Demonstration of Type I Insulin-Like Growth Factor Receptors on Human Platelets

Abstract

Human platelets, freshly isolated from healthy human adults, express receptors for insulin-like growth factor I. The IC₅₀ for displacement of ¹²⁵I-IGF-I binding by unlabeled IGF-I was 0.2 nM, by IGF-II 32 nM and by insulin 160 nM. Scatchard analysis of IGF-I binding demonstrates dissociation constants of 0.14 ± 0.08 nM for high affinity binding site and 54 ± 18 nM for low affinty binding site. The presence of the α-subunit of type I IGF receptor, as high affinity binding site, was verified by affinity crosslinking of ¹²⁵I-IGF-I to platelet surface membranes. Under reducing con-conditions a M_r= 135,000 band was preferentially labeled. The complete type I IGF receptor complex, which revealed under nonreducing conditions, has an approximately molecular mass of M_r > 400,000. The immunoprecipitation of the ¹²⁵I-IGF-I cross-linked type I receptor with αIR-3 confirmed the results achieved by affinity crosslinking.     

Human recombinant insulin-like growth factor I. I. Development of a serum-free medium for clonal density assay of growth factors using balb/c 3T3 mouse embryo fibroblasts

Summary A serum-free clonal density growth assay was developed for the quantification of the biological activity of human recombinant insulin-like growth factor I (IGF-I). The assay measures IGF-I stimulated growth of Balb/c 3T3 cells cultured over 4 d on poly-d-lysine-coated plastic surfaces in a serum-free medium formulation composed of a 1∶1 (vol/vol) mixture of Ham's F12 and Dulbecco's modified Eagle's media, supplemented with 3.0 ng/ml bovine basic fibroblast growth factor (bFGF), 10 μg/ml human transferrin, 100 μg/ml ovalbumin, and 1.0 μM dexamethanose. Low-temperature trypsinization of serum-supplemented stock cultures combined with the use of poly-d-lysine-coated plates made it unnecessary to use serum or fibronectin to promote cell attachment and survival. Serum-free growth conditions were optimized with respect to the concentrations of the supplements. Addition of IGF-I resulted in 3.5-fold more cells than control cultures without IGF-I after 4 d. Deletion of bFGF resulted in no IGF-I stimulation of growth. The concentrations of various preparations of IGF-I required to achieve one-half maximal stimulation of cell number (ED₅₀), ranged between 1.25 and 4.7 ng/ml. In parallel assays, IGF-I was 6.6 times more potent than human recombinant insulin-like growth factor II and 32 times more potent than insulin. When cells were seeded into medium containing IGF-I, transferrin, ovalbumin, and dexamethasone but no bFGF, growth was minimal. Dose-response addition of bFGF showed an ED₅₀, of 0.9 ng/ml. The methods reported are useful to monitor the biological potency of recombinant and natural-source growth factors as well as providing a new means of studying the multiple growth factor requirements of Balb/c 3T3 cells in cultures. This work was supported by a contract from IMCERA Bioproducts, Inc.     

Characterization of Insulin-Like Growth Factor Binding to Human Granulosa Cells Obtained During in Vitro Fertilizationd

Abstract

Insulin and IGF-I affect in vitro ovarian stromal and follicular cell function in several species. We previously characterized insulin receptors on human granulosa cells obtained from in vitro fertilization procedures but were unable to demonstrate specific binding of IGF-I.

Following modification of the assay conditions, we now report specific, high affinity IGF-1 binding sites on human granulosa cells. Substitution of equimolar concentrations of sucrose for sodium chloride in the buffer solution increased binding of IGF but not insulin in equilibrium assays. Maximal specific IGF-I binding was 2.69 ± 0.30%/10⁵ cells (SEM, n=9) with half-maximal inhibition of binding at 2 ng/ml IGF-I. Unlabeled insulin recognized the type I IGF receptor with low affinity. An IGF-I receptor monoclonal antibody (αIR-3) inhibited ¹²⁵I-IGF-I but not ¹²⁵I-insulin binding. Affinity crosslinking followed by SDS/PAGE under reducing conditions revealed IGF-I binding at a molecular weight compatible with the αsubunit of the type I IGF receptor and with a pattern of inhibition by various ligands that paralleled the equilibrium binding assays.

