Dissociation of platelet-derived growth factor (PDGF) receptor autophosphorylation from other PDGF-mediated second messenger events.

Activated p21ras alters the platelet-derived growth factor (PDGF) signal transduction pathway in fibroblasts by inhibiting autophosphorylation of the receptor as well as by inhibiting the induction of the growth-related genes c-myc, c-fos, and JE. To elucidate the cause and effect relationships between receptor autophosphorylation and other second messenger events in the PDGF signaling pathway we created revertants of v-ras transformed cells by two methods: 1) the use of cAMP analogues, and 2) the introduction of a gene, Krev-1, which has been reported previously to revert ras transformed cells to normal morphology. Analysis of the revertants shows that the PDGF-mediated tyrosine phosphorylation of the 180-kDa PDGF receptor remains inhibited; however, the PDGF-mediated activation of phospholipase C and the induction of the growth-related genes c-myc, c-fos, and JE have been restored. These data suggest the presence of parallel pathways for PDGF signal transduction which are not dependent on autophosphorylation of the PDGF receptor.     

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.     

Deletion of the kinase insert sequence of the platelet-derived growth factor beta-receptor affects receptor kinase activity and signal transduction.

A characteristic feature of the platelet-derived growth factor (PDGF) beta-receptor is the presence of an insert sequence in the protein tyrosine kinase domain. A receptor mutant which lacks the entire insert of 98 amino acids was expressed in CHO cells, and its functional characteristics were compared with those of the wild-type receptor. The mutant receptor bound PDGF-BB with high affinity and mediated internalization and degradation of the ligand with efficiency similar to that of the wild-type receptor but did not transduce a mitogenic signal. It was found to display a decreased autophosphorylation after ligand stimulation and had a decreased ability to phosphorylate exogenous substrates; phosphofructokinase was not phosphorylated at all, whereas a peptide substrate was phosphorylated, albeit at a lower rate compared with phosphorylation by the wild-type receptor. Furthermore, the mutant receptor did not mediate actin reorganization but mediated an increase in c-fos expression. The data indicate that the insert in the kinase domain of the PDGF beta-receptor is important for the substrate specificity or catalytic efficiency of the kinase; the deletion of the insert interferes with the transduction of some, but not all, of the signals that arise after activation of the receptor.     

Increased glutathione synthesis associated with platelet-derived growth factor stimulation of NIH3T3 fibroblasts

Previous data show a relation between GSH content and proliferation of normal and tumour cells. We recently demonstrated a specific involvement of GSH in the autophosphorylation activity of the platelet-derived growth factor (PDGF) receptor in NIH3T3 fibroblasts. In this study we demonstrate that the stimulation by PDGF of serum-starved NIH3T3 cells increases cellular GSH content, while no change in oxidized GSH content was measured. Experiments performed with actinomycin, cycloheximide and buthionine sulfoximide, a specific inhibitor of the rate-limiting enzyme of the de novo synthesis of GSH gamma-glutamylcysteine synthetase (gamma-GCS), confirm PDGF induction of GSH synthesis. These results provide the first demonstration that PDGF mediated transduction signals seem strictly related to mechanisms involved in the increase of gamma-GCS activity associated with increased gamma-GCS heavy subunit mRNA levels. In fact, serum and epidermal growth factor (EGF) stimulation of quiescent NIH3T3 and NIH3T3, which overexpress EGF receptor, does not affect GSH content or its synthesis. These data may be related to a possible GSH role in the redox regulation of cell proliferation mediated by PDGF.     

Oncogenic ras induces an inhibitor of double-stranded RNA-dependent eukaryotic initiation factor 2 alpha-kinase activation.

