Platelet-derived growth factor receptors form a high affinity state in membrane preparations. Kinetics and affinity cross-linking studies

The specific binding of 125I-PDGF (platelet-derived growth factor) to intact fibroblasts becomes relatively nondissociable during incubation at 37 degrees C. To characterize the interaction of PDGF with its receptors under conditions in which there is no receptor internalization, we have studied the binding of 125I-PDGF to membrane preparations derived from mouse 3T3 cells and rat liver. The binding sites had the affinity and specificity characteristics expected of PDGF receptors. At 37 degrees C (but not at 4 degrees C) the specific binding of 125I-PDGF to membranes gradually became nondissociable as assessed by either dilution or by addition of excess unlabeled PDGF. This tight binding was not due to a covalent interaction since the polyanionic compound suramin readily dissociated specifically bound 125I-PDGF. This property of suramin was used to expose rat liver PDGF receptors which were occupied by endogenous PDGF. Affinity cross-linking studies demonstrated that the formation of the nondissociable state of 125I-PDGF binding was associated with the binding of 125I-PDGF to a 160,000-dalton protein and to a 110,000-dalton species. The cross-linked binding sites could be adsorbed to wheat germ agglutinin and to anion exchange resins. The isoelectric point of both cross-linked species determined by two-dimensional gel electrophoresis was approximately 4.7. These data demonstrate that in membrane preparations, PDGF binds to an anionic 160,000-dalton glycoprotein which is likely to be the receptor. A high affinity state of PDGF binding, which is formed rapidly at 37 degrees C, can be dissociated by suramin.     

Interactions between the receptors for platelet-derived growth factor and epidermal growth factor

Preincubation of Swiss 3T3 cells or human fibroblasts with purified platelet-derived growth factor (PDGF) at 4 degrees C or 37 degrees C rapidly inhibits subsequent binding of 125I-epidermal growth factor (125I-EGF). The effect does not result from competition by PDGF for binding to the EGF receptor since (a) very low concentrations of PDGF are effective, (b) cells with EGF receptors but no PDGF receptors are not affected, and (c) the inhibition persists even if the bound PDGF is eluted before incubating the cells with 125I-EGF. PDGF does not affect 125I-insulin binding nor does EGF affect 125I-PDGF binding under these conditions. Endothelial cell-derived growth factor also competes for binding to PDGF receptors and inhibits 125I-EGF binding. The inhibition demonstrated by PDGF seems to result from an increase in the Kd for 125I-EGF binding with no change in the number of EGF receptors.     

Platelet-derived growth factor. II. Specific binding to cultured cells

We have prepared radioiodinated purified platelet-derived growth factor (125I-PDGF) which retains full mitogenic activity. The binding of 125I-PDGF to Swiss 3T3 cells is saturable and highly competed by whole blood serum, purified unlabeled PDGF, and by material from each stage in the purification of PDGF from platelet-rich plasma. Other purified mitogens and substances tested do not compete. 125I-PDGF binding to fibroblasts, 3T3 cells, and arterial smooth muscle cells shows an apparent dissociation constant of 10(-11) M, comparable to the range in which PDGF is mitogenic. A clone of Swiss 3T3 cells obtained from a population selected repeatedly against mitogenic response to PDGF shows a greatly reduced mitogenic response to PDGF and binds only 5% as much 125I-PDGF/cell. The binding capacity of the different cell types tested ranges from 2,500 binding sites/cell on the poorly responding variant to 390,000 binding sites/cell on one strain of Swiss 3T3 cells. Cell types that do not respond to PDGF do not show specific high affinity binding of 125I-PDGF. At 4 degrees C, 125I-PDGF binding to monolayer cultures is relatively slow. Equilibrium binding of low concentrations of 125I-PDGF is not achieved during 7 h unless the binding medium is constantly mixed. 125I-PDGF binding at 4 degrees C shows a broad pH optimum between 6.3 and 8.0. Binding does not seem to require Ca2+ or Mg2+ but is reduced more than 6-fold if both monovalent and divalent salts are omitted. The initial rate of 125I-PDGF binding is greater at 37 degrees C than at 4 degrees C but cell-associated 125I begins to decline soon after reaching a peak value at 30-60 min. Coincident with this decline, trichloroacetic acid-soluble 125I appears in the medium and the binding capacity of the cells declines. These phenomena suggest that PDGF and its receptor may be internalized and degraded.     

