S phase mouse embryo fibroblasts secrete varying amounts of a 45,000 dalton protein

Synchronized cultures of mouse embryo fibroblasts upon release from hydroxyurea (HOU) arrest, secreted several proteins of which a polypeptide of molecular weight 45,000 (45K) was barely visible in the conditioned medium of cells that synthesized DNA at peak levels. The quantity of the 45K protein was higher in the medium of HOU arrested cells and the level got progressively reduced as the cells entered into the DNA synthetic phase. Conditioned media containing the 45K protein inhibit DNA synthesis when added to synchronized cultures. These results suggest that the 45K secreted protein may be involved in the autocrine regulation of turning-off of DNA synthesis at the end of S phase.     

Intracellular and secreted proteins of density-inhibited, serum-arrested and proliferating mouse embryo cells

Short-term labelling of secondary cultures of mouse embryo fibroblasts with [14-C] aminoacids enabled the identification and quantitation of proteins specific for quiescent and proliferative stages. Intracellular and secreted proteins of cells maintained under different growth conditions were resolved in high resolution SDS-polyacrylamide gradient gels. Two proteins, identified as fibronectin and procollagens and a 34 000 D polypeptide were found to be secreted by all three types (density-arrested, serum arrested and proliferating) of cells. Both types of arrested cells exclusively secreted a 375 000 D protein while the proliferating cells specifically secreted a 48 000 D polypeptide. During progression of cells from quiescence to proliferation, two intracellular proteins showed major variations. A 205 000 D intracellular protein was found to be synthesized in higher amounts by proliferating cells than by arrested cells. Another protein, identified as actin, showed a marked increase in synthesis following the release of cells from serum arrest. The arrested cells showed reduced levels of actin synthesis and the turning-off process in the synthesis of actin was found to be relatively slow as the cells entered into quiescence.     

Effects of serum,cycloheximide and actinomycin D on protein secretion by quiescent mouse embryo fibroblasts

Quiescent secondary cultures of Swiss mouse embryo fibroblasts secrete several proteins in response to the addition of 20% fetal calf serum (FCS). Of these proteins, a polypeptide of molecular weigth (Mr) 48 000 (48 K) was identified in the medium within an hour of mitogenic stimuli. In the next hour an additional protein of Mr 26000 (26 K) appeared in the medium. These two proteins were absent in the conditioned medium of quiescent cells. A third protein of molecular weight 45,000 (45 K) was found in small quantities in the conditioned medium of quiescent cells but a 2–3 fold increase in the level of this protein was observed in the medium of stimulated cells. The level of the serum-induced 45 K protein was much higher in the medium of cells that were treated with cycloheximide (CH) and FCS than that found in the medium of cells treated with FCS alone. A 40000 dalton protein was found to be a quiescence specific protein which was observed in large amounts in the medium of quiescent cells; the level of this protein gradually declined in the conditioned medium as the cells entered into the proliferative phase. Actinomycin D specifically inhibited the level of the 45 K secreted protein and a 29 K intracellular protein when added along with CH. In contrast to the inhibition of the synthesis of mitogen induced proteins, actinomycin D super-induced the intracellular and extracellular levels of the matrix proteins fibronectin and procollagens.     

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.     

Effect of cycloheximide and growth factors on gene expression in quiescent mouse embryo fibroblasts

Gene expression in quiescent mouse embryo fibroblasts was studied by labelling the cells with [14C] amino acids and analysing the proteins by electrophoresis in polyacrylamide gradient gels containing sodium dodecyl sulfate. Cycloheximide (CH) pretreatment of the cells was found to induce the synthesis of four proteins of molecular weights 72,000, 68,000, 42,000, and 29,000. These proteins were induced by CH both in serum-arrested and serum-stimulated cells. Addition of platelet-derived growth factor to serum-arrested quiescent cells also induced the synthesis of these proteins. Addition of CH and fetal calf serum (20%) to quiescent cells resulted in a dramatic increase in the synthesis of actin and another protein of molecular weight 29,000. The 29,000-dalton protein was present in higher quantities in the nuclei of induced cells. This protein appeared to be an early protein whose synthesis was transiently induced in quiescent cells within 3 hours of addition of 20% fetal calf serum (FCS). The synthesis of this protein was virtually turned off at 5-6 hours after the addition of serum. However, if CH or a combination of CH and FCS was present, a continuous synthesis of the 29 K protein was observed.     

