Characterization of the bombesin receptor on mouse pancreatic acini by chemical cross-linking

Bombesin (BN), gastrin-releasing peptide (GRP) and GRP(18–27) (neuromedin C) were equipotent and 30-fold more potent than neuromedin B (NMB) in inhibiting binding of ¹²⁵I-GRP to and in stimulating amylase release from mouse pancreatic acini. In the present study we used ¹²⁵I-GRP and chemical cross-linking techniques to characterized the mouse pancreatic BN receptor. After binding of ¹²⁵I-GRP to membranes, and incubation with various chemical cross-linking agents, cross-linked radioactivity was analyzed by SDS-PAG electrophoresis and autoradiography. With each of 4 different chemical cross-linking agents, there was a single broad polypeptide band of Mr 80,000. Cross-linking did not occur in the absence of the cross-linking agent. Cross-linking was inhibited only by peptides that interact with the BN receptor such as GRP, NMB, GRP(18–27) or BN. Dose-inhibition curves for the ability of BN or NMB to inhibit binding of ¹²⁵I-GRP to membranes or cross-linking to the 80,000 polypeptide demonstrated for both that BN was 15-fold more potent than NMB. The apparent molecular weight of the cross-linked polypeptide was unchanged by adding dithiothreitol. N-Glycanase treatment reduced the molecular weight of the cross-linked peptide to 40,000. The present results indicate that the BN receptor on mouse pancreatic acinar cell membranes resembles that recently described on various tumor cells in being a single glycoprotein with a molecular weight of 76,000. Because dithiothreitol had no effect, this glycoprotein is not a subunit of a larger disulfide-linked structure.     

Purification and characterization of the bombesin/gastrin-releasing peptide receptor from Swiss 3T3 cells

The bombesin/gastrin-releasing peptide (GRP) receptor was solubilized from Swiss mouse 3T3 cell membranes in an active form and was purified about 90,000-fold to near homogeneity by a combination of wheat germ agglutinin-agarose and ligand affinity chromatography. The purified receptor displayed a single diffuse band with a Mr of 75,000-100,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. After treatment of the receptor with N-glycanase, removing N-linked oligosaccharide moieties, the protein yielded a Mr = 38,000 band. These results agree with the Mr value estimated for the GRP receptor that was labeled on Swiss 3T3 cells by cross-linking to 125I-GRP1-27. GRP1-27 bound to the purified receptor with a Kd of 0.038 +/- 0.019 nM. By comparison, the soluble receptor in unfractionated extracts and intact membranes displayed a Kd for GRP1-27 of 0.036 +/- 0.003 nM and 0.13 +/- 0.04 nM, respectively. The relative potencies of a series of GRP analogs for the soluble receptor and intact membranes indicated that the extraction procedure did not significantly alter the receptor's ligand binding specificity. However coupling of the receptor to its guanyl nucleotide regulatory protein was not maintained in the soluble extract, and a G-protein did not co-purify with the receptor. Physiological concentrations of NaCl greatly inhibited the binding of some GRP analogs to the receptor, while the binding of other analogs was not affected. A domain on the GRP molecule involving Lys-13 or Arg-17 was identified which promoted binding to the GRP receptor under conditions of low ionic strength. These findings aided the development of an effective ligand affinity resin for the purification of the GRP receptor.     

