Bombesin receptor from Swiss 3T3 cells. Affinity chromatography and reconstitution into phospholipid vesicles

Bombesin and its mammalian counterpart gastrin releasing peptide (GRP) are potent mitogens for Swiss 3T3 cells in which distinct high affinity receptors have been identified. We developed here a probe for specific ligand affinity chromatography by coupling biotin to [lys3]bombesin. The resulting biotinylated [lys3]bombesin (BLB) retained biological activity as judged by inhibition of [125I]GRP binding to intact cells and membrane preparations and stimulation of rapid Ca2+ mobilization and DNA synthesis in intact cells. Using this ligand and magnetised beads coated with streptavidin, we extracted differentially a single protein from detergent-solubilized Swiss 3T3 membranes in a BLB-dependent manner. Visualization was achieved either after autoradiograph of metabolically labelled proteins with [35S]methionine or by silver staining of larger preparations. In other experiments, elution of BLB-receptor complexes bound to streptavidin beads was carried out at neutral pH and the eluted fraction was reconstituted into phospholipid vesicles. This procedure revealed [125I]GRP binding activity that exhibited saturability, specificity and a 1946-fold increase in specific activity.     

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.     

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.     

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.     

Identification of a receptor for peptides of the bombesin family in Swiss 3T3 cells by affinity cross-linking

The cross-linking agent ethylene glycol-bis(succinimidyl succinate) was used to covalently link 125I-labeled gastrin releasing peptide (125I-GRP) to an Mr 75,000-85,000 surface protein in Swiss 3T3 cells that displays many characteristics of a specific receptor for peptides of the bombesin family. This protein was not present in other cell lines which do not exhibit receptors for bombesin-like peptides. Unlabeled GRP competed for affinity labeling of the Mr 75,000-85,000 protein in a concentration-dependent manner, and other bombesin-related peptides also inhibited the cross-linking of 125I-GRP to this component. In contrast, high concentrations of a variety of other peptide hormones and mitogens had no effect. Affinity labeling of the Mr 75,000-85,000 protein was dependent on the concentration of 125I-GRP and exhibited saturability. 125I-GRP affinity labeling of this protein was also demonstrated by two-dimensional gel electrophoresis. These studies suggest that an Mr 75,000-85,000 surface protein with an isoelectric point of 6.0 to 6.5 is a major component of the receptor for peptides of the bombesin family in Swiss 3T3 cells.     

Monoclonal antibodies against a glycoprotein localized in coated pits and endocytic vesicles inhibit alpha 2-macroglobulin binding and uptake

Eight monoclonal antibodies, all IgG2a, which recognize a 180/90-kDa glycoprotein similar in properties to the receptor for alpha 2-macroglobulin of mouse embryo 3T3 cell plasma membranes, have been tested for their effect on the binding and uptake of alpha 2-macroglobulin by live cells. One antibody directly inhibited binding of 125I-alpha 2-macroglobulin under conditions in which 125I-transferrin binding to the transferrin receptor was unaffected. Another monoclonal antibody decreased alpha 2-macroglobulin binding when preincubated with cells at 37 degrees C. This antibody was also capable of specifically binding to ligand-receptor complexes formed by preincubating 125I-alpha 2-macroglobulin with detergent extracts of Swiss 3T3 cells. Immunoelectron microscopy showed that the 180/90-kDa glycoprotein was localized in coated pits of the cell surface and in intracellular endocytic vesicles (receptosomes/endosomes). The data suggest that the 180/90-kDa glycoprotein is a component of the receptor for alpha 2-macroglobulin.     