Opposite and selective effects of epidermal growth factor and human platelet transforming growth factor-beta on the production of secreted proteins by murine 3T3 cells and human fibroblasts

Growth regulators such as epidermal growth factor (EGF) and type beta transforming growth factor (TGF-beta) regulate the synthesis and secretion of certain proteins by cells in culture. The secretion pattern of each cell line and the effect of growth regulators on the secretion pattern are unique. EGF increased the secreted and intracellular levels of mitogen-regulated protein (MRP) and major excreted protein (MEP) by Swiss 3T3 cells. MRP is related by sequence to prolactin. MEP is a thiol protease located intracellularly in the lysosomes. EGF also selectively induced a 52,000-dalton mitogen-induced protein (MIP 52) secreted by human fibroblasts. Two types of TGF-betas were tested for their effects on the expression of secreted proteins in mouse and human fibroblasts: TGF-beta from human platelets and a growth inhibitor (GI/TGF-beta) secreted by BSC-1 cells. Each selectively decreased the levels of the two secreted proteins induced by growth factors in mouse embryo 3T3 cells and one secreted protein induced by growth factors in human fibroblasts. Platelet TGF-beta and GI/TGF-beta also induced one 48,000-dalton protein secreted by human fibroblasts. Synthesis of DNA and the incorporation of [35S]methionine into total protein in Swiss 3T3 cells were not affected by platelet TGF-beta or GI/TGF-beta. Thus, the inhibitory effect of platelet TGF-beta on the synthesis and secretion of these three proteins is due to a specific effect of platelet TGF-beta on the regulation of MRP and MEP that does not interfere with the ability of EGF to stimulate DNA or protein synthesis.     

Cell cycle dependent rate of labelling of cellular and secreted glycosaminoglycans in mouse embryonic fibroblasts

Cultures of embryonic fibroblasts from Balb/c or CBA/J mice were given 12-h pulses of ¹⁴C-galactose, or were double-labelled with ³H-galactose and ³⁵H-sulfate. The time course of the rates of labelling of glycosaminoglycans – galactose label was found in the uronic acid moiety – was studied in synchronously and asynchronously growing cultures. Partial synchrony was achieved by trypsinising quiescent, confluent cells and subsequent transfer of cells to new cultures with fresh medium. Synchrony was monitored by measurement of thymidine uptake in parallel cultures. The distribution of label in the hyaluronic acid, chondroitin sulfate, and heparan sulfate fractions from cells and culture media was determined at each time point. Peaks of DNA synthesis were accompanied by or followed 12 h later by a maximal rate of labelling with galactose of secreted glycosaminoglycans, and – with the exception of hyaluronic acid – also of cellular glycosaminoglycans. The rate of labelling with galactose of glycosphingolipids in parallel cultures followed a different time course. In double-label experiments the rates of labelling of glycosaminoglycan sulfates with ³H-galactose and ³⁵S-sulfate did not go parallel. In older, quiescent cultures the labelling rate with galactose decreased while the sulfation rate increased. It is discussed that the labelling rate with galactose is indicative of the biosynthetic rate of the glycosaminoglycans. The conclusion is reached that glycosaminoglycans are preferentially synthesized and secreted after the S phase of the cell cycle.     

Production of proteoglycans by human lung fibroblasts (IMR-90) maintained in a low concentration of serum.