IGF-I receptors are present on freshly isolated human ovarian granulosa cells obtained following pharmacologic stimulation with gonadotrophin according to the protocols of in vitro fertilization. The biologic function of these receptors currently is being investigated.     

Paracellular transport of insulin-like growth factor-I (IGF-I) across human umbilical vein endothelial cell monolayers

Insulin-like growth factors (IGFs) are well defined mitogens and growth promoters, which are found in blood associated with high affinity IGF binding proteins (IGFBPs). In vivo, the endothelium is potentially the primary site of uptake of IGFs or IGF-IGFBP complexes from blood for transport to the extravascular space. However, the pathway and mechanisms by which IGFs cross the endothelial cell barrier are not known. The presence of high affinity receptors for IGF-I and IGF-II on human umbilical vein endothelial (HUVE) cells was demonstrated by (i) radio-receptor assays using both IGF-I and IGF-II and (ii) affinity label cross-linking studies. In addition, Western ligand blotting and immunoblotting revealed that IGFBP-2, -3, and -4 are secreted into serum-free media conditioned by confluent HUVE cell monolayers. To study transendothelial migration of IGF-I, HUVE cells were grown on microporous membranes in a bichamber system. When compared with membranes without cells, HUVE monolayers restricted the passage of ¹²⁵I-IGF-I and [³H]inulin, whereas the control Madin Darby canine kidney (MDCK) cell line virtually excluded all passage of these molecules. Transport of ¹²⁵I-IGF-I across HUVE cell monolayers was not significantly different to that of [³H]inulin, a paracellular probe. Moreover, ¹²⁵I-IGF-I transport was not inhibited by either excess unlabelled IGF-I or a monoclonal antibody to the type I IGF receptor at a concentration shown to inhibit ¹²⁵I-IGF-I binding to HUVE cell monolayers. Our findings show that the movement of free IGF-I across HUVE cell monolayers occurs via a paracellular route and not by a receptor-mediated, transcellular pathway. J. Cell. Physiol. 170:290–298, 1997. © 1997 Wiley-Liss, Inc.     

Calcium influx: an intracellular message of the mitogenic action of insulin-like growth factor-I

When G0-arrested BALB/c 3T3 cells were treated sequentially with platelet-derived growth factor and epidermal growth factor, cells became responsive to insulin-like growth factor-I (IGF-I). In these primed competent cells, 1 nM IGF-I elicited an approximately 3-fold increase in the calcium influx rate. IGF-I-induced calcium influx was relatively slow in onset and continued for at least 2 h in the presence of IGF-I. When a single Ca2+ channel current was studied by the patch-clamp technique using the cell-attached mode, inward currents with unitary conductance of 19 pS were observed in the presence of 1 nM IGF-I in the patch pipette. IGF-I-sensitive inward current was independent of membrane potential and was activated by a high concentration of insulin. Accordingly, 1 nM IGF-I caused a gradual increase in cytoplasmic free calcium concentration measured by fura2. The action of IGF-I on calcium influx was dependent on extracellular calcium, and IGF-I did not stimulate calcium influx when extracellular calcium concentration was reduced to 10 microM. Both cobalt and tetramethrin blocked the action of IGF-I on calcium influx without affecting the binding of 125I-IGF-I. In primed competent cells, IGF-I-stimulated [3H]thymidine incorporation was dependent on extracellular calcium and was attenuated by cobalt and tetramethrin. When cell-bound 125I-IGF-I was cross-linked by use of disuccinimidyl suberate, a 130-kDa protein was radiolabeled. Affinity labeling of the 130-kDa protein, presumably the alpha-subunit of the IGF-I receptor, was blocked by excess amount of unlabeled IGF-I. These results suggest that relatively low concentrations of IGF-I stimulate calcium influx in primed competent BALB/c 3T3 cells by activating a calcium-permeable cation channel via the IGF-I receptor and that calcium influx may be a critical intracellular message of the progression activity of IGF-I.     

