulating hormone (FSH), the main regulator of Sertoli cells functions. In order to delineate a possible involvement of calcium in the regulation of proteoglycan synthesis, we have examined the effect of low‐voltage‐activated calcium channel blocker verapamil on both [³⁵S]‐sulfate and [³H]‐glucosamine incorporation into proteoglycan molecules neosynthesized by cultured Sertoli cells from 20‐day‐old rats. Verapamil induced a dose‐ and time‐dependent decrease in labeling of both secreted and cell‐associated proteoglycans, as determined by quantitative solid‐phase assay. This effect was mimicked by the addition of the calcium chelator EGTA, suggesting that verapamil effect resulted from the inhibition of transmembrane calcium influx. The decrease in apparent proteoglycan synthesis appeared to be attributable primarily to a lowering of the glycanation process, as shown by experiments using an exogenous acceptor for glycosaminoglycan synthesis. Moreover, verapamil induced a decrease in relative proportion of heparan sulfate proteoglycans in the cell layer. Pulse‐chase kinetics demonstrated that verapamil also altered proteoglycan catabolism, leading to glycosaminoglycan retention in the cell layer and inhibiting the proteoglycan desulfation step. We conclude that intracellular calcium is essential to maintain Sertoli cell proteoglycan expression and could thus be involved in the repression of Sertoli cell cAMP‐dependent syntheses such as estradiol production. J. Cell. Biochem. 76:322–331, 1999. © 1999 Wiley‐Liss, Inc.     

In vitro synthesis and secretion of glycoprotein by human mammary tissue

Summary Organ cultures of human surgical specimens can be used to investigate glycoprotein production in vitro under conditions in which three-dimensional tissue structures and cell-cell interactions resemble those present in vivo. In this report, an organ-culture system is used to investigate the synthesis, transport and release of glycoprotein by normal and benign hyperplastic human mammary epithelium. Autoradiography of explants pulse-labeled with individual glycoprotein precursors ([³H]glucosamine, [³H]fucose, [³H]acetylmanosamine) and maintained in organ culture for intervals up to 72hr revealed that glycoprotein is synthesized and then secreted by mammary epithelium. Incorporation of each isotope took place in the Golgi apparatus. Most of the newly synthesized glycoprotein, labeled with each of the three precursors, then was transported to apical cell surfaces and secreted into gland lumina. Observations were indistinguishable in normal and benign hyperplastic glands. Thus nonlactating human mammary epithelium exhibits a glycoprotein secretory activity. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis of [³H]glucosamine-labeled macromolecules released into the medium showed a group of glycoproteins with a molecular weight of 48,000±6,000 daltons plus high-molecular-weight glycosylated components at the top of gels. The nature of gp48 is not known, but similar molecular-weight glycoproteins also are released by surgical specimens of human mammary cancer maintained in organ culture. Z. A. T. received support from NCI Grant No. CA-14089.     

Sertoli cell-secreted protein(s) stimulates DNA synthesis in purified rat Leydig cells in vitro

We have examined the effects of Sertoli cell-secreted proteins (SCSP) on [3H]thymidine incorporation by purified preparations (greater than 96%) of rat Leydig cells to determine whether Sertoli cells influence DNA synthesis in these cells in vitro. Incubation of Leydig cells isolated from testes of rats of ages 16 to 90 days with SCSP (Mr greater than 10,000) induced significant dose-, time- and age-related increases in [3H]thymidine incorporation by the cells. A dose-response curve to SCSP showed that as little as 0.2 micrograms SCSP/ml consistently induced a small but significant increase (31% and 10% above control; P less than 0.001) in [3H]thymidine incorporation by Leydig cells isolated from immature (26 days) and mature (70 days) rats, respectively. The maximum response (230% and 48% above control) was obtained with a concentration of 18 micrograms SCSP/ml in cells isolated from immature and mature rats, respectively. Hydroxyurea, a specific inhibitor of replicative DNA synthesis, significantly (P less than 0.001) inhibited both basal and SCSP-induced [3H]thymidine incorporation in Leydig cells from immature and adult rats without affecting the viability of the cells. Incubation of immature rat Leydig cells in SCSP for 48 h also stimulated a 3-fold increase in cell number. The component of the crude SCSP which stimulated Leydig cell [3H]thymidine incorporation is trypsin-sensitive, heat-stable, and adsorbs to a heparin-agarose affinity column but not to concanavalin A-Sepharose. The secretion of this factor(s) by Sertoli cells is stimulated independently by FSH and testosterone. These results demonstrate for the first time that cultured Sertoli cells secrete a protein(s) which, in vitro, stimulates rat Leydig cell replicative DNA synthesis.     