The interferon-inducible 68-kDa dsRNA-dependent eIF2 alpha-kinase (dsI) is a potent cellular antiviral enzyme which is activated by autophosphorylation in response to double-stranded RNA (dsRNA). Activated dsI has also been implicated as a second messenger for gene induction by platelet-derived growth factor (PDGF) and interferon (IFN). We have shown previously that introduction of a transforming ras gene into BALB/c-3T3 fibroblasts blocks induction of responsive genes by PDGF and IFN. We therefore investigated the effect of transforming ras genes on dsI activity in these cells. We report here that dsRNA-mediated activation of dsI is blocked in v-ras-containing cells in a manner specific to ras and not attributable to the transformed phenotype since: 1) a dexamethasone-inducible v-Ha-ras gene produced the effect within 18 h of induction; 2) morphologic reversion of ras-transformed cells with cAMP or the Krev-1 gene restored potential for dsI activation; and 3) transformation by v-mos or v-abl had no effect on dsI activation. Latent dsI levels were unaffected by v-ras. A heat-sensitive dsI inhibitory activity could be demonstrated in v-ras-containing cells which functioned in trans when mixed with untransformed cell extracts prior to stimulation with dsRNA. The inhibitory activity, which was destroyed by phenol-chloroform extraction, did not bind dsRNA.     

Tyr-716 in the platelet-derived growth factor beta-receptor kinase insert is involved in GRB2 binding and Ras activation.

Ligand stimulation of the platelet-derived growth factor (PDGF) beta-receptor leads to activation of its intrinsic tyrosine kinase and autophosphorylation of the intracellular part of the receptor. The autophosphorylated tyrosine residues mediate interactions with downstream signal transduction molecules and thereby initiate different signalling pathways. A pathway leading to activation of the GTP-binding protein Ras involves the adaptor molecule GRB2. Here we show that Tyr-716, a novel autophosphorylation site in the PDGF beta-receptor kinase insert, mediates direct binding of GRB2 in vitro and in vivo. In a panel of mutant PDGF beta-receptors, in which Tyr-716 and the previously known autophosphorylation sites were individually mutated, only PDGFR beta Y716F failed to bind GRB2. Furthermore, a synthetic phosphorylated peptide containing Tyr-716 bound GRB2, and this peptide specifically interrupted the interaction between GRB2 and the wild-type receptor. In addition, the Y716(P) peptide significantly decreased the amount of GTP bound to Ras in response to PDGF in permeabilized fibroblasts as well as in porcine aortic endothelial cells expressing transfected PDGF beta-receptors. The mutant PDGFR beta Y716F still mediated activation of mitogen-activated protein kinases and an increased DNA synthesis in response to PDGF, indicating that multiple signal transduction pathways transduce mitogenic signals from the activated PDGF beta-receptor.     

Growth-promoting effect of platelet-derived growth factor on rat cardiac myocytes

Platelet-derived growth factor (PDGF) is a dimeric molecule consisting of disulfide-bonded A- and B-polypeptide chains. Homodimeric (PDGF-AA, PDGF-BB) as well as heterodimeric (PDGF-AB) isoforms exert their effects on target cells by binding with different specificities to two structurally related protein tyrosine kinase receptors, denoted alpha- and beta-receptors. PDGF stimulates growth in various cell types, but little is known about its effect on mammalian cardiomyocytes. Therefore, growth-promoting effect of PDGF on rat cardiomyocytes was investigated. Primary culture of neonatal rat ventricular myocytes was prepared and cellular growth was estimated by [3H]-leucine incorporation assay. Tyrosine-phosphorylated PDGF-beta receptor of cardiomyocytes was determined by immunoblotting analysis after immunoprecipitation. PDGF-beta receptor, extracellular signal-regulated kinase (ERK) 1/2 and phosphorylated ERK1/2 of cardiomyocytes were measured by immunoblotting analysis. [3H]-leucine incorporation into the cultured myocytes was increased in a time- and dose-dependent manner after PDGF-BB stimulation. Phosphorylation of PDGF-beta receptor and ERK1/2 in cardiomyocytes was increased after short-term stimulation of PDGF-BB. Protein expression of PDGF-beta receptor and ERK1/2 was increased after long-term stimulation of PDGF-BB. [(3)H]-leucine incorporation into the cultured myocytes induced by PDGF-BB was partly blocked by mitogen-activated ERK-activating kinase (MEK) inhibitor PD98059, phospholipase C (PLC) inhibitor U73122, and protein kinase C (PKC) inhibitor staurosporin aglycone, respectively. Therefore, PDGF beta receptor, ERK1/2, PLC and PKC are involved in the signal transduction of PDGF-induced growth response of rat cardiac myocytes.     

Identification of two juxtamembrane autophosphorylation sites in the PDGF beta-receptor; involvement in the interaction with Src family tyrosine kinases.