Maintenance of fibroblasts in 0.5% serum results in viable but non-proliferative cells that may be analogous to fibroblasts in vivo. The synthesis of proteoglycans by human embryo lung fibroblasts in Eagle's minimal essential medium with 0.5% newborn-bovine serum or with 10% serum has been compared. A similar amount of [35S]sulphate-labelled glycosaminoglycan per cell was secreted by fibroblasts in 10% or 0.5% serum. 35SO42-incorporation into sulphated glycosaminoglycans was enhanced in 0.5% serum when expressed per mg of cell protein, but [3H]glucosamine incorporation was decreased. The charge density of these glycosaminoglycans was not changed as determined by ion-exchange chromatography. It was concluded that decreased protein/ cell resulted in an apparent increase in 35S-labelled glycosaminoglycan synthesis/mg of cell protein, whereas decreased uptake of [3H]glucosamine resulted in a decrease in their glucosamine labelling. The proteoglycans secreted by fibroblasts in 0.5% serum were similar in glycosaminoglycan composition, chain length and buoyant density to the dermatan sulphate proteoglycan, which is the major secreted component of cells in 10% serum. Larger heparan sulphate and chondroitin sulphate proteoglycans, which comprise about 40% of the total secreted proteoglycans of cultures in 10% serum, were greatly diminished in the medium of cultures in 0.5% serum. The proteoglycan profile of medium from density-inhibited cultures in 10% serum resembles that of proliferating cultures, indicating that lack of proliferation was not responsible for the alteration. The dermatan sulphate proteoglycan, participating in extracellular matrix structure, may be the primary tissue product of lung fibroblasts in vivo.     

MUCOPOLYSACCHARIDES SYNTHESIZED BY CULTURED GLIAL CELLS DERIVED FROM A PATIENT WITH SANFILIPPO A SYNDROME

—Glial cells were cultured from brain tissue obtained at autopsy of a patient with Sanfilippo A syndrome. Mucopolysaccharides were labeled by culturing the cells in the presence of [³⁵S]sulfate. After proteolysis, intracellular and media-elaborated mucopolysaccharides were fractionated by Dowex 1 chromatography. One fraction, identified as heparan sulfate by chromatographic, electrophoretic, and enzyme susceptibility properties, accumulated in Sanfilippo glial cells in greater amounts than in controls. Heparan sulfate was also excreted into the culture media by both Sanfilippo and normal cultures, and it constituted a major fraction of the sulfated mucopolysaccharides synthesized by glial cells. Sanfilippo and normal fibroblasts were also included in these studies for comparative purposes. Sanfilippo fibroblasts accumulated significantly increased amounts of heparan sulfate as compared to normal fibroblasts. Heparan sulfate was excreted into the culture media by Sanfilippo and normal fibroblasts in equivalent amounts, but in contrast to glial cells, it was only a minor component of the sulfated mucopolysaccharides produced. Cultured glial cells should provide a useful system for investigating the role of heparan sulfate in glial cell function.     

A sulfated glycoprotein synthesized by Sertoli cells and by epididymal cells is a component of the sperm membrane

We report here the purification, partial characterization and immunofluorescent localization of a dimeric acidic glycoprotein (DAG-protein) secreted by cultures of Sertoli cells of rat testes. Partially purified protein was obtained after chromatography over Sepharose 4B under conditions which favored a soluble, nonaggregated form of the protein. Rechromatography over the same column under reducing conditions yielded very pure monomers of 41,000 daltons and 29,000 daltons. Antibodies were prepared against the mixed monomers and used to immunoprecipitate proteins in spent medium from cultures incubated with [35S] methionine, 35SO4 = or tunicamycin. DAG-protein and another protein (Band 4, 70,000 daltons) were coprecipitated by the antiserum and all contained 35SO4 = in their structures. It was shown by Western blotting that the antiserum cross-reacted very weakly with Band 4 protein. The DAG-protein polypeptides secreted in the presence of tunicamycin were assumed to lack N-glycosylation and exhibited apparent molecular weights of 27,000 and 21,000 daltons. Immunoprecipitations of media from organ cultures of testis and epididymis yielded DAG-protein of slightly lower molecular weight than the protein secreted in Sertoli cell cultures. Indirect immunofluorescence of DAG-protein in paraffin sections of testis and epididymis revealed that the protein was concentrated in the cytoplasm of Sertoli cells, on the stereocilia of epididymal principal cells, in the cytoplasm of epididymal halo cells, and was associated with late spermatids and mature sperm. Sperm were specifically labeled on the acrosome, at the neck, and on the endpiece of the tail. No enzymatic or structural function has been ascribed to DAG-protein as yet, but the protein must play a pivotal role in spermatogenesis because it is secreted by both the testis and epididymis and becomes an integral component of sperm.     