Protamine inhibits platelet derived growth factor receptor activity but not epidermal growth factor activity

Protamine sulfate blocked 125I-PDGF binding to its specific physiological receptor on Swiss mouse 3T3 cells. Reduced 125I-PDGF binding in the presence of protamine sulfate correlated directly with a protamine sulfate dose-dependent decrease in the PDGF-dependent incorporation of [3H]-thymidine into 3T3 cells and a decreased PDGF-stimulated tyrosine-specific protein kinase activity in isolated membrane preparations of 3T3 cells. Protamine sulfate blocked 125I-PDGF binding to simian sarcoma virus transformed cells (SSV-NIH 3T3 and SSV-NP1 cells) and to nontransformed cells in a manner qualitatively identical to unlabelled PDGF. In contrast, protamine sulfate enhanced the specific binding of 125I-EGF by increasing the apparent number of EGF receptors on the cell surface. The increase in 125I-EGF receptor binding was not prevented by cycloheximide nor by actinomycin D. Protamine sulfate did not affect 125I-EGF binding to membranes from 3T3 cells or the EGF-stimulated 3T3 cell membrane tyrosine specific protein kinase activity, suggesting that protamine sulfate may have exposed a population of cryptic EGF receptors otherwise not accessible. Protamine sulfate was fractionated into four active fractions by Sephadex G-50 gel filtration columns; the half maximum inhibition concentration of 125I-PDGF binding to 3T3 cells of protamines I and II (MW approximately 11,000 daltons and 7,000 daltons, respectively) is approximately 0.4 microM. Protamine II (MW approximately 4,800 daltons) was equally active (half maximum inhibition concentration approximately 0.4 microM); protamine IV (MW approximately 3,300 daltons) was substantially less active (half maximum inhibition concentration approximately 2.8 microM). These investigations have extended previous observations that protamine sulfate is a potent inhibitor of PDGF binding and establish that protamine sulfate blocks PDGF binding at the physiological receptor, preventing PDGF initiated biological activities. Protamine sulfate can be used as a reagent to separate the influence of PDGF and EGF on cells with high specificity and has been used to demonstrate that the receptors on simian sarcoma virus transformed 3T3 cells qualitatively respond identically to protamine sulfate as to unlabelled PDGF and are likely identical to those on nontransformed 3T3 cells.     

Kinetics of 125I-PDGF binding and down-regulation of PDGF receptor in human arterial smooth muscle cell strains during cellular senescence in vitro

Platelet-derived growth factor (PDGF) is one of the major mitogens in serum to stimulate replication of human smooth muscle cells (SMCs) in culture. Previous studies using human fibroblasts failed to demonstrate changes in the receptor systems for growth factors during cellular senescence. We investigated the kinetics of ¹²⁵I-PDGF(-BB) binding and down-regulation of the PDGF receptor in three human arterial SMC strains during cellular aging. The number of specific ¹²⁵I-PDGF binding sites per cell increased slightly at a population doubling level (PDL) of 60%–80% of life span and then decreased at the PDL above 90%. The number of receptors per cell-surface area decreased with increasing in vitro age. The apparent Kd for the ¹²⁵I-PDGF binding decreased with in vitro senescence. The internalization and degradation of ¹²⁵I-PDGF per receptor were significantly reduced in senescent SMCs than young cells. Furthermore, down-regulation of the PDGF receptor was significantly greater in sensescent SMCs than young cells. Immunoblot studies demonstrated that changes in b?-subunit of the PDGF receptor accounted for those in the studies using ¹²⁵I-PDGF and that tyrosine phosphorylation of the PDGF receptor was significantly greater in young SMCs than aged cells. Our results suggest that age-related changes in the receptor systems for PDGF may be important contributors to the failure of DNA synthesis in senescent SMCs. © 1995 Wiley-Liss, Inc.     

Differential binding, biological and biochemical actions of recombinant PDGF AA, AB, and BB molecules on connective tissue cells.