Receptors for insulin-like growth factor-I and tumor necrosis factor-alpha are hormonally regulated in bovine granulosa and thecal cells.

Mastitis induces release of tumor necrosis factor-alpha (TNFalpha) and has been linked with reduced reproductive performance. To further elucidate the role and mechanism of action of TNFalpha on ovarian cells, the effect of TNFalpha on insulin-like growth factor-I (IGF-I)-induced steroidogenesis and IGF-I binding sites in granulosa and thecal cells as well as the hormonal regulation of TNFalpha receptors were evaluated. Granulosa and thecal cells were obtained from small (1-5mm) and large (> or =8mm) bovine ovarian follicles, respectively, and cultured for 3-4 days. During the last 2 days of culture, cells were treated with various hormones and steroid production and specific binding of 125I-IGF-I and 125I-TNFalpha was determined. Two-day treatment with 30 ng/ml of TNFalpha decreased (P<0.05) IGF-I-induced estradiol production by granulosa cells and IGF-I-induced androstenedione production by thecal cells. Two-day treatment with 10 and 30ng/ml of TNFalpha decreased (P<0.05) specific binding of 125I-IGF-I to thecal cells, but had no effect on specific binding of 125I-IGF-I to granulosa cells, or on specific binding of 125I-IGF-II to thecal cells. TNFalpha did not compete for 125I-IGF-I binding to granulosa or thecal cells whereas unlabeled IGF-I suppressed 125I-IGF-I binding. Insulin inhibited (P<0.10) whereas FSH had no effect on the number of specific 125I-TNFalpha binding sites in granulosa cells. In contrast, LH increased (P<0.10) whereas insulin had no effect on specific 125I-TNFalpha binding sites in thecal cells. These results suggest that IGF-I and TNFalpha receptors in granulosa and thecal cells are regulated by hormones differentially.     

Functional characterization of the insulin-like growth factor I receptor on Jurkat T cells

Insulin-like growth factor I (IGF-I) has been shown to be important in the maintenance, development, and proliferation of various types of leukocytes, particularly T cells. Radio-receptor binding assays demonstrate that Jurkat T cells bind ¹²⁵I-IGF-I with an affinity of 1.77 nM (K_d) and express approximately 230 receptors/cell. Specificity studies show insulin also binds the IGF-I receptor with an affinity 20-fold lower than that of IGF-I. Interaction of IGF-I with its receptor on Jurkat T cells induces the phosphorylation of tyrosine kinase which is detectable by Western blotting. The 95,000 MW protein detected is equivalent to the molecular weight of the β chain of the IGF-I receptor described in other types of cells. These studies characterize the binding of IGF-I to its receptor on Jurkat T cells, demonstrate that IGF-I binding induces tyrosine phosphorylation, and support the hypothesis that IGF-I is important in the induction of T cell activation.     

Multivalent cations and ligand affinity of the type 1 insulin-like growth factor receptor on P2A2-LISN muscle cells

Mouse P₂A₂-LISN myoblasts are transfected cells that overexpress the human type 1 insulin-like growth factor (IGF) receptor. Because the type 1 IGF receptor is the major binding site for both IGF-I and IGF-II, this cell line is an excellent model to determine the effect of multivalent cations on ligand binding specifically to this type of receptor. Competitive binding assays were performed to characterize IGF binding and Scatchard analysis to quantify affinity (K_a). ¹²⁵I-IGF-I, ¹²⁵I-IGF-II, and ¹²⁵I-R³-IGF-I bind only to the type 1 IGF receptor on these cells. Zn²⁺ increased binding of the three ligands to the type 1 IGF receptor by 17 to 35%. Cd²⁺ significantly increased binding of ¹²⁵I-IGF-I, although by only 8%. La³⁺ and Cr³⁺ did not effect binding. Au³⁺ decreased IGF binding by approximately 56%. Scatchard analysis produced nonlinear concave-down plots yielding binding constants for high and low affinity sites. Zn²⁺ increased the strength of only the high affinity sites. Au³⁺ decreased the affinity of both high and low affinity sites. Zn²⁺ increased binding with a half-maximal effect between 40 μM and 60 μM. Half-maximal dose of Au³⁺ was > 130 μM. Zinc, gold, and cadmium bind to similar regions within proteins (a zinc-binding motif) and only these cations were found to affect receptor binding indicating similar mechanisms of action. Thus, multivalent cations may alter IGF binding to cell surface receptors ultimately controlling growth. Physiologically this may be especially important for the growth promoting effects of Zn²⁺. J. Cell. Physiol. 176:392–401, 1998. © 1998 Wiley-Liss, Inc.     