Heparin modulates the secretion of a major excreted protein-like molecule by vascular smooth muscle cells

Previous work from our laboratory has shown that heparin specifically induces the release of a pair of proteins of approximately 35,000 and 37,000 Da into the culture medium of vascular smooth muscle cells (SMC). In this report, we demonstrate that the previously identified 37,000-Da smooth muscle protein is composed of two protein species with very similar molecular weights based on migration patterns in SDS-polyacrylamide gels. The larger molecular weight species in this doublet has a similar molecular weight and shares antigenic determinants with major excreted protein (MEP), a lysosomal proteinase previously shown to be secreted by normal and transformed fibroblasts and epidermal cells. Antisera to MEP precipitated the higher molecular weight band from the doublet; preimmune serum was not reactive with the smooth muscle protein. Exposure of smooth muscle cells to heparin resulted in decreased amounts of immunoprecipitable protein released into the medium. Thus, it now appears that three proteins in the 35,000-38,000 molecular weight range are modulated by heparin, and that the largest of the heparin-modulated vascular SMC proteins has a similar molecular weight and is immunologically related to MEP. The release of MEP-like protein from SMC is decreased by heparin, while the remaining two heparin-modulated proteins are increased in the presence of heparin.     

Rous sarcoma virus-induced changes in the pattern of phosphorylation of non-histone nuclear proteins

We here studied the protein kinase activity and in vitro phosphorylable sites of non-histone nuclear proteins, 0.4 M NaCl extracts (mostly chromosomal proteins) from chick embryo fibroblasts (CEF), infected or not with a Schmidt Ruppin strain subgroup A of Rous sarcoma virus (RSV).The infection and transformation of chick fibroblasts by RSV induced an increase in kinase activity and endogenous phosphorylation of non-histone chromosomal (NHC) proteins. The stimulation, by a change of medium, of the proliferation of dense cultures of normal chick fibroblasts also induced an increase in the kinase activity and endogenous phosphorylation of NHC proteins.However, two-dimensional gel electrophoresis of the ³²P-phosphorylated proteins showed that stimulation due to a change of medium and that due to the expression of transformation were very different. The stimulation by a change of medium increased to a greater or lesser extent the phosphorylation of the different NHC proteins, with no fundamental variations in the pattern of protein phosphorylation. In contrast, RSV infection induced significant changes in the pattern of protein phosphorylation. One of the most striking feature was the large increase of amount and phosphorylation of high molecular weight (HMW) proteins in particular of phosphoproteins having an evaluated molecular weight (MW) of 78 K and 82 K and pI>8.2.The percent of phosphotyrosine residues in NHC proteins was clearly increased when the proteins were extracted from transformed cells instead of normal cells. But the alkaline treatment of two-dimensional gel electrophoresis indicated that the 80 K phosphoproteins did not contain phosphotyrosine residues, and thus cannot be considered as substrates for pp60^src kinase.     