Two novel sites of autophosphorylation were localized to the juxtamembrane segment of the human platelet-derived growth factor (PDGF) beta-receptor. To evaluate the importance of these phosphorylation sites, receptor mutants were made in which Tyr579, Tyr581 or both were replaced with phenylalanine residues; the receptor mutants were stably expressed in porcine aortic endothelial cells. Compared with the wild-type receptor, the Y579F and Y581F mutants were less able to mediate association with and activation of the Src family tyrosine kinases. The ability of these phosphorylation sites to mediate directly the binding of the Src family proteins was also demonstrated by using phosphotyrosine-containing synthetic peptides representing the juxtamembrane sequence of the receptor. Both the Y579F and Y581F mutants were similar to the wild-type receptor with regard to their protein tyrosine kinase activity and ability to induce mitogenicity in response to PDGF-BB. A conclusive evaluation of the role of the Src family members in signal transduction could, however, not be made since our attempt to prevent completely the association by mutation of both Tyr579 and Tyr581, resulted in loss of kinase activity and was therefore not informative. The present data, together with previous observations, demonstrate a high degree of specificity in the interaction between different autophosphorylation sites in the PDGF beta-receptor and downstream components in the signal transduction pathway.     

Dimerization of B-type platelet-derived growth factor receptors occurs after ligand binding and is closely associated with receptor kinase activation

Platelet-derived growth factor (PDGF) was found to induce dimerization of purified B-type PDGF receptors, as analyzed by sodium dodecyl sulfate gel electrophoresis after covalent cross-linking using disuccinimidyl suberate. PDGF-BB was 20-fold more effective than PDGF-AB; PDGF-AA was without effect. The dimerization was dose-dependent and was maximal at 0.5-2 micrograms/ml PDGF-BB; at higher concentrations dimerization was less abundant. This indicates that dimerization occurred when one PDGF-BB molecule bound two receptor molecules. The dimerization correlated to activation of the tyrosine kinase of the receptor, determined as autophosphorylation, but was not dependent on phosphorylation reactions because it occurred also in the absence of ATP. Furthermore, dimerization of the receptor correlated with the ability to phosphorylate phosphofructokinase, an exogenous substrate. The complex of ligand and receptor dimer was stable; it resisted electrophoresis under nondenaturing conditions, as well as gel chromatography. The present data indicate that intermolecular mechanisms are involved in signal transduction from the external ligand binding domain to the internal effector domains of the B-type PDGF receptor.     

Selective Inhibition of Platelet-Derived Growth Factor (PDGF) Receptor Autophosphorylation and PDGF-Mediated Cellular Events by a Quinoline Derivative

This report describes the biological effects of our original compound, Ki6783 ((3,4-dimethoxy)-4-phenoxy-6,7-dimethoxyquinoline), a potent and selective inhibitor of platelet-derived growth factor (PDGF) receptor autophosphorylation. This compound strongly inhibited autophosphorylation of the PDGF β-receptor in cultured rat glomerular mesangial cells (MC) bearing this receptor (IC₅₀0.1 μM), although it did not inhibit autophosphorylation of other growth factor receptors even at 100 μM.In a cell-free kinase experiment, it showed selective inhibition of PDGF β-receptor tyrosine kinase. A kinetic study of the compound to this tyrosine kinase revealed a competitive mode of action to ATP. [³H]Thymidine incorporation and cell proliferation of MC were inhibited by Ki6783 in a dose-dependent manner after Ki6783 and PDGF-BB were added to the culture medium. Furthermore, this compound normalized the fibrotic cell shape of v-sis-transformed NIH3T3 cells, which grow in an autocrine manner via the PDGF receptor. These effects could be explained by the inhibition of intracellular signal transduction triggered by PDGF receptor autophosphorylation, in which activation of mitogen-activated protein kinase occurs. These results suggest that Ki6783 is one of the more potent and selective inhibitors of PDGF receptor autophosphorylation and that it may be useful in ameliorating cell abnormalities due to excess action of PDGF and its receptor systems in several diseases.     

Mutation of Tyr697, a GRB2-binding site, and Tyr721, a PI 3-kinase binding site, abrogates signal transduction by the murine CSF-1 receptor expressed in Rat-2 fibroblasts.