Characterization of a neuronal subtype of insulin-like growth factor I receptor

Primary neuronal cultures from fetal rat brain were utilized to investigate the possible role of insulin-like growth factor I (IGF-I) in neuronal growth and differentiation. 125I-IGF-I binding to intact cultured neurons was specific and saturable with an apparent Kd of 7.0 +/- 1.2 nM and a Bmax of 1.8 +/- 0.3 pmol/mg protein. Binding of 125I-IGF-I to neurons was inhibited by IGF-I, followed by IGF-II and insulin. 7 S nerve growth factor, but not beta-nerve growth factor, also inhibited 125I-IGF-I binding. A similar binding site was detected on brain membranes. Affinity cross-linking of 125I-IGF-I to intact cultured neurons revealed, under reducing conditions, a major binding moiety with an Mr of 115,000 and a minor component at Mr 260,000. The former represents a neuronal type of the IGF-I receptor alpha subunit, whereas the latter probably represents an alpha dimer. The Mr = 115,000 binding component for 125I-IGF-I was also present in membranes prepared from postnatal whole brain. In contrast, the binding moiety in cultured glial cells was of Mr = 135,000, which was identical to the IGF-I receptor alpha subunit of placenta. Thus mature brain, despite its cellular heterogeneity, expresses a structural subtype of IGF-I receptor which appears to be unique to differentiated neurons. Moreover, glial and neuronal cultures secreted a polypeptide which specifically bound IGF-I; the apparent Mr of this binding protein was determined by affinity cross-linking to be approximately 35,000. The presence of neuronal IGF-I receptors and binding proteins suggested that IGF-I may exert neurotrophic effects on developing neurons. This possibility was supported by the observation that IGF-I markedly stimulated neuronal RNA synthesis.     

Transport and binding of insulin-like growth factor I through articular cartilage

This study focused on the role of insulin-like growth factor (IGF) binding proteins (IGFBPs) in cartilage on the transport and binding of IGF-I within the tissue. We have developed experimental and theoretical modeling techniques to quantify and contrast the roles of diffusion, binding, fluid convection, and electrical migration on the transport of IGF-I within cartilage tissue. Bovine articular cartilage disks were equilibrated in buffer containing 125I-IGF-I and graded levels of unlabeled IGF-I. Equilibrium binding, as measured by the uptake ratio of 125I-IGF-I in the tissue (free plus bound) to the concentration of labeled species in the buffer, was found to be consistent with a first-order reversible binding model involving one dominant family of binding sites within the matrix. Western ligand blots revealed a major IGF binding doublet around 23 kDa, which has been previously shown to coincide with IGFBP-6. Diffusive transport of 125I-IGF-I through cartilage was measured and found to be consistent with a diffusion-limited reaction theoretical model incorporating first-order reversible binding. Addition of excess amounts of unlabeled IGF-I during steady state transport of 125I-IGF-I resulted in release of bound 125I-IGF-I from the tissue, as predicted by the diffusion-reaction model. In contrast, addition of the low-affinity Des(1-3)IGF-I analog did not result in release of bound 125I-IGF-I. Application of electric current was used to augment transport of IGF-I through cartilage via electroosmosis and electrophoresis. Taken together, our results suggest that a single dominant substrate family, the high-affinity IGFBPs, is responsible for much of the observed binding of IGF-I within cartilage. The data suggest that intratissue fluid flow, such as that induced by mechanical loading of cartilage in vivo may be expected to enhance IGF transport by an order of magnitude and that this increment may help to counterbalance the restrictions encountered by the immobilization of IGFs by the binding proteins.     

