A partially purified polypeptide fraction from rat liver cell conditioned medium with multiplication-stimulating activity for embryo fibroblasts

A polypeptide fraction with multiplication-stimulating activity for chicken and rat embryo fibroblasts was partially purified from serum-free medium conditioned by the growth of a line of rat liver cells. The specific multiplication-stimulating activity of this fraction was 27,000 times that of serum. The rat liver cell multiplication-stimulating activity had a molecular weight of approximately 10,000 daltons and was inactivated by mercaptoethanol and dithiothreitol. It had sulfation factor and non-suppressible insulin-like activities, but did not have anti-trypsin activity. The rat liver cell multiplication-stimulating activity resembled both multiplication-stimulating activity from calf serum and somatomedin.     

The partial purification from calf serum of a fraction with multiplication-stimulating activity for chicken fibroblasts in cell culture and with non-suppressible insulin-like activity

A multiplication-stimulating activity for chicken embryo fibroblasts has been purified approximately 6000-fold from calf serum by a three step procedure. The partially purified multiplication-stimulating activity stimulated DNA synthesis, mitosis, and growth of cultured chicken embryo fibroblasts. In addition, the active step 3 material was shown to have non-suppressible insulin-like activity and to be an inhibitor of trypsin activity. The activity appeared to be associated with a small protein and was heat stable, but sensitive to dithiothreitol and to periodate.     

Multiplication-stimulating activity for chicken embryo fibroblasts from rat liver cell conditioned medium: a family of small polypeptides

A partially purified multiplication-stimulating activity for chicken embryo fibroblasts in cell culture was isolated from rat liver cell conditioned medium (see preceding paper, Dulak and Temin, 1973). It has been analyzed by isoelectric focusing and by polyacrylamide gel electrophoresis in sodium dodecyl sulfate. Multiplication-stimulating activity resided in a family of at least four polypeptides which were similar in apparent molecular size, but different in electrical charge. These polypeptides have a specific activity of about 50,000 with respect to serum. One of them has been purified on a small scale to apparent homogeneity in a sodium dodecyl sulfate polyacrylamide gel.     

The binding of rat liver cell multiplication-stimulating activity (MSA) to human placenta and serum proteins.

Multiplication-stimulation activity (MSA) from the medium of BRL-3A rat liver cells in culture binds to cell membrane and cytosol receptors from human placenta and to serum proteins. The binding of MSA to placental cell membranes is dependent on time, temperature, pH and divalent ion concentration. MSA bound to placental cytosol receptor and serum is not displaced by insulin, whereas that bound to placental cell membranes is displaced by insulin and insulin-like peptides. The affinity of the three receptors for MSA is similar [approximately 10(8) M(-1)]. An assay using 125I-MSA and placental membrane receptor detects somatomedin-like receoptor activity (SmLRA) in unextracted sera from man and animals. A binding protein in serum that competes for 125I-MSA with receptor could not be completely separated from SmLRA by heating, acidification, charcoal treatment and gel chromatography of the serum. The relative activities of SmLRA and serum binding protein remained constant in three disorders of human growth (acromegaly, growth hormone deficiency and Laron's dwarfism) in which values of SmLRA varied widely. However, the binding protein is only partly responsible for the apparent SmLRA of unextracted serum. It is concluded that MSA is a suitable radioligand for the investigation of somatomedin disorders in man either by receptor assays or by studies of tissue receptors.     

Induction of tyrosine aminotransferase and amino acid transport in rat hepatoma cells by insulin and the insulin-like growth factor,multiplication-stimulating activity: Mediation by insulin and multiplication-stimulating activity receptors

Insulin stimulates a 2-fold increase in the amount of tyrosine aminotransferase and a 5–10-fold increase in the rate of amino acid transport in dexamethasone-treated rat hepatoma cells. In order to determine whether these effects are mediated by insulin receptors or receptors for insulin-like growth factors, we have examined the binding of ¹²⁵I-labeled insulin and ¹²⁵I-labeled multiplication-stimulating activity, a prototype insulin-like growth factor, and compared the biological effects of these polypeptides. Insulin and multiplication-stimulating activity cause an identical increase in transaminase activity and transport velocity; half-maximal biological effects were observed at 35 ng/ml (5.5 nM) insulin and 140 ng/ml multiplication-stimulating activity. The hepatoma cells display typical insulin receptors of appropriate specificity; half-maximal displacement of tracer insulin binding occured at 33 ng/ml unlabeled insulin, but only at 2500 ng/ml unlabeled multiplication-stimulating activity. Specific multiplication-stimulating activity receptors also were demonstrated with which insulin did not interact even at 10 μg/ml. Half-maximal displacement of tracer multiplication-stimulating activity occured at 200 ng/ml unlabeled multiplication-stimulating activity. We conclude that insulin cannot act via the multiplication-stimulating activity receptor and presumably acts via typical insulin receptors. The effects of multiplication-stimulating activity on enzyme induction and amino acid transport are probably mediated primarily via the multiplication-stimulating activity receptor.     