The receptor for the myeloid cell growth factor colony stimulating factor 1 (CSF-1) is a protein tyrosine kinase that is closely related to the PDGF receptor. Ligand binding results in kinase activation and autophosphorylation. Three autophosphorylation sites, Tyr697, Tyr706 and Tyr721, have been mapped to the kinase insert domain. Deletion of the entire kinase insert domain completely abrogates signal transduction by the CSF-1 receptor expressed in Rat-2 fibroblasts. To investigate the function of individual phosphorylation sites present in the CSF-1 receptor kinase insert domain, a number of phosphorylation site mutants were expressed in Rat-2 fibroblasts. Mutation of either Tyr697 or Tyr721 compromised signal transduction by the CSF-1 receptor. A mutant receptor, in which both Tyr697 and Tyr721 were replaced by phenylalanine, has lost all ability to induce changes in morphology or to increase cell growth rate in response to CSF-1. Tyr721 has been identified recently as the binding site for PI 3-kinase. Here we report that GRB2 associates with the CSF-1 receptor upon ligand binding. The phosphorylation on tyrosine of SHC and several other GRB2-associated proteins increased upon stimulation with CSF-1. Tyr697 was identified as a binding site for GRB2. We suggest that PI 3-kinase, GRB2 and some of the GRB2-associated proteins could play an important role in signal transduction by the CSF-1 receptor.     

Mitogenic effect of transforming growth factor beta 1 on human fibroblasts involves the induction of platelet-derived growth factor alpha receptors

Platelet-derived growth factor (PDGF) and transforming growth factor beta (TGF-beta), potent modulators of mesenchymal cell growth and differentiation, are often colocalizable in vivo. Previous in vitro studies in fibroblastic cell lines have shown variable, even antagonistic effects of TGF-beta on the mitogenic action of PDGF. This study demonstrates that in diploid human dermal fibroblasts, TGF-beta 1 is weakly mitogenic in the absence of serum or purified growth factors, and that TGF-beta 1 potentiates DNA synthesis in PDGF-stimulated fibroblasts with delayed kinetics when compared to stimulation with PDGF alone. TGF-beta 1 enhances mitogenic potency of all three PDGF isoforms and increases receptor binding of both 125I PDGF-AA and 125I PDGF-BB, consistent with the increased expression of the alpha type PDGF receptor. The induction of PDGF alpha receptor subunits by TGF-beta may play a role in enhancing the proliferative potential of human fibroblasts in certain physiologic and pathologic conditions.     

Expression of platelet-derived growth factor-beta receptors on human fibroblasts. Regulation by recombinant platelet-derived growth factor-BB, IL-1, and tumor necrosis factor-alpha.

Stimulation of human fibroblasts by platelet-derived growth factor (PDGF)-BB leads to a down-regulation of PDGF beta-receptors and a concomitant appearance of intracellular granular accumulations of receptors, as determined by stainings with the mAb PDGFR-B2. The granules contained both the ligand and PDGF beta-receptors, as revealed by double-immunofluorescence staining, and were formed in response to PDGF-BB but not in response to other cytokines tested. The formation of intracellular PDGF beta-receptor granules was dependent on PDGF-BB concentration and time of stimulation. The granular PDGF beta-receptor staining on cells treated with PDGF-BB for 1 h at 37 degrees C was used to investigate the effects of macrophage-derived cytokines on PDGF beta-receptor expression. The number of PDGF beta-receptor granules was found to be reduced in fibroblasts grown for 48 h in the presence of PDGF-BB, TNF-alpha, or IL-1; PDGF-AA under the same conditions had no effect. The reduction observed was paralleled by a decrease in cell surface expression of PDGF beta-receptors, measured as binding of 125I-PDGF-BB and of the PDGFR-B2 antibody. Furthermore, both TNF-alpha and IL-1 decreased the detergent-extractable pool of PDGF-beta receptors in the fibroblasts, as revealed by immunoblotting of detergent cell extracts. Finally, the decrease in PDGF beta-receptors after culturing of the cells in the presence of TNF-alpha and IL-1 was accompanied by a decreased incorporation of [3H]thymidine in response to PDGF-BB stimulation. In conclusion, our data suggest that certain macrophage-derived cytokines can modulate the expression of PDGF beta-receptors by cultured fibroblasts, which may contribute in part to their reduced responsiveness to PDGF.     