Characterization of the detergent solubilized receptor for gastrin-releasing peptide

Properties of detergent solubilized gastrin-releasing peptide receptor were investigated. Swiss 3T3 membranes were covalently labeled with [125I]GRP and homobifunctional cross-linkers. A major labeled protein of 75 kDa was resolved using SDS-polyacrylamide gel electrophoresis. When the same preparation was solubilized with zwitterionic detergent and analyzed under nondenaturing conditions the protein bound radioactivity was resolved in two different peaks, a major one of apparent molecular weight 220,000 (peak 1) and a minor one of 80,000 (peak 2) both containing the 75 kDa protein. Specific ligand binding activity also eluted with peak 1. These results indicate that the active form of bombesin/GRP receptor is a large complex containing the 75 kDa ligand binding domain.     

Solubilization of ligand-stabilized vasopressin receptors from plasma membranes of bovine kidney and rat liver

The solubilization of vasopressin receptors from plasma membranes of bovine kidney and rat liver by different detergents was investigated. A prerequisite for the extraction of vasopressin receptors retaining binding affinity for their ligand was the stabilization of the receptors by the prior formation of the membrane-bound hormone-receptor complexes. The vasopressin-receptor complexes from both kidney and liver membranes were solubilized in a high yield with dodecyl-beta-D-maltoside and 3-laurylamido-N,N'-dimethylpropylaminoxide. Several other nonionic detergents including octyl-beta-D-glucopyranoside effectively extracted the hepatic vasopressin receptor. For the hormone-receptor complex solubilized from bovine kidney with dodecyl-beta-D-maltoside, a Stokes' radius of 5.8 nm was determined.     

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.     

Chronic desensitization to bombesin by progressive down-regulation of bombesin receptors in Swiss 3T3 cells. Distinction from acute desensitization

Prolonged exposure (40 h) of Swiss 3T3 cells to bombesin induced homologous desensitization to bombesin and structurally related peptides including mammalian gastrin releasing peptide (GRP). The ability of bombesin to mobilize intracellular Ca2+, inhibit epidermal growth factor binding, and stimulate DNA synthesis was profoundly and selectively inhibited. In contrast, Ca2+ mobilization by either vasopressin or bradykinin was unaffected, indicating that chronic desensitization is mechanistically distinct from acute desensitization of Ca2+ mobilization. Prolonged (24 or 40 h) pretreatment with bombesin also induced a 78 +/- 5% loss of bombesin receptor binding sites in both intact and plasma membrane preparations of Swiss 3T3 cells without an apparent change in receptor affinity (Kd = 1.9 +/- 0.1 x 10(-9) M and Kd = 1.8 +/- 0.2 x 10(-9) M for control and pretreated cells, respectively). Loss of 125I-GRP binding was slow and progressive with half-maximal loss of binding occurring after 7 h and maximal after approximately 14 h. Cross-linking of 125I-GRP to intact cultures and membrane preparations revealed an identical time-dependent loss of the Mr = 75,000-85,000 cross-linked band, previously identified as the bombesin receptor. Prolonged exposure of the cells to phorbol 12,13-dibutyrate, epidermal growth factor, cholera toxin, or mitogenic combinations of these agents did not alter 125I-GRP binding. Receptor down-regulation and loss of mitogenic responsiveness to bombesin were: (a) induced in a parallel dose-dependent manner by bombesin (ED50 = 1 nM), GRP (ED50 = 2 nM), and neuromedin B (ED50 = 20 nM), but not by the biologically inactive fragment GRP (1-16); (b) inhibited by the specific bombesin antagonist [Leu13-psi(CH2NH)-Leu14] bombesin, and (c) reversed upon removal of bombesin with a similar time course (full recovery after 15 h). On the basis of these observations, we propose that prolonged pretreatment of Swiss 3T3 cells with bombesin induces homologous desensitization to peptides of the bombesin family by down-regulation of cell surface bombesin receptors.     

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.     