We have compared the biological and biochemical properties of recombinant PDGF AA, AB, and BB using three types of fibroblastic cells: NIH/3T3, human skin fibroblast, and fetal bovine aortic smooth muscle. PDGF binding, receptor autophosphorylation, phosphatidyl inositol hydrolysis, as well as chemotactic and mitogenic responses of the cells were analyzed. PDGF-AB and PDGF-BB showed similar receptor binding, receptor autophosphorylation, and potent biological activity for all three of the cell types tested. In contrast, PDGF-AA was biologically active only for the NIH/3T3 cells in which binding sites for PDGF-AA were abundant, but was inactive for bovine aortic smooth muscle cells and human skin fibroblasts in which binding sites for PDGF-AA were absent. PDGF-AA could not induce any biochemical changes in the human skin fibroblasts or smooth muscle cells. Western blot studies with anti-Type alpha and beta PDGF receptor antibodies indicate that the NIH/3T3 cells contained both PDGF alpha and beta receptors, whereas the human skin fibroblasts and bovine smooth muscle cells contained only detectable levels of beta receptors. These results indicate that cells possessing high levels of PDGF beta receptors only are capable of responding equally well to either PDGF AB or BB.     

DNA synthesis in U-2 OS human osteosarcoma cells is independent of PDGF binding to functional cell surface receptors

Previous studies have shown that suramin reveals specific PDGF binding sites on U-2 OS human osteosarcoma cells. Studies presented here indicate that U-2 OS cells pretreated with suramin internalize and degrade 125I-PDGF and respond to PDGF by increased tyrosine kinase activity and amino acid transport. However, DNA synthesis in these cells is not reduced by incubation with the PDGF blocking agent suramin and is not stimulated by exogenous PDGF. These data indicate that U-2 OS cells possess functional PDGF receptors but that high levels of DNA synthesis in these cells is unrelated to the binding of secreted PDGF to these cell surface receptors. Thus, it is unlikely that the PDGF mitogen produced by U-2 OS cells stimulates proliferation through an autocrine mechanism involving secretion and subsequent binding to PDGF receptors.     

Characterization of a Mr 20,000 basic fibroblast growth factor-like protein secreted by normal and transformed fetal bovine aortic endothelial cells

A mitogenic and plasminogen activator (PA)-inducing activity for endothelial cells has been identified in serum-free culture medium of normal AG 7680 and transformed tumorigenic GM 7373 fetal bovine aortic endothelial (FBAE) cells. The activity binds to heparin-Sepharose and it is quenched by polyclonal anti-human placental basic fibroblast growth factor (bFGF) antibodies. In the serum-free conditioned medium of FBAE cells, the anti-bFGF antiserum recognizes an immunorective Mr 20,000 molecule which co-purifies with the mitogenic and PA-inducing activity on a heparin-Sepharose column. The partially purified Mr 20,000 bFGF-like molecule competes with the typical Mr 18,000 125I-bFGF form for the binding to high-affinity bFGF receptors in intact GM 7373 cells. Immunoprecipitation of biosynthetically labeled GM 7373 cells with anti-bFGF antiserum confirms the presence of a Mr 20,000 bFGF-like molecule in the conditioned medium of these cells and identifies the typical Mr 16,000 and Mr 18,000 bFGF forms and two high-molecular-weight immunoreactive Mr 22,000 and Mr 25,000 bFGF forms in their cell extract. Immunoreactive Mr 20,000 bFGF is detectable also in the conditioned medium of transformed nontumorigenic FBAE GM 7372 cells and of adult bovine aortic endothelial cells, but not in the culture medium of nonendothelial cell types, including rat and mouse fibroblasts, human hepatoma, and human endometrial adenocarcinoma cells. The results indicate that bovine endothelial cells secrete a Mr 20,000 bFGF-like molecule which shares several biological, biochemical, and immunological characteristics with the typical cell-associated Mr 18,000 bFGF.     