A new serum-free method of measuring growth factor activities for human breast cancer cells in culture

Summary Growth of the MCF-7, T47D, and ZR-75-1 human breast cancer cells was established in a serum-free defined medium (MOM-1) composed of a 1∶1 (vol/vol) mixture of Ham's F12 medium and Dulbecco's modified Eagle's medium containing 15 mM HEPES (pH 7.2), 2 mM 1-glutamine, 20 μg/ml glutathione, 10 μg/ml insulin, 10 μg/ml transferrin (Tf), 10 ng/ml selenous acid, 0.3 nM triiodothyronine, 50 μg/ml ethanolamine, 20 ng/ml epidermal, growth factor, 2.0 nM 17β-estradiol, and 1.0 mg/ml bovine serum albumin (BSA). Proliferation in MOM-1 was 50 to 70% of the serum stimulated rate. Deletion of components from MOM-1 gave a medium (Tf-BSA) containing only HEPES, 10 μg/ml Tf, and 200 μg/ml BSA, which sustained MCF-7 and T47D cells in a slowly dividing and mitogen responsive state; ZR-75-1 cells required Tf plus 1.0 mg/ml BSA. In Tf-BSA, insulin and insulin-like growth factor I(IGF-I) were mitogenic with ED₅₀ values of 2 to 3 ng/ml and 30 to 150 pg/ml, respectively, with MCF-7 cells. The T47D cells were responsive to these factors in Tf-BSA but required 10-fold higher concentrations for ED₅₀. At saturating concentrations, insulin and IGF-I promoted 1.5 to 3.5 cell population doublings over controls in 8 d. At≤ng/ml concentrations, epidermal growth factor, insulin-like growth factor II, and basic fibroblast growth factor were mitogenic for human breast cancer cells in Tf-BSA. Mitogen activities in uterus and pituitary extracts were assayed readily in Tf-BSA. This new method offers a convenient means of comparing the potencies of growth-promoting factors on human breast cancer cells without interfering activities known to be present in serum. This work was supported by grants CA-38024 and CA-26617, from the National Cancer Institute, Bethesda, MD, and by American Cancer Society grant BC-255 and grant 2225 from the Council for Tobacco Research, USA, Inc.     

Differential effects of glucocorticoids on insulin-like growth factor I action in cultured human fibroblasts

Glucocorticoids act synergistically with insulin-like growth factor I (IGF-I) to stimulate DNA synthesis and replication of cultured human fibroblasts. In the present study, we further define glucocorticoid and IGF-I interactive effects on human fibroblast metabolism and growth. IGF-I stimulated dose-dependent increases in early metabolic events. Half-maximal effectiveness was seen at 5–8 ng/ml IGF-I, with mean maximal responses of 1.5-, 2-, and 6-fold for [³H]2-deoxyglucose uptake, [¹⁴C]glucose incorporation, and [¹⁴C]aminoisobutyric acid (AIB) uptake, respectively. A 48-hour preincubation with 10^?7 M dexamethasone markedly enhanced both the sensitivity and maximal effectiveness of IGF-I stimulation of AIB uptake. In contrast, dexamethasone had no effect on IGF-I-stimulated glucose uptake and utilization. Maximum specific binding of [125I]IGF-I to fibroblast monolayers was identical in ethanol control and glucocorticoid-treated cells, with 50% displacement at ～5 ng/ml IGF-I. In addition to its synergism with IGF-I, preincubation with dexamethasone augmented insulin and epidermal growth factor (EGF) stimulation of [³H]thymidine incorporation; dexamethasone had no effect on platelet-derived growth factor or fibroblast growth factor action. Two-dimensional gel electrophoresis identified two specific glucocorticoid-induced proteins in human fibroblast cell extracts with molecular weights of 45K and 53K and pls of 6.8 and 6.3, respectively. These data indicate that IGF-I receptor-mediated actions in human fibroblasts are differentially modulated by glucocorticoids. Glucocorticoids are synergistic with IGF-I in stimulating mitogenesis and amino acid uptake, without having any apparent effect on IGF-I-stimulated glucose metabolism. Glucocorticoid enhancement of growth factor bioactivity may involve modulation of a regulatory event in the mitogenic signaling pathway subsequent to cell surface receptor activation. © 1995 Wiley-Liss, Inc.     