Solubilization and characterization of guinea-pig pancreatic somatostatin receptors

The solubilization of somatostatin receptors from guinea-pig pancreas by different non-denaturing detergents was investigated after stabilization of the receptors by prior binding of 125I-[Tyr11]somatostatin or its analogue 125I-[Leu8,DTrp22,Tyr25]somatostatin 28, to pancreatic plasma membranes. The somatostatin-receptor complexes were solubilized in a high yield by Zwittergent 3-14 (3-[tetradecyldimethylammonio]-1-propanesulfonate), a zwitterionic detergent. Other detergents, digitonin, Triton X-100, Chaps (3-[cholamidopropyldimethylammonio]-1-propanesulfonate) and octyl beta-D-glycopyranoside, achieved only partial solubilization. The recovery of receptor complexes was increased by glycerol. In order to characterize solubilized somatostatin-receptor complexes, membranes receptors were covalently labelled using N-5-azido-2-nitrobenzoyloxysuccinimide as cross-linking reagent before solubilization. Gel filtration chromatography analysis resulted in the identification of a major protein component of apparent Mr = 93,000 which interacted with the two radioligands. In addition, a similar component of Mr = 88,000 was characterized after analysis by SDS-PAGE of membrane receptors covalently cross-linked with 125I-[Leu8,DTrp22,Tyr25]somatostatin 28 by different heterobifunctional reagents: N-5-azido-2-nitrobenzoyloxysuccinimide, N-hydroxysuccinimidyl 4-azidobenzoate, N-succinimidyl 6-(4'-azido-2'-nitrophenylamino)hexanoate. Optimal cross-linking results were obtained with N-5-azido-2-nitrobenzoyloxysuccinimide. The solubilized somatostatin-receptor complex was adsorbed to wheat-germ agglutinin-agarose column and eluted by specific sugars. We concluded that the guinea-pig pancreatic somatostatin receptor in the membrane and in the non-denaturing detergent solution behaves as a protein monomer of apparent Mr approximately 85,000-90,000. The somatostatin receptor is a glycoprotein which contains complex-type carbohydrate chains.     

Endocytosis and intracellular transport of epidermal growth factor after destruction of the actin cytoskeleton by cytochalasin B

Endocytosis of the epidermal growth factor (EGF) was investigated in three cell lines--A431, 3T6 and Swiss 3T3--after their incubation with cytochalasin B (CB). CB was introduced into culture medium (10 mkg/ml) 1.5-2 hours before addition of 125I-EGF (20-40 ng/ml). The label uptake rate was measured after a 35-40 minutes incubation of cells with 125I-EGF. It appeared that disorganization of microfilamentous network caused by CB exerted no influence on the binding of EGF to the surface membrane receptors and its internalization. Nevertheless, the experiments performed on A431 cells using a fluorescent label--rhodamine--bound to EGF (EGF-R) indicate that CB, though not influencing the initial steps of endocytosis, inhibits the next step--the intracellular transport of EGF-receptor complexes from the trans-Golgi region to lysosomes. As was shown elsewhere (Barkan, Nikol'sky, 1986), CB inhibits the mitogenic effect of EGF on resting Swiss 3T3 cells. So, the process of EGF-receptor uptake and delivery to the trans-Golgi region is evidently not enough to stimulate the cell proliferation; next steps of transport and degradation of ligand-receptor complexes are presumably needed.     

Biological effects and receptor binding affinities of new pseudononapeptide bombesin/GRP receptor antagonists with N-terminal D-Trp or D-Tpi.

