Platelet-derived growth factor and multiplication-stimulating activity II, but not multiplication-stimulating activity III-2, stimulate [3H]thymidine and [35S]sulphate incorporation by fetal rat costal cartilage in vitro

The actions of partially purified porcine platelet-derived growth factor (PDGF) and highly purified multiplication-stimulating activity (MSA) II and MSA III-2, which are somatomedins, were investigated on the incorporation of [3H]thymidine and [35S]sulphate by fetal rat costal cartilage in vitro. This was compared with their effects in the presence of 1% fetal calf serum (FCS) on the uptake of thymidine by growth-arrested fetal rat fibroblasts. Platelet-derived growth factor at concentrations of 0.21-21 micrograms/l enhanced the incorporation of both isotopes by fetal cartilage in the presence of 1% FCS, but had an inconsistent action on thymidine uptake and no significant action on sulphate uptake in serum-free medium. Platelet-derived growth factor promoted thymidine uptake by growth-arrested, isolated fetal rat fibroblasts. Multiplication-stimulating activity II (10-100 micrograms/l) stimulated the uptake of thymidine and sulphate by fetal cartilage in medium containing 1% FCS but had no consistent action in serum-free medium, although MSA II and PDGF had a synergistic effect on thymidine uptake in the absence of serum. Multiplication-stimulating activity III-2 had no consistent action on thymidine or sulphate incorporation by fetal cartilage in either serum-free or serum-supplemented medium. However, the same preparation of MSA III-2 stimulated the uptake of [3H]thymidine into fetal rat fibroblasts with a half-maximal response at a concentration of 5-10 micrograms/l. The results identify PDGF as a possible mitogenic agent for fetal rat connective tissues in vitro and show a differential sensitivity of fetal cartilage to MSA peptides.     

Insulin-like growth factor (IGF) binding proteins modulate the glucocorticoid-dependent biological effects of IGF-II in cultured fetal rat hepatocytes

The role of insulin-like growth factor binding proteins (IGFBPs) in regulation by IGF-II of glycogenesis and DNA synthesis was investigated in hepatocytes isolated from fetal rat livers at days 15 and 18 of gestation and grown in the presence or absence of cortisol. IGFBP-1 was clearly revealed by Western ligand blot and immunoblot analysis of IGFBPs secreted into conditioned media. Its production and cellular messenger RNA (mRNA) were positively regulated by cortisol and increased in older cells. In the absence of IGFBP (fresh medium), glycogenesis, and DNA synthesis were stimulated by IGF-II and insulin. In each case, cortisol enhanced this stimulation. In the presence of IGFBPs (cell-conditioned media), IGF-II stimulation of DNA synthesis and to a lesser extent glycogenesis was inhibited. The degree of inhibition was directly related to IGFBP-1 production. IGFBPs had no effect on stimulation of glycogenesis and DNA synthesis by des(1-6)IGF-II, a structural analog of IGF-II that does not bind to IGFBPs. Insulin, whose biological effects were not modified by conditioned media, inhibited IGFBP-1 production. Comparison of the dose dependence of the two bioactivities showed that DNA synthesis was more sensitive to IGF-II than glycogenesis. Our results suggest that in the case of DNA synthesis the effects of IGF-II are mediated via the IGF-I receptor and those of insulin via the insulin receptor, whereas in the case of glycogenesis both are mediated via the insulin receptor. In conclusion, IGF-II and insulin stimulation of glycogenesis and DNA synthesis in cultured fetal hepatocytes depends on the presence of glucocorticoid and the stage of development. IGF-II action is negatively regulated by IGFBP-1 whose synthesis increases in the presence of glucocorticoids.     

Sex steroids and growth factors differentially regulate the growth and differentiation of cultured human endometrial stromal cells