PROTEIN PROFILES OF RAT EMBRYO CEREBRAL CELLS DURING DIFFERENTIATION IN CULTURE

The protein composition of the particulate fraction of dissociated foetal rat cerebral cells during maturation in culture was investigated. SDS polyacrylamide gel electrophoresis showed a general decrease in the histonal components and significant changes in composition of a group of polypeptides with molecular weights ranging from 42 to 60 K. Two of these polypeptides coelectrophoresed with tubulin and actin whereas a 48 K polypeptide comigrated with the major component of the Wolfgram myelin protein. Its relative quantity appeared to approach a plateau after 8 days in culture. The myelin basic and proteolipid proteins were below detection levels in cultured cells at any time point investigated. A group of polypeptides with estimated molecular weights of 47, 51 and 52 K possibly representing synaptic proteins increased with time in culture. The appearance of a prominent band (60 K) in brain cultures and in other cells of divergent origin was demonstrated. This protein may be related to the process of cell adaptation to culture conditions. The developmental changes in the protein profile are discussed in the context of an in vitro myelinogenesis and synaptogenesis and compared with whole brain particulate and subcellular fractions.     

Relation between the regulation of DNA synthesis and the production of two secreted glycoproteins by 12-O-tetradecanoylphorbol-13-acetate in 3T3 cells and in phorbol ester nonresponsive 3T3 variants

12-O-tetradecanoylphorbol-13-acetate (TPA), a potent tumor promoter, acts similarly to growth factors by selectively increasing the rate of production of the secreted proteins, mitogen regulated protein (MRP) and major excreted protein (MEP) by murine 3T3 cells. MRP, a 34 kilodalton (kDa) glycoprotein, is a member of the prolactin-growth hormone family of proteins. MEP, a 39 kDa glycoprotein, is a lysosomal thiol protease that is also secreted. The aim of our investigation was to determine the relation between increases in MRP and MEP production and the initiation of DNA synthesis in response to mitogens. The TNR-9 cell line is a variant of 3T3 cells in which growth factors, but not TPA and teleocidin, stimulate DNA synthesis and cell division. Using [35S]methionine to metabolically label proteins and SDS polyacrylamide gel electrophoresis to resolve the proteins, we found that growing cultures of 3T3 and TNR-9 cells responded equally well to TPA and teleocidin with increased rates of production of MRP and MEP. By contrast, the responses of quiescent TNR-9 cells to these tumor promoters in the increased production of MRP and MEP was greatly diminished compared with quiescent 3T3 cells. The changes in production of MRP in response to tumor promoters in quiescent and growing cells paralleled similar changes in the level of MRP mRNA. In summary, the ability to TPA and teleocidin to increase the rate of production of MRP and MEP correlated with the ability of these tumor promoters to stimulate DNA synthesis in quiescent 3T3 and TNR-9 cells. Evidently the biochemical condition that distinguishes TNR-9 from 3T3 cells and that limits the ability of tumor promoters to stimulate the production of MEP and MRP, and perhaps also DNA synthesis in TNR-9 cells occurs only when the cells are quiescent.     

Malignant transformation and tumor promoter treatment increase levels of a transcript for a secreted glycoprotein.

The major excreted protein of transformed mouse fibroblasts, a secreted, mannose 6-phosphate-containing glycoprotein, is induced in nontransformed cells by a variety of transforming agents, by phorbol esters, and by platelet-derived growth factor. We report here the molecular cloning of the cDNA encoding this protein and demonstrate that its induction is a consequence of enhanced mRNA levels for major excreted protein in both tetradecanoyl phorbol acetate-treated 3T3 cells and 3T3 cells transformed by a variety of retroviruses or retroviral oncogenes. These results indicate that tumor promoters and retroviral transformation might share a common pathway of action in cultured cells and that major excreted protein is a molecular marker for the growth response of cells to these agents.     

Repression of quiescence-specific polypeptides in chicken heart mesenchymal cells transformed by Rous sarcoma virus.