Large scale purification and further characterization of a rat liver cell conditioned medium multiplication stimulating activity

The application of roller-bottle cell culture techniques and a relatively simple purification scheme has led to the isolation of milligram quantities of a polypeptide cell multiplication stimulating activity (MSA) from Buffalo rat liver cell conditioned medium. We have characterized the apparently homogeneous MSA with respect to its biological activity, its N-terminal amino acid residue, and its amino acid composition, and have tested the MSA for growth-promoting activity in a number of cell types.     

Association between serum insulin, serum somatomedin and liver receptors for human growth hormone in streptozotocin diabetes

Streptozotocin-induced diabetes in the female rat caused a decrease in the serum level of somatomedin (Sm), measured by radioreceptor assay. The decrease was reversed by insulin therapy. In diabetes of varying severity, serum insulin and Sm levels showed highly significant association up to the insulin concentration (18 microU/ml) corresponding to normal serum Sm (1 U/ml). Similarly, the hepatic binding of human growth hormone (hGH) showed highly significant association with serum Sm levels up to the degree of binding (7% of tracer) corresponding to normal serum Sm. Binding of hGH to normal liver was about 12% of tracer. These results suggest that insulin might regulate serum Sm via its effect on liver lactogenic receptors, and that about half of these receptors are "spare", or in excess of those required to maintain normal serum Sm levels.     

Proliferation of Buffalo rat liver cells in serum-free medium does not depend upon multiplication-stimulating activity (MSA).

A line of Buffalo rat liver cells (BRL 3A) that multiplies in the absence of serum produces a family of polypeptides termed MSA that can partially satisfy the serum requirement for growth of chick embryo fibroblasts. Temin, Pierson and Dulak (1972) proposed that BRL cells multiply in serum-free medium because they produce MSA. This does not appear to be the case. We have studied three BRL cell lines: 3A2 and 3A have diverged from the same original isolate from normal liver; 61t is a spontaneous transformant of a different isolate. All three cell lines showed a 10 fold increase in cell number during 5 days in serum-free medium. However, 3A-conditioned medium stimulated 3H-thymidine incorporation into DNA in chick embryo fibroblasts and human skin fibroblasts; 3A2- and 61t-conditioned media did not. After ion-exchange chromatography or gel filtration of the conditioned media and measurement of MSA by 3H-thymidine incorporation or radioreceptor assay, MSA again was found in the 3A medium but not in the 3A2 or 61t media. The absence of MSA in the 3A2 and 61t media was not due to inactivation of MSA by these two cell lines. Addition of partially purified MSA to 3A2 cells did not increase their multiplication rate in serum-free medium. We conclude that the ability of the BRL cells to multiply in serum-free medium is independent of the level of MSA in the medium.     

Stimulatory and inhibitory effects of serum and conditioned medium on cell spreading

This work deals with the effects of coating culture dishes with chick embryo fibroblast conditioned medium (CM) and 1% fetal calf serum (FCS) on the rates of attachment and spreading of chick embryo fibroblasts. It appeared that a FCS coating over a CM precoating exerted a remarkable promoting cooperative effect on cell spreading whereas a CM coating over a FCS precoating had a very marked inhibitory effect. Precoating with cobalt-protoporphyrin IX (CoPP) was also performed to serve as a substrate for FCS or CM coating. This CoPP precoating was found to exert a promoting effect for FCS coating only.     

A beta-type transforming growth factor, present in conditioned cell culture medium independent of cell transformation, may derive from serum

An alpha-type transforming growth factor (TGF alpha) is produced at high levels by rat embryo cells transformed by the Snyder-Theilen strain of feline sarcoma virus (FeSV). Addition of 2 ng mouse epidermal growth factor (mEGF) during purification identified the presence of a second, EGF-dependent growth factor of the TGF beta type (TGF beta) in this conditioned medium. This factor had an approximate Mr of 12,000 and eluted at 37% acetonitrile during high performance liquid chromatography. This extracellular type of TGF beta activity also was present in conditioned medium of rat cells after infection with a transformation defective strain of Abelson leukemia virus, and hence expression of this growth factor activity was independent of cell transformation. Moreover, the presence of an EGF-dependent, 12,000 Mr clonogenic activity in extracts of bovine serum alone suggests serum as an origin for the B-type transforming growth factor initially observed in conditioned medium of Snyder-Theilen FeSV transformed cells. This does not, however, preclude the possibility that TGF beta is also secreted by the transformed rat embryo cells themselves.     