We have studied the interaction between growth factors and sex steroids in regulating human endometrial stromal cell growth and differentiation using an in vitro serum-free cell culture model system. None of the growth factors [epidermal growth factor (EGF), basic fibroblast growth factor (bFGF), insulin, insulin-like growth factor-I (IGF-I), IGF-II, or platelet-derived growth factor] stimulated the growth of human endometrial stromal cells grown in progestin-free medium. However, the growth of progestin-treated cultures was dramatically increased by EGF, bFGF, or platelet-derived growth factor, but not by insulin, IGF-I, or IGF-II. Estrogen could not substitute for progesterone in this protocol, and coadministration of estrogen with progestin did not enhance the response over that to progesterone alone. In contrast to their positive effects on growth, only EGF, not bFGF, stimulated stromal cell differentiation, as measured by an increase in PRL, laminin, and fibronectin production; moreover, stimulation of differentiation was dependent upon the presence of progestin in the culture medium. Thus, human endometrial stromal cell growth is 1) regulated by a discrete set of growth factors, only a subset of which regulates stromal cell differentiation; and 2) regulation of stromal cell growth and stromal cell differentiation by growth factors is progestin dependent. Our results provide direct evidence for interaction between growth factors and sex steroids in the regulation of stromal cell growth and differentiation in vitro and suggest that growth factors may be absolutely required in conjunction with progesterone for the decidual response in vivo.     

Stimulation of DNA synthesis in cultured rat alveolar type II cells

Restoration of the alveolar epithelium after injury is thought to be dependent on the proliferation of alveolar type II cells. To understand the factors that may be involved in promoting type II cell proliferation in vivo, we determined the effect of potential mitogens and culture substrata on DNA synthesis in rat alveolar type II cells in primary culture. Type II cells cultured in basal medium containing 10% fetal bovine serum (FBS) exhibited essentially no DNA synthesis. Factors that stimulated 3H-thymidine incorporation included cholera toxin, epidermal growth factor, and rat serum. The greatest degree of stimulation was achieved by plating type II cells on an extracellular matrix prepared from bovine corneal endothelial cells and then by culturing the pneumocytes in medium containing rat serum, cholera toxin, insulin, and epidermal growth factor. Under conditions of stimulation of 3H-thymidine incorporation there was an increased DNA content per culture dish but no increase in cell number. The ability of various culture conditions to promote DNA synthesis in type II cells was verified by autoradiography. Type II cells were identified by the presence of cytoplasmic inclusions, which were visualized by tannic acid staining before autoradiography. These results demonstrate the importance of soluble factors and culture substratum in stimulating DNA synthesis in rat alveolar type II cells in primary culture.     

Identification of a type II insulin-like growth factor receptor in fish embryos

To determine whether fish have an insulin-like growth factor II/mannose 6-phosphate (IGF-II/M6-P) receptor similar to that of mammals, we have performed binding, cross-linking, and immunoprecipitation experiments with wheat-germ-agglutinin- and mannose 6-phosphate (M6-P)-affinity-purified receptor preparations from fish embryos. In both receptor preparations, IGF-II binding was specific, because labeled IGF-II could only be completely displaced by cold IGF-II but not by IGF-I or insulin. Labeled IGF-II bound to a protein with a molecular mass of approximately 250 kDa, which could be immunoprecipitated with an antibody against the rat IGF-II receptor. IGF-II stimulated tyrosine kinase activity in wheat germ agglutinin preparations and was more potent than insulin or IGF-I, but neither peptide stimulated tyrosine kinase activity in M6-P preparations. Two fish cell lines (CHSE-214 and EPC) were used to confirm the IGF-II binding data obtained in the receptor preparations, revealing the presence of highly specific IGF-II binding and the absence of insulin binding. Furthermore, a decrease of the IGF-I receptors on the cell surface did not alter IGF-II binding in EPC cells. In conclusion, we have detected the presence of IGF-II/M6-P receptors in fish embryos that are similar in structure and specificity for their ligand to those found in mammals.     

Insulin-like growth factors act synergistically with basic fibroblast growth factor and nerve growth factor to promote chromaffin cell proliferation.