Characterization of a developmentally regulated mouse embryonic antigen

Summary A mammalian embryonic cell surface glycoprotein (ESGp), whose expression and biochemical structure seem to be developmentally regulated, has been isolated and characterized. The molecule expressed in two cell through morula stage mouse embryos has a molecular weight, by electrophoretic analyses, of 90 kDa. At the blastocyst stage, however, the molecule migrates as a broad, heterogeneous band ranging from 90 to 110 kDa. Evidence obtained from studies of embryonal carcinoma (EC) cells indicates that this band is actually a composite of three distinct molecules (molecular weight 90, 95, and 105 to 110 kDa), each of which is synthesized uniquely by one of the different cell types of the blastocyst: the embryonic ectoderm and visceral and parietal endoderms, respectively. A survey of various mouse tissues and cell lines has revealed that undifferentiated cells express the low molecular weight form (90 kDa) characteristic of embryonic ectoderm, whereas differentiated cells and adult tissues express the high molecular weight form (110 kDa) characteristic of parietal endoderm. Only the EC visceral endoderm cell analogues have been shown to express the intermediate molecule (95 kDa). In embryos, the antigen is uniformly distributed over the cell surface during early cleavage stages (two to eight cell); just before compaction, however, it seems to redistribute and becomes polarized at the outside exposed edges of blastomeres. In cultured EC cells, ESGp is found only in areas of cell-to-cell contact; free-standing surfaces of cells are negative for expression. It is possible, therefore, that ESGp may be involved in the intercellular adhesion of both EC cells and compacting embryos. This work was supported by grant R01 HD23402 from the National Institutes of Health, Bethesda, MD.     

Leu13-psi(CH2NH)Leu14]bombesin is a specific bombesin receptor antagonist in Swiss 3T3 cells

The pseudopeptide [Leu13-psi(CH2NH)Leu14]bombesin blocks bombesin-stimulated mitogenesis in Swiss 3T3 cells in a competitive and reversible manner, but not that of other mitogens. It inhibits the mobilization of intracellular Ca2+ and activation of protein kinase C by bombesin-like peptides. It acts at receptor level, as shown by inhibition of [125I]GRP binding and reduction in cross-linking of the Mr 75-85,000 receptor-associated protein. Thus [Leu13-psi(CH2NH)Leu14]bombesin is a specific bombesin receptor antagonist in Swiss 3T3 cells which blocks long-term growth promoting effects of bombesin-like peptides.     

The effects of bombesin on polyphosphoinositide and calcium metabolism in Swiss 3T3 cells

Bombesin, a peptide mitogen for a variety of cell types, acts as a typical Ca2+-mobilizing hormone in Swiss 3T3 fibroblasts. At its mitogenic concentrations (1-25 nM), bombesin stimulates polyphosphoinositide turnover, i.e. breakdown of phosphatidylinositol 4,5-bisphosphate and a concomitant increase in inositol phosphates in a time- and dose-dependent manner. In particular, bombesin induces an initial transient increase in inositol 1,4,5-trisphosphate concentration, followed by an increase in the concentration of inositol 1,3,4-trisphosphate. Also, within 30 s of bombesin addition, the mass of 1,2-diacylglycerol nearly doubles and remains at this level for up to 60 min. Intracellular [Ca2+] measurements with a photoprotein, aequorin, demonstrate that bombesin stimulates a transient rise in cytosolic free Ca2+ concentration. A mobilization of Ca2+ from an intracellular pool is observed as a dose-dependent, transient increase in 45Ca2+ efflux from prelabeled cells, both in the presence and absence of extracellular Ca2+. Bombesin also induces a sustained increase in Ca2+ influx rate and stimulates 3-O-methyl-D-glucose transport across the plasma membrane. These composite results indicate that the mitogenic effect of bombesin is mediated through an activation of the Ca2+ messenger system.     

Identification of the bombesin receptor on murine and human cells by cross-linking experiments

The bombesin receptor present on the surface of murine and human cells was identified using 125I-labeled gastrin-releasing peptide as a probe, the cross-linking agent disuccinimidyl suberate, and sodium dodecyl sulfate gels. A clone of NIH-3T3 cells which possesses approximately 80,000 bombesin receptors/cell with a single binding constant of approximately 1.9 X 10(-9) M was used in these studies. In addition, we used Swiss 3T3 cells and a human glioma cell line which possesses approximately 100,000 and approximately 55,000 bombesin receptors/cell, respectively. Under conditions found optimal for binding, it is demonstrated that 125I-labeled gastrin-releasing peptide can be cross-linked specifically to a glycoprotein of apparent molecular mass of 65,000 daltons on the surface of the NIH-3T3 cells. Similar results were obtained when the cross-linked product was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing or non-reducing conditions. Moreover, the cross-linking reaction is specific and saturable and the 65,000-dalton polypeptide is not observed when the cross-linking experiments were performed with a NIH-3T3 cell line which is devoid of bombesin receptors. Interestingly, glycoproteins with apparent molecular weights of 75,000 were labeled specifically by 125I-labeled gastrin-releasing peptide when similar experiments were performed with Swiss 3T3 cells and with human glioma cell line GM-340. These different molecular weights may indicate differential glycosylation as treatment with the enzyme N-glycanase reduced the apparent molecular weight of the cross-linked polypeptide to 45,000. On the basis of these results it is concluded that the cross-linked polypeptides represent the bombesin receptor or the ligand-binding subunit of a putative larger bombesin receptor expressed on the surface of these cells.     