Hemicastration causes and testosterone prevents enhanced uptake of [3H] thymidine by Sertoli cells in testes of immature rats

Rat pups were hemicastrated and uptake of [3H] thymidine by Sertoli cells in the remaining testis was compared to that in testes of sham-operated pups at intervals of from 8 h to 21 days after surgery. Labeled thymidine was administered subcutaneously 2 h before sacrifice. Testes were processed for light microscope autoradiography and the percent of Sertoli cell nuclei that had incorporated [3H] thymidine was determined by scoring nuclei in tissue sections as labeled or unlabeled. The percentage of cells labeled was increased in hemicastrates over intact controls by 8 h after surgery and testicular hypertrophy became apparent in hemicastrates by the following day. Labeling of Sertoli cells in hemicastrates remained elevated for 4 days and then returned to normal. When plasma levels of gonadotropins were measured in both groups 4 days after surgery, follicle-stimulating hormone (FSH) was found to be more than twice normal in hemicastrates while luteinizing hormone (LH) was unchanged. The effect of testosterone on the response of Sertoli cells to hemicastration was also examined. In hemicastrates, 2 days of androgen therapy depressed, and an additional 2 days abolished, the proliferative response of the Sertoli cells. Our findings suggest that increased proliferation of Sertoli cells within the remaining testis is involved in the enlargement of the testis that follows hemicastration. They also imply that prevention of compensatory hypertrophy by testosterone involves interference with this response of Sertoli cells in some way. Finally, our data implicate FSH in control of Sertoli cell proliferation in vivo in immature rats.     

Identification of exposed surface glycoproteins in undifferentiated and differentiated mouse N-18 neuroblastoma cells

A simple method is described that permitted rapid isolation of plasma membranes from mouse N-18 neuroblastoma cells. The purified plasma membranes gave a 10-fold increase in the specific activity of incorporated [³H]fucose over that of the cell homogenate. The specific activities of two other membrane markers, 5′-nucleotidase and alkaline phosphatase, increased 11-fold and 15-fold, respectively. Metabolic labeling with [³H]fucose identified a major fucosyl glycoprotein with apparent molecular weight of 92 000. Three surface labeling methods together with SDS-polyacrylamide gel electrophoresis and fluorography were used to characterize and compare the surface glycoproteins of undifferentiated and differentiated N-18 cells. The galactose oxidase/NaB³H₄ method labeled two major galactoproteins (M_r = 52 000, 42 000) in both undifferentiated and differentiated cells. The neuraminidase/galactose oxidase/NaB³H₄ method revealed many sialylgalactoproteins. Among them, the 220-kdalton, 150-kdalton and 130-kdalton bands were at least 100% more prominently labeled in the differentiated calls whereas the 76-kdalton and 72-kdalton bands were less prominently labeled in the differentiated cells when compared to their undifferentiated counterparts. The prominently iodinated protein bands in the undifferentiated cells had apparent molecular weights of 130 000, 92 000, 76 000 and 72 000 as compared to 150-, 130-, 92- and 76-kdalton bands in the differentiated cells. The labeling data obtained will enable us to further study the changes of these identified surface glycoproteins, both quantitatively and topologically, during the differentiation of neuroblastoma cells.