We have investigated the effects of insulin-likegrowth factors (IGFs), basic fibroblast growth factor (bFGF), and nerve growthfactor (NGF) on DNA synthesis in cultured chromaffin cells from fetal, neonatal,and adult rats by using 5-bromo-2'-deoxyuridine (BrdUrd) pulse labeling for24 or 48 h and immunocytochemical staining of cell nuclei. After 6 days inculture in the absence of growth factors, nuclear BrdUrd incorporation wasdetected in 30% of fetal chromaffin cells, 1.5% of neonatal cells, and 0.1% ofadult cells. Addition of 10 nM IGF-I or IGF-II increased the fraction ofBrdUrd-labeled nuclei to 50% of fetal, 20% of neonatal, and 2% of adultchromaffin cells. The ED50 value of IGF-I- and IGF-II-stimulated BrdUrd labelingin neonatal chromaffin cells was 0.3 nM and 0.8 nM, respectively. In neonataland adult chromaffin cells, addition of 1 nM bFGF or 2 nM NGF stimulated nuclearBrdUrd incorporation to approximately the same level as 10 nM IGF-I or IGF-II.However, the response to bFGF or NGF in combination with either IGF-I or IGF-IIwas more than additive, indicating that the combined effect of the IGFs and bFGFor NGF is synergistic. The degree of synergism was 2- to 4-fold in neonatalchromaffin cells and 10- to 20-fold in adult chromaffin cells compared with theeffect of each growth factor alone. In contrast, the action of bFGF and NGFadded together in the absence of IGFs was not synergistic or additive. IGF-IIacted also as a survival factor on neonatal chromaffin cells and the cellsurvival was further improved when bFGF or NGF was added together with IGF-II.In conclusion, we propose that IGF-I and IGF-II act in synergy with bFGF and NGFto stimulate proliferation and survival of chromaffin cells during neonatalgrowth and adult maintenance of the adrenal medulla. Our findings may haveimplications for improving the survival of chromaffin cell implants in diseasedhuman brain.     

Coordinated control of fetal gastric epithelial functions by insulin-like growth factors and their binding proteins

The influence of insulin-like growth factors (IGFs) and their binding proteins (IGFBPs) on human gastric functions are unknown. This study was undertaken to evaluate the ability of fetal gastric mucosa to produce IGFBPs and to test the effects of IGF-I, IGF-II, and synthetic truncated IGFs that do not interact with IGFBPs on epithelial cell proliferation and glandular zymogenic function. Western blots, Far Western blots, and immunohistochemistry were performed to characterize the expression of IGFBP-1 to -6 and IGF-I receptor. The effects of growth factors on DNA synthesis and lipase and pepsin activities were determined in gastric explants maintained in serum-free organ culture. All gastric epithelial cells expressed the IGF-I receptor. IGFBP-2 to -6 were produced endogenously, and they were differentially localized along the foveolus-gland axis and modulated in culture. Exogenous IGF-I and IGF-II were able to reduce lipase activity without affecting pepsin, whereas they exerted different effects on cellular proliferation: IGF-I was stimulatory and IGF-II had no influence. Illustrating the complex regulatory effect that IGFBPs exert on IGF bioactivity, both truncated IGF-I and IGF-II stimulated DNA synthesis more than IGF-I. Moreover, the striking difference in mitogenic activity between truncated and native forms of IGF-II probably reflects the abundance of IGFBP-2 and IGFBP-6, two IGF-II carriers, in the foveolus/neck region, including the proliferative compartment. This study provides new evidence for the involvement of an intragastric IGF/IGFBP system in the fine regulation of epithelial cell division and also in the control of zymogen synthesis. Moreover, the specific influence of IGF-II as a mitogen appears to be tightly regulated by IGFBP isoforms preferentially associated with this growth factor and proliferative cells.     

Secretion of insulin-like growth factor II (IGF-II) and IGF-binding protein-2 by intestinal epithelial (IEC-6) cells: implications for autocrine growth regulation.

To identify the factors regulating the proliferation of intestinal epithelium, we examined the effects of various growth factors on [3H] thymidine incorporation into the DNA of IEC-6 cells, an intestinal epithelial cell line derived from rat jejunal crypts. Insulin-like growth factor-I (IGF-I), IGF-II, and insulin stimulated the DNA and protein synthesis of IEC-6 cells in serum-free medium supplemented with transferrin, dexamethasone, and BSA (basal medium). Concentration-response experiments demonstrated that IGF-I is approximately 10 times more potent than IGF-II or insulin in producing 2- to 3-fold stimulations of DNA and protein synthesis by IEC-6 cells. In addition, IEC-6 cells proliferated slowly in the basal medium without any added growth factors. Analysis of medium conditioned by IEC-6 cells by gel filtration chromatography, RIA, HPLC, and N-terminal sequencing revealed that IEC-6 cells synthesize and secrete mature, 7,500 mo wt (M(r)) IGF-II as well as high M(r) forms of IGF-II. In addition, ligand blot, immunoblot, and N-terminal sequence analyses showed that IEC-6 cells produce the 34,000 M(r) IGF-binding protein-2 (IGFBP-2). To determine if IGFBP-2 modulates IGF responses in IEC-6 cells, the IGF-I analogs, Des-(1-3)-IGF-I and [Gln3,Ala4,Tyr15,Leu16]IGF-I, both of which have a reduced affinity for IGFBPs, were tested for their effects on IEC-6 cell proliferation. Both analogs exhibited 10-fold greater potency than IGF-I, presumably because endogenously secreted IGFBPs depress IGF-I binding to cell surface receptors. Finally, purified IGFBP-2 attenuated the DNA synthesis of IEC-6 cells in a dose-dependent manner. We conclude that IGFBP-2 secreted by intestinal epithelial cells is capable of limiting the mitogenic activity of both exogenous and endogenous IGFs by blocking the association of the growth factors with cell surface binding sites. These results further suggest that the growth of IEC-6 cells is modulated by autocrine mechanisms involving IGF-II and IGFBP-2.     