Modulation of the epidermal growth factor receptor by brain-derived growth factor in Swiss mouse 3T3 cells

Incubation of Swiss mouse 3T3 cells at 37 degrees C with bovine brain-derived growth factor (BDGF) decrease the cell surface 125I-EGF binding activity of these cells by 70-80%. This down-modulation of the EGF receptor by BDGF was time, temperature, and dose dependent. Scatchard plot analysis indicated that BDGF binding led to a selective decrease in the number of high-affinity EGF receptors. The BDGF-induced down-modulation of the EGF receptor was completely blocked by protamine, a potent inhibitor of receptor binding and mitogenic activities of BDGF. BDGF down-modulated the EGF receptor in phorbol myristic acetate (PMA)-pretreated cells, as well as in control cells. Furthermore, PMA-pretreated cells responded mitogenically to BDGF, whereas PMA itself failed to stimulate the mitogenic response of PMA-pretreated cells. This BDGF-induced down-modulation of the EGF receptor in PMA-desensitized cells suggests that BDGF down-regulates the EGF receptor by a mechanism distinct from that of PMA. Incubation of cells with compounds which are known to inhibit pinocytosis blocked the down-modulation induced either by BDGF or by platelet-derived growth factor (PDGF) but had no effect on the PMA-induced down-modulation. Incubation of cells with inhibitors of receptor recycling enhanced the BDGF-induced down-modulation of the EGF receptor. These results suggest that BDGF and PDGF induce down-modulation of the EGF receptor by increasing the internalization of cell surface high-affinity receptors and that the internalization process may not be required for down-modulation induced by PMA.     

The heparan sulfates of Swiss mouse 3T3 cells. The effect of transformation

Three major pools of heparan sulfate have been isolated from cultures of Swiss mouse 3T3 and SV40-transformed 3T3 cells: cell-surface, medium, and intracellular heparan sulfates. The cell-surface heparan sulfate is a high molecular weight proteogylcan which is partially degraded by pronase. Before pronase treatment, it has a peak molecular weight (as estimated by gel filtration) of appox. 7.2 · 10⁵ in contrast to only 2.4 · 10⁵ after pronase treatment. The medium heparan sulfate appears to be similar in structure to the cell-surface heparan sulfate, since they coelute on Bio-Gel A-15m and DEAE-cellulose, and are both proteoglycans. In contrast, the intracellular heparan sulfate has a low molecular weight (6.0 · 10³) and has little if any attached protein. Both the medium and intracellular heparan sulfate exhibit the transformation-associated change in structure reported earlier for cell-surface heparan sulfate (Underhill, C.B. and Keller, J.M. (1975) Biochem. Biophys. Res. Commun. 63, 448–454). This transformation-associated change, detected by DEAE-cellulose chromatography is not the result of changes in either molecular weight or protein core. Cellulose acetate electrophoresis of the cell-surface heparan sulfate at pH 1 suggests that the transformation-associated change in structure is due to a difference in sulfate content. Both types of heparan sulfate are produced in mixed cultures ot 3T3 and SV3T3 cells, indicating that neither serum factors in the culture medium nor secreted cell products are responsible for the transformation-associated change in heparan sulfate structure. The presented date are discussed with respect to the postulated role of heparan sulfate in cell social behavior.     

