Bifunctional effects of transforming growth factor-beta (TGF-beta) on endothelial cell growth correlate with phenotypes of TGF-beta binding sites.

Transforming growth factor-beta (TGF-beta) is a bifunctional, dose-dependent regulator of endothelial cell proliferation induced in vitro by heparin-binding growth factor 1 (HBGF-1, acidic FGF). Here we have examined the relationship between endothelial cell growth and the expression of cell surface binding sites for TGF-beta and HBGF-1. Fetal bovine heart endothelial cell (FBHEC) growth was stimulated by low concentrations of TGF-beta and inhibited by high concentrations of TGF-beta while expressing two distinct classes of TGF-beta binding sites with binding constants of 24 pM (6300 sites/cell) and 900 pM (12,000 sites/cell). In contrast, human umbilical vein endothelial cells (HUVEC), whose growth was slightly promoted by TGF-beta, exhibited a single class of high-affinity TGF-beta binding sites (Kd = 45 pM, 4500 sites/cell). Affinity crosslinking using [125I]TGF-beta showed that FBHEC expressed two distinct low molecular weight TGF-beta binding sites (Mr 85,000 and 58,000), while HUVEC expressed a single type of low molecular weight TGF-beta binding site (Mr 85,000). As detected by binding of [125I]HBGF-1, preincubation of FBHEC with high concentrations of TGF-beta transmodulated the expression of high-affinity HBGF-1 receptors. In contrast, no transmodulation of HBGF-1 receptors occurred in FBHEC during preincubation with low concentrations of TGF-beta. Furthermore, preincubation of HUVEC with TGF-beta did not transmodulate the expression of HBGF-1 receptors. The data suggest that the ability of TGF-beta to stimulate or inhibit endothelial cell proliferation in a dose-dependent manner correlated with the expression of specific TGF-beta binding site subtypes and involved the transmodulation of HBGF-1 receptors.     

Neutrophil-activating peptide 2 and gro/melanoma growth-stimulatory activity interact with neutrophil-activating peptide 1/interleukin 8 receptors on human neutrophils

Neutrophil-activating peptide 1/interleukin 8 (NAP-1/IL-8), neutrophil-activating peptide 2 (NAP-2), and gro/melanoma growth-stimulatory activity (gro/MGSA) are potent inflammatory cytokines with homologous structure and similar neutrophil-activating properties. Receptors on human neutrophils that interact with these peptides were studied. Analysis of 125I-NAP-1/IL-8 binding at 0-4 degrees C revealed 64,500 +/- 14,000 receptors/cell with an apparent Kd of 0.18 +/- 0.07 nM (mean +/- S.D. of six independent experiments). Unlabeled NAP-1/IL-8, NAP-2, and gro/MGSA competed with 125I-NAP-1/IL-8 for binding to human neutrophils. Competition with increasing concentrations of unlabeled NAP-2 and gro/MGSA resolved two classes of NAP-1/IL-8 binding sites: about 70% of them bound NAP-2 and gro/MGSA with high affinity (Kd: 0.34 +/- 0.2 and 0.14 +/- 0.02), while 30% were of low affinity (Kd: 100 +/- 20 and 130 +/- 10 nM). Different binding sites, however, were not apparent upon competition with unlabeled NAP-1/IL-8, suggesting that both classes of receptors have similar affinities for NAP-1/IL-8. The existence of two receptors was also suggested by ligand cross-linking and cross-desensitization experiments. Two neutrophil membrane proteins with apparent Mr of 66,000-74,000 and 42,000-46,000 became cross-linked to 125I-NAP-1/IL-8, and the labeling was decreased when excess NAP-1/IL-8, NAP-2, or gro/MGSA was present. Stimulation of neutrophils with NAP-1/IL-8 resulted in desensitization toward a subsequent challenge with NAP-2 or gro/MGSA as shown by the rise in cytosolic free calcium. By contrast, following primary stimulation with NAP-2 or gro/MGSA, responses to NAP-1/IL-8 were only moderately attenuated, supporting the existence of NAP-1/IL-8 receptors which bind NAP-2 or gro/MGSA with low affinity. In conclusion, our results demonstrate that NAP-2 and gro/MGSA act upon human neutrophils by directly interacting with two classes of receptors for NAP-1/IL-8.     