Antitubulin agents enhance the stimulation of DNA synthesis by polypeptide growth factors in 3T3 mouse fibroblasts.

Colchicine and other antitubulin agents markedly enhanced the stimulation of DNA synthesis by combinations of various growth factors such as epidermal growth factor, insulin, fibroblast-derived growth factor, and vasopressin in serum-free cultures of several quiescent 3T3 mouse fibroblast cell lines. Enhancing effects were observed based on continuous incorporation of [3H]thymidine into DNA as well as by autoradiographic labeling of cell nuclei. The concentration of colchicine and podophyllotoxin required to produce half-maximal enhancement of DNA synthesis stimulated by epidermal growth factor and insulin was 25-50 nM. Lumicolchicine did not produce enhancing effects. The disassembly of microtubules resulting from the action of colchicine, Colcemid, and vinblastine did not inhibit the stimulation of DNA synthesis in quiescent Swiss 3T3 fibroblasts by fetal bovine serum. We conclude that the cytoplasmic microtubule network in 3T3 mouse fibroblasts does not exert a positive regulatory function in the initiation of DNA synthesis but rather can produce a constraint on the initial action of the peptide growth factors in serum-free media.     

Insulin antagonism of dexamethasone-induced stimulation of cholinephosphate cytidylyltransferase in fetal rat lung in organ culture

We have studied the antagonism between insulin and dexamethasone on phosphatidylcholine synthesis in fetal rat lung in organ culture. Explants from 18-day fetal rat lungs were cultured in serum-free medium in the presence of 10^?6 M dexamethasone phosphate, 1 U/ml bovine insulin or both hormones for 48 h. Control explants were similarly cultured in the absence of hormones. Dexamethasone alone stimulated the activity of cholinephosphate cytidylyltransferase by 134% while insulin alone had no effect. When insulin was added together with dexamethasone, however, the stimulation was reduced to 72%. These data suggest that antagonism by insulin of dexamethasone-induced stimulation of fetal lung phosphatidylcholine biosynthesis may be at least partially expressed at the level of cholinephosphate cytidylyltransferase.     

Identification of a family of insulin-like growth factor II secreted by cultured rat epithelial-like cell line 18,54-SF: application of a monoclonal antibody

Somatomedin/insulin-like growth factor (IGF)-like polypeptides (designated SMP) were purified from the serum-free conditioned medium of cultured rat epithelial-like cells, 18,54-SF. A monoclonal antibody (MAb) was produced against partially purified SMP. The antibody was immunoglobulin G1 relatively specific for multiplication-stimulating activity III-2 (rat IGF-II), with a Kd value of 5.6 X 10(-9) M. The antibody showed 100% cross-reactivity with human IGF-II and 10% cross-reactivity with human IGF-I, but did not cross-react with insulin. For purification of SMP, therefore, immunoaffinity chromatography on Sepharose coupled with the MAb was used besides a procedure including ion exchange chromatography, gel filtration, and reverse phase HPLC. The purified SMP (at least five polypeptides) each gave a single peak on reverse phase HPLC and appeared as a single band with an apparent mol wt of 5000-8000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The major components of SMP (designated HP1-SMP and HP3-SMP), which were purified about 100-fold from conditioned medium, stimulated DNA synthesis in human fibroblasts in culture and sulfation in chick embryonic cartilage in culture. These polypeptides showed almost the same cross-reactivity as multiplication-stimulating activity III-2 on RIA with the MAb. The partial amino acid sequences of HP1- and HP3-SMP were determined, and these polypeptides were identified with rat IGF-II.     