A peptide that inhibits the mitogenic stimulation of Swiss 3T3 cells by bombesin or vasopressin.

The synthetic peptide [D-Arg1,D-Pro2,D-Trp7,9,Leu1]substance P inhibits the stimulation of DNA synthesis induced in Swiss 3T3 cells by bombesin or vasopressin, but not that induced by a wide range of other growth factors and mitogens. The stimulation induced by 10 pM-3 nM-bombesin is inhibited by 1-30 microM-antagonist in a manner consistent with competition at the bombesin receptor. The inhibition by the antagonist of the stimulation induced by vasopressin suggests a previously unrecognized interaction of the antagonist with vasopressin receptors. The antagonist should be useful in studies of cell proliferation both in vivo and in vitro.     

Desmethionine alkylamide bombesin analogues: a new class of bombesin receptor antagonists with potent antisecretory activity in pancreatic acini and antimitotic activity in Swiss 3T3 cells.

Bombesin-related peptides have a large number of physiological functions as well as having an autocrine growth mechanism for the regulation of small cell lung cancer cells. In the present study we have synthesized 21 des-Met amide or alkylamide analogues of bombesin and compared their abilities to function as bombesin receptor antagonists in guinea pig pancreatic acini and Swiss 3T3 cells with those of the previously most potent antagonist described, [Leu13 psi(CH2NH)Leu14]bombesin (analogue I). All des-Met analogues functioned as antagonists. Bn(1-13)NH2 was approximately equipotent to I (Ki = 60-80 nM) whereas Bn(6-13)NH2 was 30-fold less potent (Ki = 1800 nM). Formation of an ethylamide, Bn(6-13)ethylamide, increased the potency 30-fold such that this octapeptide was equipotent to I. The addition of a D-Phe6 moiety to I did not change potency but caused a 30-fold increase in potency of Bn(6-13)NH2 and a 8-fold increase in the potency of Bn(6-13)ethylamide (Ki = 16 nM). Additional studies of both NH2- and COOH-terminal alterations in Bn(6-13)NH2 demonstrated that the most potent antagonist was [D-Phe6]Bn(6-13)propylamide (PA), having IC50's of 1.6 nM and 0.8 nM for bombesin-stimulated amylase release and Swiss 3T3 cell growth, respectively. Detailed studies of the most potent amide analogue, [D-Phe6]Bn(6-13)NH2, and alkylamide analogue, [D-Phe6]Bn(6-13)PA, demonstrated that these analogues functioned as competitive antagonists and that their action was selective for the bombesin receptor. These results demonstrate that, as with CCK- and gastrin-related peptides, the C-terminal amino acid is important for initiating a biologic response but not essential for determining receptor affinity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Internalization and degradation of peptides of the bombesin family in Swiss 3T3 cells occurs without ligand-induced receptor down-regulation.

The binding of [125I]gastrin releasing peptide ([125I]GRP) to Swiss 3T3 cells at 37 degrees C increases rapidly, reaching a maximum after 30 min and decreasing afterwards. The decrease in cell-associated radioactivity at this temperature is accompanied by extensive degradation of the labelled peptide. At 4 degrees C equilibrium binding is achieved after 6 h and [125I]GRP degradation is markedly inhibited. Extraction of surface-bound ligand at low pH demonstrates that the iodinated peptide is internalized within minutes after addition to 3T3 cells at 37 degrees C. The rate of internalization is strikingly temperature-dependent and is virtually abolished at 4 degrees C. In addition, lysomotropic agents including chloroquine increase the cell-associated radioactivity in cells incubated with [125I]GRP. The binding of [125I]GRP to Swiss 3T3 cells was not affected by pretreatment for up to 24 h with either GRP or bombesin at mitogenic concentrations. Furthermore, pretreatment with GRP did not reduce the affinity labelling of a Mr 75,000-85,000 surface protein recently identified as a putative receptor for bombesin-like peptides. These results demonstrate that while peptides of the bombesin family are rapidly internalized and degraded by Swiss 3T3 cells, the cell surface receptors for these molecules are not down-regulated.     