Type I insulin-like growth factor receptors in human ovarian stroma

Hyperandrogenism observed in a variety of hyperinsulinemic states is thought to be due to an effect of insulin mediated through the type I insulin-like growth factor (IGF) receptors. These receptors, however, have not yet been demonstrated in normal human ovarian cells capable of androgen production. We now report the presence of type I IGF receptors in membrane preparations of human ovarian stroma. The ovarian stromal tissue was obtained from women undergoing indicated oophorectomy. Stromal plasma membranes were prepared. Specific 125I-IGF-I binding was 6.6 +/- 0.2%/100 micrograms protein. The affinity constant estimated by Scatchard analysis was 4.6 X 10(-9) M. 50% inhibition of 125I-IGF-1 binding was observed at 5 ng/ml of IGF-1. Specificity of the 125I-IGF-I-binding sites was confirmed by analogue specificity studies and in experiments utilizing monoclonal antibody to the IGF-I receptor, alpha-IR-3. IGF-II and insulin competed with 125I-IGF-I for the binding sites, but with an affinity significantly lower than that of IGF-I: 50% inhibition was observed at approximately 60 ng/ml of IGF-II or insulin. alpha-IR-3, a monoclonal antibody with high specificity for the type I IGF receptor, effectively inhibited 125I-IGF-I binding in a dose-dependent manner, confirming that the 125I-IGF-I binding was indeed to the type I IGF receptor. We conclude that type I IGF receptors are present in human ovarian stroma. These receptors may mediate effects of insulin on the ovary in hyperinsulinemic insulin-resistant states.     

Insulin-like growth factor I receptors in retinal rod outer segments

We have previously reported that the GDP-bound alpha-subunit of the GTP-binding protein transducin, present in outer segments of retinal rod cells (ROS), serves as a high affinity in vitro substrate (Km = 1 microM) for the insulin receptor kinase. The present study demonstrates that transducin also serves as in vitro substrate for an endogenous IGF-I receptor kinase isolated from ROS membranes. The presence of insulin-like growth factor I (IGF-I) receptors in ROS is evident from the high affinity and specific binding of 125I-IGF-I to ROS membranes (Kd = 3 nM) which contain 110 fmol of IGF-I binding sites/mg of membrane protein. Furthermore, cross-linking of 125I-IGF-I labels the 135-kDa alpha-subunit of this receptor. 125I-Insulin binding capacity to ROS membranes is less than 5% that of IGF-I. The IGF-I-stimulated tyrosine kinase activity in solubilized and partially purified receptors from ROS autophosphorylates its own 95-kDa beta-subunits as well as other substrates like transducin. Insulin, which is 200-fold less potent than IGF-I in competing for 125I-IGF-I binding, is only 5-fold less potent than IGF-I in stimulating the receptor kinase activity. This suggests that insulin is much more potent than IGF-I in coupling ligand binding with kinase activation. The previously reported presence of IGF-I in the vitreous, together with our present studies, strongly suggest that the IGF-I receptor kinase, through phosphorylation of endogenous proteins like transducin, could play a role in mediating transmembrane signal transduction in ROS.     