Kinetics of 125I-PDGF binding and down-regulation of PDGF receptor in arterial smooth muscle cells derived from patients with moyamoya disease

Progressive stenosis or occlusion of bilateral internal carotid arteries by fibrocellular intimal thickening results in cerebral ischemia in moyamoya disease. We recently found that cultured smooth muscle cells (SMC) derived from arteries of patients with moyamoya disease responded poorly to serum mitogens, especially to platelet-derived growth factor (PDGF). In the present study, we investigated further the binding and processing of ¹²⁵I-PDGF, as well as down-regulation of the PDGF receptors in arterial SMC derived from patients with moyamoya disease. The specific binding sites of ¹²⁵I-PDGF were reduced significantly at both 4°C and 22°C on SMC from moyamoya disease compared with those from controls (4.78 vs. 11.92 × 10⁴/cell at 4°C), though the apparen dissociation constant (Kd) were the same. Kinetics of ¹²⁵I-PDGF binding at 37°C in cells from moyamoya disease showed fewer binding sites (less than 1/3 of controls) and lower degradation per cell than in those from controls, though no difference was observed in either internalization or degradation of each receptor. When SMC were exposed to lower concentrations of nonlabeled PDGF at 37°C, the percentage of remaining binding sites on cells from moyamoya disease was significantly less than that from controls. This excess down-regulation of PDGF receptor in SMC from moyamoya disease may be interpreted as insufficent recycling or a decreased intracellular pool of the PDGF receptor. These results are closely correlated with the diminished proliferation responses to PDGF in SMC from moyamoya disease and provide evidence that functional alterations in vascular cells are involved in the mechanism of development of intimal thickening in moyamoya disease. © 1993 Wiley-Liss, Inc.     

Aortic endothelial cells synthesize basic fibroblast growth factor which remains cell associated and platelet-derived growth factor-like protein which is secreted

Cultured bovine aortic endothelial cells synthesize growth factors which markedly differ in the regulation of their storage and secretion. Endothelial cell lysates, but not conditioned medium, contain a growth factor activity that appears to be basic fibroblast growth factor (FGF) by the following criteria: (1) it elutes from heparin-Sepharose at 1.4-1.6 M NaCl; (2) it is mitogenic for bovine aortic and capillary endothelial cells; (3) it is heat sensitive but stable to dithiothreitol; (4) it has a molecular weight of about 18,000 daltons; and (5) it cross-reacts with antiserum directed against basic FGF. In contrast, endothelial cell conditioned medium, but not lysates, contains a growth factor activity that (1) elutes from heparin-Sepharose at 0.4-0.5 M NaCl; (2) is mitogenic for fibroblasts and vascular smooth muscle cells but not for capillary endothelial cells; (3) is heat stable and dithiothreitol sensitive; and (4) competes with platelet-derived growth factor (PDGF) for binding to fibroblasts. From these criteria, it appears that endothelial cells secrete into the medium growth factors some of which are PDGF-like, but secrete little if any basic FGF. It is suggested that endothelial cell-associated basic FGF acts in an autocrine fashion to stimulate endothelial cell proliferation in response to endothelial cell perturbation or injury. On the other hand, the endothelial cell-secreted growth factors which are smooth muscle cell but not endothelial cell mitogens might exert a paracrine function on neighboring cells of the vessel wall.     

Characterization of two monoclonal antibodies reactive with the external domain of the platelet-derived growth factor receptor

Two monoclonal antibodies against the receptor for platelet-derived growth factor (PDGF) were obtained by immunizing mice with pure PDGF receptor preparations derived from porcine uterus. The antibodies, denoted PDGFR-B1 and PDGFR-B2, both bound to the external domain of the receptor, as demonstrated by indirect immunofluorescence and binding of 125I-labeled antibodies to intact human fibroblasts. Both antibodies precipitated pure 175-kDa 32P-labeled autophosphorylated porcine PDGF receptor as well as a Mr 175,000 glycoprotein from metabolically labeled cells. The monoclonal antibodies did not inhibit binding of 125I-PDGF to human fibroblasts and did not stimulate these cells to undergo mitosis. Both antibodies induced clustering and down-regulation of their antigen. However, this resulted in only a partial loss of cell surface binding sites for PDGF itself, consistent with the conclusion that the monoclonals recognized only one of two or several receptors for PDGF. Clustering and down-regulation were not seen when the cells were incubated with monovalent Fab' fragments of the PDGFR-B2 antibody. The antibodies also stimulated autophosphorylation of pure PDGF receptor, and PDGFR-B2 was shown to stimulate phosphorylation of phosphofructokinase, an exogenous substrate for the PDGF receptor kinase. High concentrations of PDGFR-B2 antibody, or Fab' fragments thereof, failed to enhance the PDGF receptor kinase activity, compatible with the possibility that dimerization was of importance in the antibody-stimulated kinase activity of purified PDGF receptors.     