Identification, purification, and biological characterization of hematopoietic stem cell factor from buffalo rat liver--conditioned medium

We have identified a novel growth factor, stem cell factor (SCF), for primitive hematopoietic progenitors based on its activity on bone marrow cells derived from mice treated with 5-fluorouracil. The protein was isolated from the medium conditioned by Buffalo rat liver cells. It is heavily glycosylated, with both N-linked and O-linked carbohydrate. Amino acid sequence following removal of N-terminal pyroglutamate is presented. The protein has potent synergistic activities in semisolid bone marrow cultures in conjunction with colony-stimulating factors. It is also a growth factor for mast cells. In two companion papers, we present the sequences of partial SCF cDNAs, identify SCF as a c-kit ligand, and map the SCF gene to the Sl locus of the mouse.     

Accumulation of pyrroline 5-carboxylic acid in conditioned medium of cultured fibroblast: Stimulatory effects of serum,insulin, and IGF-1

Summary Pyrroline 5-carboxylate, an intermediate of amino acid metabolism, is released into medium by cultured normal human fibroblasts. With cells made quiescent by serum starvation, the addition of 10% fetal bovine serum augmented the release of pyrroline 5-carboxylate into medium by 2.5-fold. Although platelet-derived growth factor was without effect, both insulin and insulinlike growth factor-1 nearly reproduced the serum effect. The dose-dependence of insulin and insulinlike growth factor 1 effects suggested their mediation by their own respective receptors. Although the mechanism for the stimulatory effect remains unknown, these effects of insulin and insulinlike growth factor 1 on pyrroline 5-carboxylate suggest hormonal regulation of pyrroline 5-carboxylate release.     

Inhibition of intracellular proteolysis in muscle cultures by multiplication-stimulating activity. Comparison of effects of multiplication-stimulating activity and insulin on proteolysis, protein synthesis, amino acid uptake, and sugar transport

The effects of the insulin-like growth factor, multiplication-stimulating activity (MSA), on chick myotube cultures were investigated. In serum-free media, MSA at levels reported to be present in fetal serum (5 ng/ml) significantly inhibited overall rates of protein degradation and stimulated protein synthesis and amino acid uptake. Half-maximal effects on protein degradation (-30%), synthesis (+25%), and amino acid uptake (+50%) occurred at approximately 0.05 micrograms/ml. In contrast, 10(2)-10(3)-fold higher concentrations (5 micrograms/ml) were required to stimulate transport of the glucose analog 2-deoxyglucose. The results indicate that MSA is an effective anabolic agent regulating protein metabolism and amino acid uptake, but not sugar transport in these cells. Parallel studies conducted with insulin demonstrated similar size effects on protein metabolism and amino acid uptake in serum-free media. However, unlike MSA, insulin levels (10(-2) units/ml) well in excess of its normal physiological range were required to produce significant effects. In addition, the relative sensitivity of sugar transport with respect to protein metabolic effects differed for insulin and MSA. Thus, 2-deoxyglucose transport was approximately 10 times more sensitive to insulin than protein synthesis, proteolysis, or amino acid uptake in contrast to MSA where the reverse was true. However, despite the relatively higher sensitivity of sugar transport to insulin, supraphysiological levels (10(-3) units/ml) of this hormone were still required for significant stimulation. These results suggest a generally low insulin sensitivity in cultured chick myotubes relative to adult tissues. In contrast, the effects of MSA are consistent with a possible role of this or similar factors in regulating growth and development of embryonic muscle.     

N-acetyl-beta-D-glucosaminidase activity in serum, kidney and liver of streptozotocin-induced diabetic rat

Serum N-acetyl-beta-D-glucosaminidase (NAG) activity in streptozotocin-induced diabetic rats was significantly increased. There was neither a difference in total NAG activity in kidney and liver, nor in optimal pH of NAG in serum, kidney and liver between diabetic and control rats. The ratio of the thermounstable fraction of NAG increased in diabetic kidney and liver, while there was no difference in thermostability of between diabetic and control rats. Isoelectricfocusing of diabetic serum NAG indicated an increase in the neutral form. That of kidney and liver NAG indicated an increase in the acid form. These results may suggest that NAG clearance from the serum is decreased diabetic state.