Insulin stimulation of gene expression mediated by p21ras activation.

In fibroblasts, insulin is a weak mitogen and does not induce expression of c-fos, c-jun or p33. However, increasing the expression levels of either normal p21Hras or the insulin receptor, but not mutant p21Hras, enables insulin to induce the expression of these genes. In cells expressing elevated levels of insulin receptor, this process involves a rapid increase in p21rasGTP levels (from 20% to 70% GTP as a percentage of total guanine nucleotides). No increase in p21rasGTP levels was observed after PDGF and EGF stimulation of cells expressing high levels of the cognate receptor, stressing the specificity of the insulin-induced increase. We conclude that in fibroblasts, p21ras is an intermediate of the insulin signal transduction pathway involved in the regulation of gene expression and mitogenicity.     

血小板源生长因子受体介导的信号转导在自发性高血压大鼠心肌肥大中的作用

为了探索血小板源生长因子 (platelet derivedgrowthfactor,PDGF)受体介导的信号转导在自发性高血压大鼠(spontaneouslyhypertensiverats,SHR)心肌肥大中的作用 ,实验采用Westernblot法检测SHR及其对照WKY大鼠心肌PDGF受体β和细胞外信号调节激酶 (extracellularsignal regulatedkinase1/ 2 ,ERK 1/ 2 )的蛋白表达和ERK 1/ 2磷酸化水平的变化。结果显示 :4周龄SHR的收缩压、舒张压、±dp/dtmax和心肌肥大指数与同龄WKY大鼠相比均无明显差异 ,而 12周龄SHR上述指标与同龄WKY大鼠相比均明显升高 ,表明 12周SHR已发生高血压 ,心脏收缩功能代偿性增强 ,并出现心肌肥大。 4周龄SHR心肌PDGF受体 β和ERK1/ 2的磷酸化水平以及ERK 1/ 2的蛋白表达水平与同龄对照相比均无明显变化 ,12周时SHR心肌PDGF受体 β的蛋白表达较同龄WKY增加 32 77% (P <　　　　　　　　　 0 0 5 ) ,PDGF受体介导的信号转导通路的下游信号分子ERK 1/ 2的磷酸化水平较同龄WKY升高 19 6 % (P =0 0 1) ,表明ERK 1/ 2的活化增加 ,但ERK 1/ 2的蛋白表达水平尚无变化。为进一步明确PDGF受体 β在心肌细胞生长中的作用及其与ERK 1/ 2活性的关系 ,采用PDGF BB刺激培养的乳鼠心肌细胞 ,发现 [3 H]亮氨酸掺入量明显增加 ,ERK 1/ 2的磷酸化水平明     

Altered regulation of platelet-derived growth factor A-chain and c-fos gene expression in senescent progeria fibroblasts

The study of human genetic disorders known as premature aging syndromes may provide insight into the mechanisms of cellular senescence. These diseases are clinically characterized by the premature onset and accelerated progression of numerous features normally associated with human aging. Previous studies have indicated that fibroblasts derived from premature aging syndrome patients have in vitro growth properties similar to senescent fibroblasts from normal individuals. As an initial approach to determine whether gene expression is altered in premature aging syndrome fibroblasts, RNA was prepared from various cell strains and used for gel blot hybridization experiments. Although normal fibroblasts only express platelet-derived growth factor (PDGF) A-chain mRNA for a brief period following mitogenic stimulation, one strain of Hutchinson-Gilford (progeria) syndrome fibroblasts, AG3513, constitutively expresses PDGF A-chain mRNA and PDGF-AA homodimers. The PDGF A-chain gene does not appear to be amplified or rearranged in these fibroblasts. AG3513 progeria fibroblasts have properties characteristic of senescent cells, including an altered morphology and a diminished mitogenic response to growth promoters. The diminished response of AG3513 progeria fibroblasts to PDGF stimulation was examined in some detail. Studies using 125I-PDGF-BB, which binds with high affinity to both A- and B-type PDGF receptors, indicate that normal and AG3513 progeria fibroblasts have a similar number of PDGF receptors. Although receptor autophosphorylation occurs normally in PDGF-stimulated AG3513 progeria fibroblasts, c-fos mRNA induction does not. The senescent phenotype of AG3513 fibroblasts is probably unrelated to their constitutive PDGF A-chain gene expression; further studies are necessary in order to directly address this issue. Also, additional analysis of this progeria fibroblast strain may provide information on the control of mitogen-inducible gene expression in normal cells.     