Comparison of intracellular and extracellular mitogenic activity

Endothelial cell-derived growth factor (ECDGF) is a soluble mitogen secreted in vitro by bovine aortic endothelium. ECDGF is a mixture of at least two distinct heat-stable and trypsin-sensitive mitogens. Large amounts of mitogenic activity were found in lysates prepared from cultured endothelial cells. Other nonmitogen-secreting cells in culture, including bovine dermal fibroblasts and vascular smooth muscle cells, also contained a similar activity. In contrast to ECDGF, the lysate mitogenic activities were sensitive to heat (56 degrees C) and were not inactivated by trypsin. Similar to platelet-derived growth factor (PDGF), ECDGF and cell lysate mitogens promoted cell proliferation in the absence of other defined mitogens when added to culture medium and after exposure to plastic. The cytoplasmic mitogens, however, were distinct from PDGF by receptor competition assays and other criteria.     

Suramin binds to platelet-derived growth factor and inhibits its biological activity

The polyanion suramin was recently found to inhibit binding of 125I-PDGF (platelet-derived growth factor) to Balb/c 3T3 cell membranes. Cultured Swiss 3T3 cells were used to investigate the mode of action of suramin and to monitor its effect on the biological activity of PDGF. Evidence is presented that suramin inhibits cellular binding of PDGF by binding to PDGF itself, thereby preventing it from binding to its cell surface receptor: First, while suramin inhibited 125I-PDGF binding with a half maximum inhibition concentration of approximately 60 microM or 90 micrograms/ml in a simultaneous competition assay, it was inactive in a sequential radioreceptor assay, in which an inhibitor is expected to be active if it interacts with the receptor (even with relatively low affinity) but to be inactive if it interacts with PDGF. Second, suramin prevented immunoprecipitation of 125I-PDGF in a dose-dependent manner, with a half maximum effective concentration of approximately 50 microM. Furthermore, suramin efficiently dissociated 125I-PDGF bound to its cell surface receptor, whereas unlabeled PDGF even in large excess was virtually inactive. This is also in line with the proposed direct interaction between PDGF and suramin, since such an interaction can be envisaged to induce a conformational change in the PDGF-receptor complex, resulting in an increased off-rate of the complex. Reduced 125I-PDGF binding in the presence of suramin correlated directly with a suramin dose-dependent inhibition of PDGF-induced incorporation of 3H-thymidine into quiescent Swiss 3T3 cells and of the proliferation of these cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Neomycin is a platelet-derived growth factor (PDGF) antagonist that allows discrimination of PDGF alpha- and beta-receptor signals in cells expressing both receptor types.

The aminoglycoside neomycin has recently been found to affect certain platelet-derived growth factor (PDGF) responses in C3H/10T1/2 C18 fibroblasts. Using porcine aortic endothelial cells transfected with PDGF alpha- or beta-receptors, we explored the possibility that neomycin interferes with the interaction between the different PDGF isoforms and their receptors. We found that neomycin (5 mM) inhibited the binding of 125I-PDGF-BB to the alpha-receptor with only partial effect on the binding of 125I-PDGF-AA; in contrast, the binding of 125I-PDGF-BB to the beta-receptor was not affected by the aminoglycoside. Scatchard analyses showed that neomycin (5 mM) decreased the number of binding sites for PDGF-BB on alpha-receptor-expressing cells by 87%. Together with cross-competition studies with 125I-labeled PDGF homodimers, the effect of neomycin indicates that PDGF-AA and PDGF-BB bind to both common and unique structures on the PDGF alpha-receptor. Neomycin specifically inhibited the autophosphorylation of the alpha-receptor by PDGF-BB, with less effect on the phosphorylation induced by PDGF-AA and no effect on the phosphorylation of the beta-receptor by PDGF-BB. Thus, neomycin is a PDGF isoform- and receptor-specific antagonist that provides a possibility to compare the signal transduction pathways of alpha- and beta-receptors in cells expressing both receptor types. This approach was used to show that activation of PDGF beta-receptors by PDGF-BB mediated a chemotactic response in human fibroblasts, whereas activation of alpha-receptors by the same ligand inhibited chemotaxis.     