C-terminal bombesin sequence requirements for binding and effects on protein synthesis in Swiss 3T3 cells.

The active-site serine of the extracellular beta-lactamases of Streptomyces cacaoi and Streptomyces albus G has been labelled with beta-iodopenicillanate. The determination of the sequence of the labelled peptides obtained after trypsin digestion of the denatured proteins indicate both enzymes to be class A beta-lactamases. Surprisingly the two Streptomyces enzymes do not appear to be especially homologous, and none of them exhibited a high degree of homology with the Streptomyces R61 DD-peptidase. Our data confirm that, as a family of homologous enzymes, class A is rather heterogeneous, with only a small number of conserved residues in all members of the class.     

Short-chain pseudopeptide bombesin receptor antagonists with enhanced binding affinities for pancreatic acinar and Swiss 3T3 cells display strong antimitotic activity

The high inhibitory potency of the previously developed bombesin antagonist [Leu13, psi CH2NHLeu14]bombesin (analogue I) (IC50 values of 30 and 18 nM for inhibition of bombesin-stimulated amylase secretion from guinea pig acinar cells and Swiss 3T3 cell growth, respectively) diminished considerably when shorter chain lengths were examined. For instance, [Leu13, psi CH2NHLeu14]bombesin-(5-14),[Leu13, psi CH2NHLeu14] bombesin-(6-14), and [Leu9, psi CH2NHLeu10]neuromedin C had IC50 values of 150, 150, and 280 nM, respectively. Incorporation of a D-Phe residue at position 6 of [Leu13, psi CH2NHLeu14] bombesin did not significantly change the various biological parameters. However, its presence in [Leu13, psi CH2NHLeu14]bombesin-(6-14) and at position 2 of psi-neuromedin C-(2-10) resulted in about 10-fold increases in potency up to and above that of the original antagonist. For instance, [D-Phe6,Leu13,psi CH2NHLeu14]bombesin-(6-14) and des-Gly1-[D-Phe2,Leu9,psi CH2NHLeu10]neuromedin C exhibited IC50 values of 5 and 28 nM, respectively. Analogues based on the litorin sequence which contains an NH2-terminal pyroglutamic acid residue at the bombesin position 6 equivalent were also quite potent. The ability of various analogues to interact with bombesin receptors on pancreatic acini correlated reasonably well with potencies derived from inhibition of bombesin-stimulated growth of Swiss 3T3 cells. Additional studies of NH2- and COOH-terminal structure-activity relationships resulted in the synthesis of [D-Phe6,Leu13,psi CH2NHPhe14]bombesin-(6-14), which was particularly effective in inhibiting 3T3 cell growth at high picomolar concentrations (IC50 = 0.72 nM and Ki = 3.1 nM for 3T3 cells; IC50 = 7.5 nM and Ki = 9.9 nM for acini). Detailed investigations with one of the most potent antagonists, [D-Phe6,Leu13,psi CH2NHLeu14]bombesin-(6-14) (Ki = 14 nM for acini cells and 7.1 for 3T3 cells), demonstrated that this analogue was a competitive inhibitor of bombesin and that this activity was specific for the bombesin receptor. Thus, inhibitory potencies have been improved generally up to 25 times over previously reported structures; and, given that bombesin itself has a Ki of 1.2 nM for 3T3 cell binding, some of these analogues are extraordinarily high affinity receptor antagonists. They can also be synthesized more readily and offer fewer proteolytic degradation sites than the original pseudopeptide and should be excellent candidates for in vivo studies aimed at inhibition of bombesin-dependent human small cell lung carcinoma growth.     

Conveyance of partial agonism/antagonism to bombesin/gastrin-releasing peptide analogues on Swiss 3T3 cells by a carboxyl-terminal leucine insertion.