Insulin-like growth factor I (IGF-I) in a growth-enhanced transgenic (GH-overexpressing) bony fish,the tilapia (<Emphasis Type="Italic">Oreochromis niloticus</Emphasis>): indication for a higher impact of autocrine/paracrine than of endocrine IGF-I

Several lines of growth hormone (GH)-overexpressing fish have been produced and analysed for growth and fertility parameters. However, only few data are available on the growth-promoting hormone insulin-like growth factor I (IGF-I) that mediates most effects of GH, and these are contradictory. Using quantitative real-time RT-PCR, radioimmunoassay, in situ hybridization, immunohistochemistry, and radiochromatography we investigated IGF-I and IGF binding proteins (IGFBPs) in an adult (17 months old) transgenic (GH-overexpressing) tilapia (Oreochromis niloticus). The transgenics showed an around 1.5-fold increase in length and an approximately 2.3-fold higher weight than the non-transgenics. Using radioimmunoassay, the serum IGF-I levels were lower (6.22 ± 0.75 ng/ml) in transgenic than in wild-type (15.01 ± 1.49 ng/ml) individuals (P = 0.0012). Radioimmunoassayable IGF-I in transgenic liver was 4.2-times higher than in wild-type (16.0 ± 2.21 vs. 3.83 ± 0.71 ng/g, P = 0.0017). No hepatocytes in wild-type but numerous hepatocytes in transgenic liver contained IGF-I-immunoreactivity. RT-PCR revealed a 1.4-times higher IGF-I mRNA expression in the liver of the transgenics (10.51 ± 0.82 vs. 7.3 ± 0.49 pg/μg total RNA, P = 0.0032). In correspondence, in situ hybridization showed more IGF-I mRNA containing hepatocytes in the transgenics. A twofold elevated IGF-I mRNA expression was determined in the skeletal muscle of transgenics (0.33 ± 0.02 vs. 0.16 ± 0.01 pg/μg total RNA, P < 0.0001). Both liver and serum of transgenics showed increased IGF-I binding. The increased IGFBP content in the liver may lead to retention of IGF-I, and/or the release of IGF-I into the circulation may be slower resulting in accumulation of IGF-I in the hepatocytes. Our results indicate that the enhanced growth of the transgenics likely is due to enhanced autocrine/paracrine action of IGF-I in extrahepatic sites, as shown here for skeletal muscle.     

Mitogen-potentiating action and binding characteristics of insulin and insulin-like growth factors in Chinese hamster fibroblasts

alpha-Thrombin alone is able to stimulate DNA synthesis reinitiation of G0-arrested Chinese hamster lung fibroblasts (CC139) as well as continued growth of these cells in serum-free medium. Although insulin at high concentrations (1-10 micrograms/ml) is not intrinsically mitogenic for these cells, it potently enhances the growth-promoting action of thrombin. The generation time of CC139 cells in the defined medium, transferrin, alpha-thrombin, insulin, is around 15 h. To determine whether this effect of insulin is mediated via putative receptors for the insulin-like growth factors (IGFs) on these cells, we examined the abilities of two IGFs, Multiplication-Stimulating Activity (MSA) and IGF-I, to potentiate the thrombin-induced reinitiation of DNA synthesis. Both IGFs were found to be as effective as insulin for this biological effect; however, much lower concentrations were required to elicit half-maximal response, 100 ng/ml of MSA and 30 ng/ml of IGF-I. Detailed binding studies using 125I-labelled insulin, MSA, and IGF-I revealed that CC139 cells specifically bind all three polypeptides with IC50 values for the corresponding ligands of 1-2 ng/ml, 80-100 ng/ml, and 30-40 ng/ml, respectively. 125I-MSA binding was insulin-insensitive, whereas insulin did compete with 125I-IGF-I for binding to CC139 cells. These results indicate that CC139 cells possess at least two types of IGF receptors, an insulin-insensitive IGF receptor with high affinity for MSA which apparently mediates its biological effect, and an insulin-sensitive IGF-I receptor. Insulin appears to exert its mitogen-potentiating activity in CC139 fibroblasts by interacting with the IGF-I receptor.     