Platelet-derived growth factor. III. Identification of a platelet-derived growth factor receptor by affinity labeling

Two homobifunctional cross-linking reagents have been used to cross-link 125I-platelet-derived growth factor (PDGF) to a cell surface component with an approximate Mr = 164,000 that has many characteristics of a specific PDGF receptor. Excess unlabeled PDGF competed for labeling of this component, while high concentrations of fibroblast growth factor, insulin, epidermal growth factor, low density lipoprotein or acetylated low density lipoprotein had no effect. Preincubation of cells with 125I-PDGF at 37 degrees C reduced specific 125I-PDGF binding (down regulation) and produced a parallel decrease in the amount of the 164,000-dalton receptor available for labeling. The 164,000-dalton component contains at least some protein that is accessible to trypsin in the extracellular medium. A complex of comparable Mr is seen on all PDGF-responsive cell types examined, but not on a nonresponsive cell type. 125I-PDGF does not become covalently cross-linked to this component in the absence of a cross-linking reagent.     

Isolation and characterization of vasoformative endothelial cells from the rat aorta

Summary We describe here a modified nonenzymatic method for the isolation of rat aortic endothelial cells with vasoformative properties. Aortic rings placed on plastic or gelatin-coated surfaces generated outgrowths primarily composed of endothelial cells. Prompt removal of aortic explants after endothelial migration minimized fibroblast contamination. However, fibroblasts, because of their high proliferative rate tended to overgrow the endothelial cells even when present in small numbers. This potential pitfall was avoided by weeding out fibroblasts with the rounded tip of a bent glass pipette. Primary endothelial colonies free of fibroblasts were segregated in cloning rings, trypsin-treated, and transferred to gelatin-coated dishes. Endothelial cells were cultured in MCDB 131 growth medium containing 10% fetal bovine serum, endothelial cell growth supplement, and heparin. Using this technique, pure endothelial cell strains were obtained from single aortic rings. Confluent endothelial cells formed a contact-inhibited monolayer with typical cobblestone pattern. The endothelial cells were positive for Factor VIII-related antigen, took up DiI-Ac-LDL, and bound the Griffonia Simplicifolia-isolectin-B4. Endothelial cells cultured on collagen gel formed a polarized monolayer, produced basement membrane, displayed Weibel-Palade bodies and caveolae, and were connected by tight junctions. In addition, they reorganized into a network of microvascular cords and tubes when overlaid with a second layer of collagen and formed microvascular sprouts in response to fibroblast-conditioned medium. This isolation procedure yields stable strains of vasoformative endothelial cells, which can be used to study aortic endothelium-related angiogenesis and its mechanisms.     

PDGF-stimulated fibroblast proliferation is enhanced synergistically by receptor-recognized alpha 2-macroglobulin.