Insulin-like growth factor II stimulates cell proliferation through the insulin receptor

R− cells are 3T3-like fibroblasts generated from mouse embryos nullizygous for a targeted disruption of the genes encoding the type 1 insulin-like growth factor (IGF) receptor (IGF1R). These cells fail to proliferate in serum-free medium supplemented with purified growth factors, in contrast to their wild-type counterparts. However, when R− cells overexpress the insulin receptor from a stably integrated plasmid, R−/IR cells, they become capable of growing in serum-free medium supplemented solely with insulin or IGF-II, but not with IGF-I. Moreover, the introduction into R−/IR cells of an additional plasmid expressing IGF-II causes these cells to proliferate in serum-free medium without growth factor supplementation. From these results, we conclude that IGF-II can stimulate cell proliferation not only through its cognate IGF1R but also through the insulin receptor.     

Coordinate tropic hormone regulation of mRNAs for insulin-like growth factor II and the cholesterol side-chain-cleavage enzyme, P450scc [corrected], in human steroidogenic tissues.

Insulin-like growth factors (IGFs) are single-chain polypeptides important for cell proliferation and growth. IGFs are produced in several tissues, suggesting that they function in a paracrine or autocrine fashion as well as functioning as endocrine hormones. We studied the hormonal regulation of IGF-I and IGF-II mRNA in human steroidogenic tissues. In cultured human ovarian granulosa cells, follicle-stimulating hormone, human chorionic gonadotropin, and dibutyryl cAMP increased IGF-II mRNA, but corticotropin [adrenocorticotropic hormone (ACTH)], chorionic somatomammotropin, growth hormone, prolactin, dexamethasone, estradiol, and progesterone had no effect. In cultured human fetal adrenal cells, ACTH and dibutyryl cAMP increased IGF-II mRNA accumulation, but human chorionic gonadotropin and angiotensin II did not. The same five size species of IGF-II mRNA were detected in transfer blots of RNA from granulosa cells and fetal adrenal cells, and all of these increased after hormonal stimuli. Dibutyryl cAMP also increased IGF-II mRNA accumulation in cultured human placental cells. Accumulation of mRNA for the cholesterol side-chain-cleavage monooxygenase [P450scc [corrected]; cholesterol, reduced-adrenal-ferredoxin:oxygen oxidoreductase (side-chain-cleaving), EC 1.14.15.6] was regulated in parallel with IGF-II mRNA in all these steroidogenic tissues. IGF-I mRNA was not detected in transfer blots of these RNAs, and the minimal amounts detected in dot blots showed no detectable change after any of the hormonal stimuli studied. The data indicate that the IGF-II gene is expressed in human steroidogenic tissues and is regulated by cAMP. These data suggest that IGF-II may act in an autocrine or paracrine fashion to stimulate the adrenal and gonadal growth stimulated by ACTH and gonadotropins, respectively.     

Hormonal and local factors influence antioxidant enzyme activity of rat fetal lung cells in vitro

Monolayer cultures of fetal rat mixed lung cells respond to sublethal concentrations (50%) of oxygen by a reduced growth rate. Exposure to 95% O2 causes growth arrest and cell loss. In the presence of serum the addition of dexamethasone (5.5 nM), tri-iodothyronine (5.5 nM), or insulin (5 microU/ml) appeared to increase the cytotoxicity of 95% O2. Under growth-arrested conditions, in the absence of serum or elevated O2 concentrations, all three agents influence cellular antioxidant enzyme activities. Dexamethasone (0.055 nM) increased CuZn superoxide dismutase activity by 72% and glutathione peroxidase activity by 94%. Triiodothyronine (5.5 nM) increased CuZn superoxide dismutase activity 93%. Insulin (5 microU/ml) increased CuZn superoxide dismutase activity 90%, and catalase activity 58%. Dexamethasone, but not tri-iodothyronine or insulin, seems to have a protective effect against subsequent acute hyperoxia under serum-free conditions. Local non-hormonal factors may also influence lung cell responses to acute increases in oxygen concentrations, since cells acutely exposed to 50% or 95% O2 release a transferable factor(s) into their culture medium which increases antioxidant enzyme activities of non-hyperoxic lung cells.     