Binding of insulin-like growth factor-I (IGF-I) to primary cultures of chondrocytes from rat rib growth cartilage

Binding of insulin-like growth factor I (IGF-I) to cultured resting, proliferative and hypertrophic growth plate chondrocytes was investigated. The optimal binding conditions and the extent of degradation of the 125I-IGF-I at 20 degrees C were analyzed in a time-course study. The maximal binding without noticeable degradation was observed after 3 h. The binding of IGF-I to the proliferative cells was 2-fold higher than to the resting and the hypertrophic cells. On the proliferative chondrocytes two classes of receptors with different affinities were found. 125I-IGF-I could be displaced from the proliferative cells by unlabelled IGF-I, IGF-II and insulin, respectively. Half maximal binding was observed at 0.3 nmol/l (= 2.2 micrograms/l) of IGF-I, 4.3 nmol/l (= 32 micrograms/l) of IGF-II and 350 nmol/l (= 2000 micrograms/l) of insulin. No specific binding of human growth hormone (hGH) could be demonstrated. When binding of epidermal growth factor (EGF) to the proliferative cells was assessed, little, but specific binding was observed.     

Presence of insulinlike growth factor receptors and lack of insulin receptors on fetal bovine smooth muscle cells

Summary Previous investigations have demonstrated specific receptors and associated mitogenic actions for insulin and insulinlike growth factors I and II (IGF-I and II) in postnatal bovine aortic smooth muscle. Using fetal tissue we have observed different patterns of binding and action for these peptides. Smooth muscle cells isolated from near-term fetal bovine aortae were studied in early passage. Specific receptors for both IGF-I and IGF-II were identified. Specific binding averaged 5.7%/2.5×10⁵ cells for IGF-I, and 16.2% for IGF-II, and 0.3% for insulin. High affinity K _d for both IGF receptors were nanomolar. IGF-II was fivefold less potent than IGF-I in displacing IGF-I binding. IGF-I showed no affinity for the IGF-II receptor. Insulin, at physiologic concentrations, was incapable of displacing either IGF-I or IGF-II binding. Cellular incorporation of [methyl-³H]thymidine was stimulated at the lowest dose of IGF-I tested, 0.5 ng/ml. IGF-II showed no effect up to 100 ng/ml, after which a sharp increase in incorporation was noted. Insulin had a similar effect only at concentrations &gt;0.5 μg/ml, with a maximal response noted at 5 to 10 μg/ml. Our results indicate that fetal bovine aortic smooth muscle cells have an abundance of IGF receptors but lack specific insulin receptors. In addition, IGF-II binding levels are three times higher than for IGF-I. These results are consistent with observations in other species, in which a predominance of IGF over insulin receptors has been demonstrated in fetal tissue, and provide further evidence for a role for the IGFs in embryonic cellular metabolism. This project was supported by grants AM22190 (R. L. H.), AM28229 (R. G. R.) from the National Institutes of Health, Bethesda, MD, and Research Career Development Award AM01275 from the NIH (R. G. R.). Dr. Lee was the recipient of a fellowship award from the Juvenile Diabetes Foundation International and is currently supported by funds from the American Diabetes Association. Dr. Benitz is the recipient of a Clinician-Scientist Award from the American Heart Association, with funds contributed in part by the California Affiliate.     

IGF-I and IGFBP-3 transport in the rat heart

Specific binding of IGF-binding protein (IGFBP)-3 was shown to be present in the isolated, beating rat heart. The uptake of perfused (125)I-labeled IGF-I in the beating heart was decreased to 9% by blocking IGF-I binding sites with the IGF-I analog Long R(3) (LR(3)) IGF-I. When LR(3) was perfused with complexes of (125)I-IGF-I. IGFBP-3, uptake of (125)I-IGF-I was decreased to 41%, which was significantly greater than LR(3) and (125)I-IGF-I (41 vs. 9%). These data suggest that both microvessel IGF-I and IGFBP-3 binding sites contribute to the transport of IGF-I in the perfused rat heart. This also suggests a novel and plausible mechanism whereby circulating IGFs reach sites of IGF bioactivity.