16-kilodalton heparin binding (fibroblast) growth factor type one appears in a stable 40-kilodalton complex after receptor-dependent internalization

Incubation of 16-kDa 125I-labeled heparin binding (acidic fibroblast) growth factor type one (HBGF-1) with human hepatoma cells and normal rat hepatocytes resulted in the appearance of a stable 125I-labeled complex with an apparent molecular mass of 40 kDa. The complex could be isolated with specific antibodies against HBGF-1. In contrast to membrane receptor-bound 125I-HBGF-1, the complex was resistant to dissociation by detergents, acid, heat, and reducing or denaturing agents. Formation of a stable complex did not require treatment with cross-linking agents. Appearance of the 40-kDa complex was dependent on time, temperature, and enriched culture medium. Conditions that enhanced or reduced display of specific HBGF-1 membrane receptor sites enhanced or reduced the appearance of the 40-kDa complex. Dansylcadaverine, chloroquine, and staurosporine blocked the appearance of the 40-kDa complex concurrent with the blockage of internalization of the receptor-bound HBGF-1. Two-dimensional gel electrophoretic analysis, metabolic labeling with L-[35S]cysteine, and recovery of 16-kDa HBGF-1 from the 40-kDa complex after base treatment suggest involvement of a 24-kDa cellular protein in the complex formation. These results suggest a potentially novel receptor-dependent pathway for metabolism of HBGF-1.     

Purification form human hepatoma cells of a 130-kDa membrane glycoprotein with properties of the heparin-binding growth factor receptor

The detergent-soluble 125I-labeled receptor complex resulting after affinity cross-linking of 125I-heparin-binding growth factor type one (HBGF-1, m = 15.2-kDa) to HepG2 cells had an apparent molecular mass of 145-kDa, eluted from immobilized wheat germ lectin in the presence of N-acetylglucosamine, shifted to apparent mass of 128-kDa when treated with N-glycanase and shifted to apparent mass of 205-kDa after reduction, carboxymethylation and succinylation. Electrophoretic analysis of HepG2 cell membrane proteins revealed a major silver-stained protein of apparent molecular mass of 130-kDa that has correlative properties. These properties were used to purify the 130-kDa HepG2 glycoprotein to apparent homogeneity and suggest the glycoprotein as a candidate for the human HBGF receptor.     

Fibronectin,not laminin,mediates heparin-dependent heparin-binding growth factor type I binding to substrata and stimulation of endothelial cell growth

Summary Fibronectin and heparin-binding growth factors (HBGF) are essential for growth of cultured endothelial cells. The stimulation of endothelial cell growth by HBGF type one (HBGF-1) in particular requires heparin or a similar glycosaminoglycan. The requirement for fibronectin and heparin for HBGF-1-stimulated endothelial cell growth may be related. HBGF-1 absorbed to the natural subcellular matrix of endothelial cells supports cell growth. [¹²⁵I]HBGF-1 specifically associates with a sequentially reconstituted matrix of collagen-fibronectin-heparin, and HBGF-1 absorbed to the reconstituted matrix supports growth of the endothelial cells. A reconstituted matrix of collagen-laminin-heparin neither supported binding of [¹²⁵I]HBGF-1 nor HBGF-1-stimulated endothelial cell growth. Association kinetics of [¹²⁵I]HBGF-1 to heparinlike sites and membrane receptor sites on endothelial cell monolayers suggest that fibronectin-heparinlike binding sites in the subcellular matrix may be an obligatory reservoir of active HBGF-1 that binds to specific cell membrane receptors. This work was carried out in the laboratory of Dr. W. L. McKeehan and supported in part by grants CA37589, DK35310 and DK38639 from the Public Health Service, Department of Health and Human Services, Washington, DC.     