Growth factor control of rat thyroid follicular cell proliferation

We have investigated the proliferative responses of rat thyroid follicular cells in serum-free culture to a range of growth factors including TSH, epidermal growth factor, and insulin, added singly or in combination. Follicles released from normal thyroids by collagenase/dispase digestion were cultured in suspension in agarose-coated microtiter plates to prevent monolayer formation. Growth responses were measured by [3H] thymidine incorporation and by autoradiography over successive 24- or 36-h periods. Insulin, even in the absence of other growth factors, stimulated [3H]thymidine incorporation in a concentration-dependent manner, rising from basal levels of 486 +/- (SE) 18 cpm to 4222 +/- 367 cpm/5 X 10(4) cells at 8 micrograms/ml. In contrast, TSH alone had no effect. In the presence of threshold levels (0.08 micrograms/ml) of insulin, however, there was a highly significant (P less than 0.001) response to TSH, [3H]thymidine incorporation rising from 1089 +/- 163 cpm in the absence of TSH to a maximum of 7548 +/- 585 with 1 mU/ml TSH. There was a synergistic interaction between insulin and TSH over the concentrations tested. Epidermal growth factor either alone or in combination with insulin failed to produce a significant response. Parallel autoradiographic studies were concordant with the [3H]thymidine incorporation data. We conclude that whereas in the absence of other growth factors TSH is unable to stimulate DNA synthesis in isolated rat thyroid follicles, the inclusion of just a single growth factor, insulin, permits a marked response. These observations emphasize the need for inclusion of appropriate permissive growth factor(s) when assessing the in vitro effect of a suspected tissue-specific mitogen.     

Partial purification of rat hepatic stimulator substance and characterization of its action on hepatoma cells and normal hepatocytes

The active principle of a cytosol extract from weanling rat liver representing a putative liver-specific growth factor was partially purified and characterized. "Hepatic stimulator substance" was extracted from the livers of 40- to 60-gm male rats by heat treatment of a homogenate in 35% (w/v) phosphate-buffered saline and subsequent ultracentrifugation. This "heat supernatant" and fractions derived from the subsequent purification steps were tested for growth stimulatory activity in two rat hepatoma cell lines. The undifferentiated, fibroblastoid-like HTC hepatoma cells did not respond to crude hepatic stimulator substance or any of the partially purified preparations. In contrast, MH1C1 cells, which display some differentiated hepatic functions and epithelial morphology, reacted to hepatic stimulator substance and the purified fractions with a dose-dependent increase of their growth rate in serum-free culture. Although insulin, glucagon and epidermal growth factor showed only a minor effect on MH1C1 cell growth on their own, they were active as permissive or potentiating factors for the expression of the maximal effect of hepatic stimulator substance. Similarly, normal adult rat hepatocytes were only sensitive to hepatic stimulator substance when cultured in the simultaneous presence of epidermal growth factor. Under such conditions, hepatic stimulator substance stimulated hepatocyte entry into the S-phase of the cell cycle 3-fold compared to epidermal growth factor alone. Hepatic stimulator substance did not affect growth of human skin fibroblasts and of the rat intestinal crypt cell line IEC-6.(ABSTRACT TRUNCATED AT 250 WORDS)     

Stimulation of DNA synthesis in cultures of ovine mammary epithelial cells by insulin and insulin-like growth factors

Ovine mammary epithelial cell clumps (30-90 microns) were plated onto attached gels of rat tail collagen in serum-free medium. Synthesis of DNA by these cultures could be stimulated by insulin-like growth factor-I (IGF-I) with a median effective dose of 5 micrograms/l, irrespective of stage of pregnancy. The time-course of response, however, was significantly slower in cells prepared from mammary tissue of non-pregnant and early pregnant sheep compared with sheep later in pregnancy. IGF-II had approximately 10% of the potency of IGF-I in stimulating DNA synthesis. Insulin acted over a wide concentration range and produced a maximum rate of stimulation not significantly different from that produced by IGF-I. These results are consistent with actions through the type-I IGF receptor although insulin may also act through its own receptor, possibly stimulating local IGF-I production. It is concluded that IGF-I is an important mitogen for ovine mammary epithelial cells.     