Age related induction of platelet-derived growth factor A-chain mRNA in normal human fibroblasts

We have previously found that stimulation of normal neonatal fibroblasts with PDGF or EGF leads to a transient induction of PDGF A-chain mRNA and the synthesis of PDGF-AA proteins. This finding may imply the existence of an autocrine feedback mechanism to amplify the mitogenic signal under certain conditions. We have now studied the PDGF-BB mediated PDGF A-chain induction in a set of fibroblasts from young and old donors to clarify if the levels of induction are correlated to the donor age and the replicative capacity of the cells. The PDGF A-chain induction was found to be reduced in cells from old donors compared with cells from embryonic and neonatal donors. The different cell strains were also characterized further with respect to PDGF receptor expression and PDGF binding properties. PDGF β-receptors were found to be enhanced in old donor cells strains, whereas the PDGF α-receptors showed more variability in expression between the strains. The PDGF A-chain mRNA induction was also decreased or absent in late passage human fibroblasts (senescent cells) when compared with early passage cells. These data suggest that the PDGF A-chain mRNA induction is regulated by an age related mechanism in human fibroblasts. © 1994 Wiley-Liss, Inc.     

Mechanisms of inhibition by heparin of PDGF stimulated MAP kinase activation in vascular smooth muscle cells

Heparin and heparan are potent inhibitors of vascular smooth muscle cell (VSMC) proliferation. To investigate the mechanisms by which heparin suppresses growth factor stimulated mitogenesis, the present experiments investigated the effects of heparin on platelet-derived growth factor (PDGF) stimulated signal transduction pathways. Heparin treatment substantially inhibited PDGF-BB stimulated rat VSMC growth. Western analysis showed a 30 min PDGF-BB treatment of VSMC induced the tyrosine phosphorylation of multiple protein bands; cotreatment with heparin inhibited mitogen-activated protein (MAP) kinase tyrosine phosphorylation but had little effect on PDGF receptor tyrosine phosphorylation. In-gel kinase assays demonstrated that heparin inhibited PDGF-BB stimulated MAP kinase activity at late (25 min) but not early (10 min) time points. These data indicate that heparin does not inhibit the initial signalling events after PDGF-BB binding but instead acts through an alternate mechanism to inhibit MAP kinase. To investigate if heparin directly stimulates tyrosine phosphatase-mediated suppression of MAP kinase, we treated VSMC with orthovanadate, a tyrosine phosphatase inhibitor. Heparin inhibited MAP kinase tyrosine phosphorylation after orthovanadate treatment, indicating that heparin does not suppress MAP kinase by enlistment of a tyrosine phosphatase. Experiments were performed to investigate signalling pathways upstream of MAP kinase. To determine if protein kinase C (PKC) mediates PDGF-BB, serum, and EGF stimulation of MAP kinase, we treated VSMC overnight with phorbol ester (PMA) to downregulate PKC. Abolition of conventional and novel PKC activity significantly suppressed both serum and PDGF-BB induced MAP kinase activation, indicating protein kinase C is an important mediator for these mitogens. In contrast, downregulation of these PKC isoforms had little effect on EGF stimulation of MAP kinase. As heparin inhibits PDGF and serum but not EGF stimulation of MAP kinase, these data precisely correlate heparin inhibition of MAP kinase with activation through PKC-dependent pathways. Immunoprecipitation analysis found that heparin inhibited serum, PMA, and PDGF but not EGF induced raf-1 phosphorylation. These studies demonstrate that heparin did not block PDGF-BB receptor activation, which initiates the mitogenic signalling cascade. Heparin did inhibit specific postreceptor second messenger signals, such as the late phase activation of MAP kinase, which may be mediated by suppression of PKC-dependent pathways. J. Cell. Physiol. 172:69–78, 1997. © 1997 Wiley-Liss, Inc.