Gastrin-releasing peptide (GRP) is a neuroendocrine hormone that may be involved in the pathophysiology of small cell lung carcinoma. We describe carboxylterminal peptide analogues of GRP and bombesin, a 14-residue amphibian homologue, that were modeled after the antagonist [Leu13-psi(CH2NH)-Leu14]bombesin and retained the psi bond. Three novel peptides contained a Leu insertion amino to the psi bond, i.e. ... Leu13Leu14 psi X (residues numbered after bombesin) where X = LeuNH2 or norleucine-NH2). The Leu-insertion analogues behaved as pure partial agonists/antagonists when examined for the ability to stimulate [3H]thymidine incorporation into quiescent Swiss 3T3 cells (agonist activity) and to diminish the agonist response of GRP (antagonist activity). A time course of [3H]thymidine incorporation into quiescent cells indicated maximal incorporation at 20-h post-peptide addition for bombesin and GRP and a Leu-insertion peptide, but the extent of the incorporation for the Leu-insertion peptide was half that of GRP and bombesin. The agonist dose responses of the Leu-insertion peptides (EC50 values of 1-10 nM) paralleled GRP and bombesin, but the maximal response of the Leu-insertion peptides, even at concentrations as high as 10(-4) M, was half the maximal value of GRP or bombesin. High concentrations of the Leu-insertion peptides antagonized 10 nM GRP (a concentration that produced a near-maximal GRP response) yielding a response that was half the maximal value of GRP and equivalent to the maximal response of the Leu-insertion peptides alone. Analogues of the form ... Leu13 psi X behaved as complete antagonists. The KD values of the Leu-insertion peptides for competitive binding versus 125I-GRP (2-50 nM) were as potent as parent ... Leu14 agonists. Stability studies indicated that peptide potencies for both agonist and antagonist activities diminished upon peptide incubation in medium or on cells. The results suggested that, for the Leu-insertion peptides, degradation into distinct products with different activities was not responsible for their partial agonist/antagonist behavior. Computer-generated molecular modeling studies indicated that the novel structures could adopt energy minimized conformations for either an agonist or an antagonist as proposed earlier (Coy, D.H., Heinz-Erian, P., Jiang, N.-Y., Sasaki, Y., Taylor, J., Moreau, J.-P., Wolfrey, W.T., Gardner, J.D., and Jensen, R. T. (1988) J. Biol. Chem. 263, 5056-5060).     

Characterization of the high-affinity receptors on Swiss 3T3 cells which mediate the binding, internalization and degradation of the mitogenic peptide bombesin.

Bombesin and bombesin-related peptides such as gastrin-releasing peptide (GRP) stimulate DNA synthesis and proliferation of Swiss 3T3 cells in culture. We have used 125I-labelled [Tyr4]bombesin and 125I-labelled GRP to characterize and identify the receptors for these peptides on Swiss 3T3 cells. The binding of 125I-[Tyr4]bombesin, which retained full biological activity, was maximal between 20 and 30 min incubation at 37 degrees C, after which continued incubation led to a decline in cell-associated radioactivity. This decline was markedly slowed by the presence of lysosomal enzyme inhibitors. Specificity of the binding site was indicated by the competitive inhibition of binding by bombesin-related peptides, but not by unrelated peptides and growth factors. Scatchard analysis of binding data indicated a single class of high-affinity receptors. The calculated value for the dissociation constant (Kd) was 2.1 nM and each cell possesses approx. 240,000 receptors. Because [Tyr4]bombesin has no free amino group, 125I-GRP was used in chemical cross-linking studies. When disuccinimidyl suberate was used to covalently couple 125I-GRP to the cells, two major radiolabelled complexes were detected with molecular masses of approx. 80,000-85,000 and 140,000. The binding of 125I-[Tyr4]bombesin to the cells was pH-dependent with maximal binding at pH 6.5-7.5 and effectively no specific binding at pH values below 4.5. At 37 degrees C, cell-associated 125I-[Tyr4]bombesin quickly became resistant to removal by acidic buffers, suggesting its rapid transfer to an intracellular compartment. However, pre-incubation with unlabelled [Tyr4]bombesin did not induce down-regulation of bombesin receptors as measured by the subsequent binding of 125I-[Tyr4]bombesin. In contrast with the Swiss 3T3 cells, specific binding of 125I-[Tyr4]bombesin was not detectable in two cell lines which are biologically unresponsive to bombesin-related peptides.     