Receptors for insulin-like growth factors and growth effects of multiplication-stimulating activity (rat insulin-like growth factor II) in rat embryo fibroblasts

Levels of multiplication-stimulating activity (MSA) in fetal rat serum are high (2-4 micrograms/ml), suggesting that MSA may have a role in fetal growth. We now demonstrate that fibroblasts derived from rat embryos (REFs) have specific MSA receptors and respond to MSA with increased DNA synthesis. Two types of insulin-like growth factor (IGF) receptors were demonstrated by competitive binding of radioiodinated MSA, IGF-I, and IGF-II and by chemical cross-linking of [125I]iodo-MSA and [125I]iodo-IGF-I to REFs. One type of receptor (mol wt, 260,000 under reducing conditions) did not interact with insulin, and another type of receptor (mol wt, 130,000, under reducing conditions) was recognized by insulin. Scatchard analysis of [125I]iodo-MSA binding data was consistent with one class of noninteracting binding sites. A biological response of MSA, increased DNA synthesis, was demonstrated with autoradiography in REFs. During a 16-hr incubation, DNA synthesis was stimulated by normal rat serum, and platelet-poor plasma plus platelet-derived growth factor (PDGF), but not by serum from hypophysectomized (hypox) rats or hypophysectomized (hypox) platelet-poor plasma plus PDGF. However, when MSA was added to hypox serum or to hypox platelet-poor plasma plus PDGF, DNA synthesis was stimulated to the level achieved by normal rat serum. By contrast, during a longer cell multiplication experiment, REFs grew equally well in normal or hypox rat serum, raising the possibility that REFs may produce a MSA-like factor.     

Effect of insulin-like growth factor I on deoxyribonucleic acid synthesis and galactopoiesis in bovine undifferentiated and lactating mammary tissue in vitro

We have demonstrated that insulin-like growth factor I (IGF-I), at physiological concentrations, is a potent mitogen of bovine undifferentiated mammary epithelial cells cultured in collagen in serum-free medium. Its activity is independent of insulin, although at pharmacological concentrations insulin may substitute for IGF-I. The maximal [3H]thymidine incorporation stimulated by either IGF-I or insulin was only 25-40% of that in medium supplemented with 10% fetal calf serum (FCS) only. Epidermal growth factor (EGF) exhibited low mitogenic activity which was not synergistic with IGF-I in serum-free medium. IGF-I and EGF had low synergistic activity when added separately to 10% FCS-supplemented medium. Strong synergism (100% or more) was observed, however, when both factors were added simultaneously, indicating that their maximum mitogenic effect is dependent on a simultaneous presence of other factors existing in FCS. The galactopoietic effect of IGF-I was tested in organ culture of bovine lactating mammary gland. Neither fatty acid synthesis nor alpha-lactalbumin secretion was stimulated by IGF-I, even at 2000 ng/ml. These results indicate that, at least in our in vitro system, galactopoiesis is not affected by IGF-I.     

Effects of Ethanol on DNA, RNA, and Protein Synthesis in Rat Astrocyte Cultures

Brain growth retardation is a major feature of the fetal alcohol syndrome (FAS). Insulin and insulin-like growth factors (IGF-I and IGF-II) exert significant growth-promoting effects on the central nervous system (CNS). The present study examined the effects of ethanol and its interactions with growth factors on the incorporation of labeled precursors into DNA, RNA, and protein in primary astrocyte cultures prepared from term fetal rats. Cultures were exposed to ethanol for 18hr in serum-free medium before measuring nucleoside or amino acid incorporation into acid-precipitable cell constituents. Under basal conditions, ethanol induced dose-dependent changes in the rates of incorporation of tritiated thymidine, uridine, and valine. The fraction of the total thymidine uptake that was incorporated into DNA was reduced in the presence of 100 and 200 mM ethanol. Effects on uridine and valine incorporation paralleled cell uptake. Insulin (10(-6) M) and IGF-I (10(-9) M) increased (p less than 0.01) incorporation of radiolabeled thymidine, uridine, and valine. Analysis of variance indicated highly significant interactions between ethanol and the effects of growth factors on incorporation of both nucleosides and valine. Interference with the action of neurotrophic factors may be a significant factor in fetal brain growth retardation associated with maternal ethanol ingestion.