alpha-Macroglobulins derived from plasma or secreted by macrophages are platelet-derived growth factor (PDGF) binding proteins that compete with cell-surface receptors on fibroblasts for PDGF binding. alpha 2-Macroglobulin (alpha 2M) derived from bovine plasma was tested for its ability to modulate the PDGF-induced proliferation of primary passage rat lung fibroblasts (RLFs) and a human skin fibroblast cell line (CRL 1508). Fibroblasts were grown in 10% fetal bovine serum (FBS) for 24 hr, then washed with serum-free medium before adding serum-free defined medium (SFDM) containing insulin and transferrin. To this medium were added varying concentrations of human plasma-derived AB-PDGF and alpha 2 M, alone or in combination. Receptor-recognized alpha 2M was prepared by treatment with methylamine. Both native alpha 2M and the alpha 2M-methylamine (alpha 2M-MA) were tested for growth promoting activity in the absence or presence of PDGF. After 3 days, a concentration-dependent growth curve of fibroblast proliferation was demonstrated for PDGF alone, with near maximal stimulation reached at 15-20 ng/ml PDGF. alpha 2M and alpha 2M-MA alone had no effect on cell proliferation. However, alpha 2M-MA concentrations above 32 micrograms/ml synergistically enhanced PDGF-stimulated proliferation greater than 100% in the presence of 15 ng/ml PDGF. Native alpha 2M enhanced PDGF-stimulated growth 80-100% above PDGF controls only at low concentrations (32-64 micrograms/ml alpha 2M). High concentrations of native alpha 2M (128-256 micrograms/ml) either had no effect on growth or were inhibitory to PDGF-stimulated growth, depending on the cell type tested. Rat lung fibroblasts were shown to secrete a factor(s) that inhibited the trypsin-binding capacity of native alpha 2M. We further demonstrated that early passage RLFs possess specific cell-surface receptors for [125I]-PDGF and [125I]-alpha 2M-MA, and preincubation of RLFs with alpha 2M-MA increased the specific binding of [125I]-PDGF to the cell surface of these fibroblasts. Considered together, these data support the view that receptor-recognized alpha 2M synergistically enhances the proliferative capacity of PDGF. We postulate that receptor-recognized alpha Ms enhance PDGF-stimulated growth by increasing the local concentration of PDGF at the cell surface, where the PDGF could be released in close proximity to its own receptors.     

Ligand activation causes a phosphorylation-dependent change in platelet-derived growth factor receptor conformation

The effect of ligand binding on platelet-derived growth factor (PDGF) receptor conformation was examined using peptide antibodies directed against specific receptor domains. Antiserum 83, which was directed to the receptor's carboxyl terminus (residues 934-951), preferentially immunoprecipitated the ligand-activated form of the PDGF receptor from 35S-labeled BALB/c 3T3 cells. By contrast, two antisera directed against other receptor sequences precipitated unactivated and activated receptors equally well. Denatured receptors were recognized equally by all antisera, even 83. Thus, ligand activation caused a change in PDGF receptor conformation that enhanced accessibility of the antibody to the carboxyl terminus. The activated receptor conformation was induced by three different forms of PDGF (AA and BB homodimers and AB heterodimers) and was reversed by suramin, a polyanionic compound that dissociates PDGF from the receptor. The inhibitory effect of suramin on receptor conformation was abolished by the phosphatase inhibitor, sodium orthovanadate, suggesting that receptor phosphorylation mediated the conformational change. In a cell-free assay, the change in receptor conformation was induced by PDGF only in the presence of ATP and was inhibited by adenyl-5'-yl imidodiphosphate, a nonhydrolyzable analog of ATP. The functional significance of receptor conformation was examined in Chinese hamster ovary fibroblasts transfected with wild-type or mutated forms of the PDGF receptor. When receptor tyrosine kinase activity was abolished by a mutation of the ATP binding site the receptor no longer underwent PDGF-induced conformational change and did not mediate PDGF-induced mitogenesis even though 125I-PDGF binding was normal. These findings show that ligand binding elicits a phosphorylation-dependent change in PDGF receptor conformation that may be important for receptor function.     

Cytolytic T cells recognize the two amino-terminal domains of H-2 K antigens in tandem in influenza A infected cells

Simian sarcoma virus-transformed NIH 3T3 (SSV-NIH 3T3) and SSV-NRK cells secrete a potent growth-promoting activity identical with the platelet-derived growth factor (PDGF) in mitogenic assays. The secreted activity is blocked by anti-PDGF antisera and competes with 125I-PDGF for receptor binding, suggesting that the secreted protein is the transforming protein of SSV, p28v-sis, or its processed product. Secreted p28v-sis appears to stimulate autocrine cell growth of SSV-transformed cells because anti-PDGF antisera block 3H-thymidine incorporation into growing SSV-NIH 3T3 and SSV-NRK cells. SSV-transformed cells have reduced numbers of high-affinity 125I-PDGF receptors; PDGF/p28v-sis receptor was purified from SSV-NIH 3T3 cells and retained active protein tyrosine kinase activity stimulated by PDGF. The rate of tumor growth in athymic nude mice injected with SSV-transformed cells was compared with levels of secreted growth factor activity. The rate of tumor growth in nude mice correlated directly with levels of p28v-sis secreted by SSV-transformed cells.