Evidence of high and low affinity binding sites for basic fibroblast growth factor in mouse placenta

The placenta has been shown to contain bFGF, but the presence of specific binding sites for this growth factor in this tissue remained to be established. In order to study the role of bFGF in the placenta growth, we looked for specific binding sites on mouse placental cell membranes at days 12, 14, 16, and 18 of pregnancy. At day 12, Scatchard analyses indicated that two classes of specific interaction sites for bFGF were detected. One class of high affinity binding sites was characterized by an apparent Kd of 10 pM and a binding capacity of 10 fmoles per mg of membrane protein. A second class of low affinity binding sites was detected with an apparent Kd of 60 nM and a binding capacity of 26 pmoles per mg of membrane protein. At days 14, 16 or 18, Scatchard analyses only showed low affinity binding sites with an apparent Kd of 24 nM and a binding capacity of 230 pmoles per mg of membrane protein. The characterization of these binding sites was performed by cross linking experiments that revealed two forms of specific complexes. This result suggested that the high affinity binding sites correspond to putative receptors with relative molecular masses equal to 65,000 and 85,000. The dramatic decrease of the high affinity receptor number after the 12th day of pregnancy, which is synchronous with the 9-fold increase of the low affinity binding site number, suggests that the biological activity of bFGF could be regulated by a balance between both the numbers of high and low affinity binding sites on placenta cell membranes. Thus, as it was shown for other growth factors, bFGF could only be involved at specific pregnancy stages.     

Distribution of insulin receptors in human erythrocyte membranes. Insulin binding to sealed right-side-out and inside-out human erythrocyte vesicles

Analyses of insulin binding to human erythrocytes and to resealed right-side-out and inside-out erythrocyte membrane vesicles have revealed that high affinity insulin binding receptors are present on both sides of the erythrocyte membranes. Insulin binding to human erythrocytes was examined with the use of a binding assay designed to minimize the potential errors arising from the low binding capacity of this cell type and from non-specific binding in the assay. Scatchard analysis of equilibrium binding to the cells revealed a class of high affinity sites with a dissociation constant (Kd) of (1.5 +/- 0.5) X 10(-8) M and a maximum binding capacity of 50 +/- 5 sites per cell. Interestingly, both resealed right-side-out and inside-out membrane vesicles exhibited nearly identical specific sites for insulin binding. At the high affinity binding sites, for both right-side-out and inside-out vesicles, the dissociation constant (Kd) was (1.5 +/- 0.5) X 10(-8) M, and the maximum binding capacity was 17 +/- 3 sites per cell equivalent. These findings suggest that insulin receptors are present on both sides of the plasma membrane and are consistent with the participation of the erythrocyte insulin receptors in an endocytic/recycling pathway which mediates receptor-ligand internalization/externalization.     

Characterization of the asialoglycoprotein receptor in a continuous hepatoma line

The asialoglycoprotein receptor has been identified on a continuous human hepatoma cell line, HepG2. This receptor requires Ca2+ for ligand binding and is specific for asialoglycoprotein. There are approximately 150,000 ligand molecules bound/cell at 4 degrees C. These receptors represent a homogeneous population of high affinity binding sites with Kd = 7 X 10(-9) M. From the rate of 125I-ASOR binding at 4 degrees C, kon was 0.95 X 10(6) M-1 min-1. Uptake of 125I-ASOR at 37 degrees C was approximately 0.02 pmol/min/10(6) cells.     

The binding of bombesin and somatostatin and their analogs to human colon cancers.