Chicken heart mesenchymal cells do not proliferate in medium of physiological composition containing plasma (S. Balk, Proc. Natl. Acad. Sci. USA 77:6606-6610, 1980). To understand the molecular events involved in cell quiescence and in the initiation of cell division under physiological conditions, we examined the differences in the patterns of protein synthesis of quiescent, hormone-stimulated, and Rous sarcoma virus-transformed chicken heart mesenchymal cells. We describe the expression of a 20,000-kilodalton (kDa) polypeptide actively synthesized by quiescent cells but not by their transformed counterparts. Normal chicken heart mesenchymal cells stimulated with epidermal growth factor and insulin also repressed the synthesis of the 20,000-kDa polypeptide while actively growing but synthesized increasing amounts of the protein at high cell density (confluence). The synthesis of the 20,000-kDa protein is not restricted to chicken heart mesenchymal cells, since confluent, density-arrested chicken embryo fibroblasts also expressed high levels of the protein. Transformed chicken heart mesenchymal cells and embryo fibroblasts did not synthesize the protein even at high cell density. The 20,000-kDa polypeptide accumulated in the culture medium.     

Translocation of plasminogen activator inhibitor-1 during serum stimulated growth of mouse embryo fibroblasts

Serum-stimulated mouse embryo fibroblasts specifically secrete two proteins of molecular weights 48,000 and 26,000. The 48 kDa protein showed affinity to concanavalin A and was precipitated by antibody to plasminogen activator inhibitor. Immunoflowcytometry using anti plasminogen activator inhibitor-1 serum indicate the presence of the 48 kDa protein in quiescent cells; this protein was virtually absent in serum-stimulated cells. The presence of the plasminogen activator inhibitor-1 related protein in quiescent cells and its absence in serum-stimulated cells in combination with the observation on the absence of this protein, in the medium of quiescent cells and its presence in the medium of stimulated cells indicate that the 48 kDa protein was transferred from the cells into the medium upon serum-stimulation. The serum-mediated transfer of plasminogen activator inhibitor-1 from the cells into the medium was inhibited by actinomycin-D suggesting that the transfer process required actinomycin-D sensitive events. Treatment of pre-labelled quiescent cells with medium containing 20% fetal calf serum resulted in the gradual transfer of the labelled 48 kDa protein to the extra cellular matrix. These studies indicate that exposure of quiescent cells to fetal calf serum results in the transfer of plasminogen activator inhibitor-1 from the cells to the growth mediumvia extracellular matrix. The translocation of the protease inhibitor from the cells to the matrix and medium may enable the cellular and possibly the membrane proteases to act on growth factors or their receptors thereby initiating the mitogenic response.     

The effects of platelet-derived transforming growth factor beta on normal human diploid gingival fibroblasts

Studies of the effects of transforming growth factor (TGF) beta on normal human diploid gingival fibroblasts (HGF) have been carried out to determine possible physiological effects of this growth factor. Responses distinctly different from those characterized using established cell lines were observed. Whether alone, or in combination with EGF (2.5 ng/ml), human platelet-derived TGF-beta (0.1 ng/ml or 1.0 ng/ml) did not induce anchorage-independent growth of HGFs in soft agar assays. However, TGF-beta with EGF acted synergistically in promoting a 1.8-fold increase in anchorage-dependent proliferation of quiescent HGFs. At the same concentrations TGF-beta alone stimulated the incorporation of [35S]methionine into both cellular (cell-layer) and matrix (medium) proteins by as much as 3-fold and 1.7-fold respectively. Densitometric analysis of fluorographs of radiolabeled media proteins separated by SDS-PAGE revealed that the TGF-beta-stimulated protein synthesis was selective. However, synthesis of collagen, the major protein synthesized and secreted by HGFs, was stimulated by TGF-beta to the same extent as the average secreted protein. Protein synthesis and cell proliferation were significantly greater in subconfluent cells compared to confluent and multilayered cells. These effects are likely to reflect physiological activity of platelet-derived TGF-beta which may act to promote the wound healing response.