In an attempt to produce more powerful (effective) bombesin/GRP receptor antagonists, the D forms of Trp or Trp analog (Tpi) were introduced at position 6 in two pseudononapeptides, Leu13 psi (CH2NH)Leu14-bombesin(6-14) and Leu13 psi(CH2NH)Phe14-bombesin (6-14). These antagonists were tested for their ability to inhibit basal and gastrin releasing peptide (GRP) (14-27)-induced amylase release from rat pancreatic acini in a superfusion assay. They were also assessed for the inhibition of 125I-Tyr4-bombesin binding to Swiss 3T3 and small cell lung carcinoma cell line H-345 and the mitogenic response of Swiss 3T3 cells induced by GRP(14-27). The peptides, when given alone, did not stimulate amylase secretion, but were able to inhibit gastrin releasing peptide (14-27)-induced amylase release. All of the antagonists showed strong binding affinities for Swiss 3T3 and H-345 cells and suppressed the GRP(14-27)-induced increase of [3H]thymidine incorporation into DNA of Swiss 3T3 cells at nanomolar concentrations. Antagonist D-Tpi6,Leu13 psi (CH2NH)Leu14-bombesin (6-14)(RC-3095) was slightly more potent in these assays than D-Trp6,Leu13 psi (CH2NH)Leu14-bombesin (6-14)(RC-3125). Nevertheless, D-Trp6,Leu13 psi (CH2NH)Phe14-bombesin (6-14) showed the highest binding affinity for Swiss 3T3 and H345 cells and it was the most potent inhibitor of GRP(14-27)-induced amylase secretion. This antagonist RC-3420 was particularly effective in inhibiting the growth of Swiss 3T3 cells, exhibiting an IC50 value less than 1 nM.(ABSTRACT TRUNCATED AT 250 WORDS)     

the stability in various detergents of transferrin-transferrin receptor complexes from reticulocyte plasma membranes

Transferrin-membrane protein complexes were solubilized either with 0.4% sodium dodecyl sulfate (SDS), 1% Triton X-100 or 0.5% sulfobetaine 3-14 from the plasma membranes of rabbit reticulocytes previously labeled with 125I and then incubated with 131-labeled transferrin. When the solubilized membranes were analyzed by gel filtration fractionation, marked variation in the preservation of transferrin-transferrin receptor interaction was noted between the three detergents. After SDS solubilization, more than 80% of the 131I-labeled transferrin remained associated with membrane proteins with apparent molecular weight of the transferrin-receptor complexes of 1400 000 and 240 000. In contrast, after Triton X-100 solubilization only 40% of the transferrin was still complexed to membrane proteins with an apparent molecular weight of the complex of 450 000. Dissociation of transferrin from its receptor was most marked following sulfobetaine solubilization, with less than 30% of the transferrin still complexed. Following gel filtration 131I-labeled transferrin-125I-labeled membrane protein complexes were immunoprecipitated with goat specific anti-rabbit transferrin antibodies. The immunoprecipitates were analyzed under stringent dissociating conditions by two SDS-polyacrylamide gel electrophoretic techniques. In a linear 5-25% polyacrylamide gradient the 125I-labeled receptor obtained after membrane solubilization with all three detergents had an apparent molecular weight of 80 000. In contrast, in a different system using 10% polyacrylamide gel two 125I-labeled receptor components were detected wih apparent molecular weights of 90 000 and 80 000. These results demonstrate that estimates of the molecular weight of the transferrin receptor depended on the conditions of electrophoresis and suggest that the transferrin receptor is partially modified, perhaps by glycosylation.     

Requirement of cortical actin organization for bombesin, endothelin, and EGF receptor internalization

The role of actinorganization in occupancy-induced receptor internalization remainspoorly defined. Here we report that treatment of mouse Swiss 3T3 cellswith latrunculin A, a potent inhibitor of actin polymerization(including cortical actin), inhibited the internalization of theendogenous bombesin/gastrin-releasing peptide (GRP) receptor, as judgedby uptake of ¹²⁵I-labeled GRP or fluorescent Cy3-labeledbombesin. In contrast, cells pretreated with cytochalasin D showedminimal inhibition of bombesin/GRP receptor internalization. Similarly,pretreatment of Swiss 3T3 cells with the potent Rho-kinaseinhibitor HA-1077, at concentrations (10-20 µM) thatabrogated bombesin-mediated stress fiber formation, did notsignificantly alter receptor-mediated internalization of¹²⁵I-GRP. These results indicate that bombesin/GRP receptorinternalization depends on latrunculin A-sensitive cortical actinrather than on rapidly turning over actin stress fibers that aredisrupted by either cytochalasin D or HA-1077. The rates andtotal levels of internalization of the endogenously expressedendothelin A receptor and epidermal growth factor receptor were alsomarkedly reduced by latrunculin A in Swiss 3T3 cells. The potency oflatrunculin A for inhibiting G protein-coupled receptor endocytosis wascomparable to that for reducing internalization of the epidermal growthfactor tyrosine kinase receptor. We conclude that cortical actinstructures, disrupted by latrunculin A, are necessary foroccupancy-induced receptor internalization in animal cells.