Bombesin receptor in membranes from Swiss 3T3 cells. Binding characteristics, affinity labelling and modulation by guanine nucleotides.

Bombesin-like neuropeptides, including mammalian gastrin-releasing peptide (GRP), are potent mitogens for Swiss 3T3 cells. In this study, we have characterized the bombesin receptor in membrane preparations from these cells. Addition of Mg2+ during cell homogenization was essential to preserve 125I-GRP binding activity in the resulting membrane preparation. The effect of Mg2+ was concentration dependent, with a maximum at 5 mM. Specific binding of 125I-GRP was saturable; Scatchard analysis indicated a single class of high-affinity sites of Kd = (2.1 +/- 0.3) x 10(-10) M at 15 degrees C and Kd = (1.9 +/- 0.4) x 10(-10) M at 37 degrees C, and a maximum binding capacity of 580 +/- 50 fmol/mg of protein (15 degrees C) or 604 +/- 40 fmol/mg of protein (37 degrees C). The kinetically derived dissociation constant was 1.5 x 10(-10) M. 125I-GRP binding was inhibited in a concentration-dependent manner by various peptides containing the highly conserved C-terminal heptapeptide of the bombesin family, including bombesin, GRP, neuromedin B and the 8-14 fragment of bombesin. In contrast, a variety of structurally unrelated mitogens and neuropeptides had no effect. The cross-linking agent ethyleneglycolbis(succinimidylsuccinate) covalently linked 125I-GRP to a single Mr 75 000-85 000 protein in membrane preparations of 3T3 cells. Affinity labelling of this molecule was specific and dependent on the presence of Mg2+ during membrane preparation. Finally, the non-hydrolysable GTP analogue guanosine-5'-[gamma-thio]triphosphate (GTP[S]) caused a concentration-dependent inhibition of 125I-GRP binding and cross-linking to 3T3 cell membranes [concentration giving half-maximal inhibition (IC50) approximately 0.2 microM]. The inhibitory effect was specific (GMP, ATP or ATP[S] had no effect at 10 microM) and was due to an increase in Kd from (1.7 +/- 0.2) x 10(-10) M to (4.3 +/- 0.6) x 10(-10) M in the presence of 10 microM-GTP[S]. This modulation of ligand affinity and cross-linking implies that the bombesin receptors that mediate mitogenesis in Swiss 3T3 cells are coupled to a guanine-nucleotide-binding-protein signal-transduction pathway.     

Solubilization of the bombesin receptor from Swiss 3T3 cell membranes. Functional association to a guanine nucleotide regulatory protein

Bombesin and structurally related peptides including gastrin releasing peptide (GRP) are potent mitogens for Swiss 3T3 cells. Here we attempted to solubilize bombesin receptors under conditions in which the ligand (125I-labelled GRP) was prebound to the receptor prior to detergent extraction. We found that 125I-GRP-receptor complexes were solubilized from Swiss 3T3 cell membranes by using the detergents taurodeoxycholate or deoxycholate. These detergents promoted ligand-receptor solubilization in a dose-dependent manner. In contrast, a variety of other detergents including Triton X-100, octylglycoside, CHAPS, digitonin, cholic acid and n-dodecyl-beta-D-maltoside, were much less effective. Addition of guanosine 5'-[gamma-thio]triphosphate (GTP gamma S) to ligand-receptor complexes isolated by gel filtration enhanced the rate of ligand dissociation in a concentration-dependent and nucleotide-specific manner. Our results demonstrate for the first time the successful solubilization of 125I-GRP-receptor complexes from Swiss 3T3 cell membranes and provide evidence for the physical association between the ligand-receptor complex and a guanine nucleotide binding protein(s).     