     

Characterization of a bombesin receptor on Swiss mouse 3T3 cells by affinity cross-linking

We have previously identified by chemical cross-linking a cell surface protein in Swiss 3T3 cells of apparent Mr 75,000-85,000, which may represent a major component of the receptor for peptides of the bombesin family in these cells. Because bombesin-like peptides may interact with other cell surface molecules, it was important to establish the correlation between receptor binding and functions of this complex and further characterize the Mr 75,000-85,000 cross-linked protein. Detailed time courses carried out at different temperatures demonstrated that the Mr 75,000-85,000 affinity-labelled band was the earliest cross-linked complex detected in Swiss 3T3 cells incubated with 125I-labelled gastrin-releasing peptide (125I-GRP). Furthermore, the ability of various nonradioactive bombesin agonists and antagonists to block the formation of the Mr 75,000-85,000 cross-linked complex correlated extremely well (r = 0.994) with the relative capacity of these peptides to inhibit 125I-GRP specific binding. Pretreatment with unlabelled GRP for up to 6 h caused only a slight decrease in both specific 125I-GRP binding and the affinity labelling of the Mr 75,000-85,000 protein. We also show that the cross-linked complex is a glycoprotein. First, solubilized affinity labelled Mr 75,000-85,000 complex applied to wheat germ lectin-sepharose columns was eluted by addition of 0.3 M N-acetyl-D-glucosamine. Second, treatment with endo-beta-N-acetylglucosaminidase F reduced the apparent molecular weight of the affinity-labelled band from 75,000-85,000 to 43,000, indicating the presence of N-linked oligosaccharide groups.     

Effects of bombesin on human small cell lung cancer cells: evidence for a subset of bombesin non-responsive cell lines

The effects of bombesin on three human small cell lung carcinoma cell (SCLC) lines (NCI-H69, NCI-H128, and NCI-H345) have been examined and compared to the effects of the peptide on the mouse fibroblast cell line Swiss 3T3, and the rat pituitary tumor cell line GH3W5. While all three SCLC lines expressed messenger RNA encoding pro-gastrin releasing peptide (GRP), only the NCI-H345 cells expressed detectable membrane receptors for GRP and responded to nanomolar concentrations of bombesin as shown by 125I-GRP binding, total inositol phosphate accumulation, and increased clonal growth in soft agarose. These data show that some SCLC lines are insensitive to bombesin and do not express detectable membrane receptors for GRP.     

Effect of 3T3 plasma membranes on cells exposed to epidermal growth factor

Epidermal growth factor (EGF) induced DNA synthesis in non-confluent, G₀-arrested Swiss 3T3 fibroblasts is partially blocked by plasma membranes isolated from the EGF receptor deficient NR-6 Swiss 3T3 cell line. This inhibition could be due to either a steric block of the receptor by the membranes, a membrane induced down regulation of the EGF receptor, or a signal generated by membrane binding which is antagonistic towards the mitogenic signal generated by EGF. Binding measurements utilizing ¹²⁵I-labeled EGF demonstrated that membranes do not block either the EGF induced down regulation of the receptor or alter the number of receptors on the surface. These results suggest that the membranes exert their inhibitory effect via generation of a signal which is antagonistic to the EGF induced mitogenic signal, with the result expressed as a reduced mitogenic response.