Identification of the fibroblast growth factor receptor of Swiss 3T3 cells and mouse skeletal muscle myoblasts

Two distinct fibroblast growth factors (FGF) were purified to homogeneity from bovine brain on the basis of their ability to stimulate skeletal muscle myoblast proliferation. These growth factors are also mitogenic for Swiss 3T3 cells and appear to be closely related to or identical with previously isolated anionic and cationic fibroblast growth factors. The half-maximum concentrations (EC50) for stimulation of myoblast DNA synthesis by the anionic and cationic growth factors were 30pM and 1pM, respectively. In contrast, an EC50 of 45 pM was observed for stimulation of 3T3 cell DNA synthesis by both growth factors. Binding of 125I-labeled anionic FGF was saturable with apparent Kd values of 45 pM and 11 pM and approximately 60 000 and 2000 receptor sites per cell for 3T3 cells and MM14 murine myoblasts, respectively. Unlabeled anionic and cationic FGF equally displaced 125I-labeled anionic FGF from 3T3 cells while cationic FGF was more potent than anionic FGF for displacement from skeletal muscle myoblasts, demonstrating that a single receptor binds the two distinct growth factors. Binding was specific for these factors since platelet-derived growth factor, insulin, insulin-like growth factor 1, epidermal growth factor, and nerve growth factor were unable to displace bound 125I-labeled anionic FGF from Swiss 3T3 cells. Chemical cross-linking of specifically bound 125I-labeled anionic FGF to 3T3 cells and MM14 myoblasts identified a single detergent-soluble FGF receptor with an apparent molecular weight of 165 000.     

Bradykinin and bombesin rapidly stimulate tyrosine phosphorylation of a 120-kDa group of proteins in Swiss 3T3 cells

We have examined the effect of bradykinin (BK) and other peptide mediators with related cellular actions on tyrosine phosphorylation in confluent Swiss 3T3 fibroblast cells using an anti-phosphotyrosine antibody. Immunoblots of extracts from cells stimulated with BK showed a major heterogeneous band centered at Mr 120,000. Three phosphorylated protein species were present within this band. The lower of these three phosphoproteins was occasionally present under basal conditions. The detection of this group of phosphoproteins by the antibody was prevented by coincubation with an excess of phosphotyrosine but not with an excess of phosphoserine or phosphothreonine. The BK-promoted increase in phosphorylation was rapid and transient with the peak response apparent following BK exposure for 1 min. The response was dose-dependent with half-maximal effect occurring at 10-30 nM BK. The antagonist Arg0, Hyp3, Thi5,8, D-Phe7-BK completely inhibited the response indicating that BK was acting via a B2 kinin receptor. Bombesin, at 0.1 microM, stimulated an increase in phosphorylation of the 120-kDa group of proteins with the same efficacy as 0.1 microM BK. On the other hand, 1 microM vasopressin was considerably less efficaceous than either of the former agonists. Short-term preexposure to 0.1 microM 12-O-tetradecanoyl-phorbol-13-acetate (1 min), a protein kinase C stimulator, or 30 microM H7 (15 min), a protein kinase C inhibitor, had no significant effect either on the basal or BK-promoted increase in tyrosine phosphorylation of these proteins. BK also stimulated inositol phosphate formation in these cells. Genistein, a tyrosine kinase inhibitor, inhibited BK stimulation of tyrosine phosphorylation. In addition, genistein partially inhibited BK stimulation of inositol phosphate formation. These results show that an increase in tyrosine phosphorylation of a 120-kDa group of proteins is an early protein kinase C-independent cellular signal elicited by both bradykinin and bombesin.     

Expression of a mouse tyrosinase cDNA in 3T3 Swiss mouse fibroblasts

3T3 Swiss mouse fibroblast cell lines expressing tyrosinase, the critical enzyme in melanin synthesis, have been established by co-transfection of a mouse tyrosinase cDNA and a G418-resistance gene. Of sixty-three clones isolated, four are brown in colour, presumably due to synthesis of melanin. Expression of both the tyrosine hydroxylase and dopa oxidase activities of tyrosinase by these pigmented clones has been demonstrated directly by enzyme assays. Electron microscopic studies suggest that the brown pigment is located in membrane-bound cytoplasmic vesicles.