Specific receptors for bombesin/gastrin-releasing peptide, somatostatin, and EGF were investigated in 15 human colon cancer specimens. Eight of 15 clinical specimens (15%) of colon cancer showed the presence of somatostatin receptors. Octapeptide somatostatin analogs, RC-160 and RC-121, showed 10 times higher binding affinity for somatostatin receptors on colon cancer membranes than somatostatin. Analysis of 125I-Tyr4-bombesin binding data revealed the presence of specific binding sites in six (40%) specimens of human colon cancer. Scatchard analysis of 125I-labeled bombesin indicated a single class of receptors in three specimens with an apparent Kd value of 2.5 nM and two classes of receptors with high (Kd = 0.4 +/- 0.2 nM) and low affinity (Kd = 1.6 +/- 0.4 microM) in three other specimens. The 125I-Tyr4-bombesin binding capacities in the colon cancers for high affinity binding sites were from 6 to 228 fmol/mg protein and for low affinity binding sites 76 +/- 15 pmol/mg protein. None of the membrane preparations made from normal colonic mucosa specimens showed specific binding for 125I-Tyr4-bombesin. Five pseudononapeptide (psi 13-14) bombesin (6-14) antagonists, with different modifications at Positions 6 and 14, synthesized in our laboratory, inhibited the binding of 125I-Tyr4-bombesin in nanomolar concentrations. No correlation was found between the degree of differentiation and the presence of binding sites for somatostatin or bombesin. Specific binding of EGF was detected in 80% of colon cancer specimens. EGF binding capacity in colon cancer membranes was on average twice as high as in normal colon mucosa (50 +/- 21 vs 28 +/- 14 fmol/mg protein, respectively). Specific binding sites for somatostatin and EGF, but not bombesin, were also demonstrated in human colon cancer cell line HT-29. In HCT-116 colon cancer line only EGF receptors were found. These receptor findings and our in vivo studies on inhibition of colon cancer growth support the merit of continued evaluation of somatostatin analogs and bombesin/gastrin-releasing peptide antagonists in the management of colonic carcinoma.     

Identification and characterization of parathyroid hormone receptors on dog kidney, human kidney, chick bone and human dermal fibroblast. A comparative study of functional and structural properties.

To evaluate the functional and structural characteristics of the parathyroid hormone (PTH) receptors on different tissues and the possible heterogeneity in structure and function, PTH receptors on dog kidney membrane, human kidney membrane, chick bone cell membrane and human dermal fibroblast membrane were evaluated. The results showed that human kidney plasma membrane, canine kidney plasma membrane and chick bone cell membrane possess one single class of PTH receptor with a Kd (dissociation constant) of 1-5 nM and an IC50 also of 1-5 nM. The number of binding sites was 800 fmol per mg of protein for chick bone cell particulate membrane, 1-5 pmol per mg of protein for human kidney plasma membrane and 2.2 pmol per mg of protein for dog kidney plasma membrane. Photoaffinity labelling identified a major binding component with a molecular mass of 70 kDa in all three types of membrane. The plasma membrane fraction from human dermal fibroblast contained two different binding sites for PTH with high (Kd = 2 nM) and low (Kd = 580 nM) affinities respectively. The IC50 for the adenylate cyclase is about 2 nM, which is similar to the Kd of the high-affinity site. Photoaffinity labelling also demonstrated a major binding component with a molecular weight of 70 kDa. We conclude that structural and functional similarity exists among the PTH receptors present on chick bone cell membrane, dog kidney membrane and human kidney membrane. The human dermal fibroblast possesses two different binding sites, one of which is coupled to adenylate cyclase.     

Characterization and affinity crosslinking of receptors for tumor necrosis factor on human cells

Receptors for tumor necrosis factor (TNF) were characterized in the U-937 human histiocytic lymphoma cell line with the aid of highly purified recombinant human TNF, radiolabeled with 125I. Saturation binding to specific cell surface receptors occurred with less than 15% nonspecific binding. Analysis of the equilibrium binding data obtained at 4 degrees C revealed a single class of noninteracting binding sites. The mean number of binding sites per cell was calculated to be 12,000, and the apparent dissociation constant (Kd) was 2 X 10(-10) M. Crosslinking of 125I-TNF to the cell surface receptor with disuccinimidyl suberate, followed by NaDodSO4-polyacrylamide gel electrophoresis of the cell lysate, revealed a TNF-receptor complex with a molecular weight of approximately 100,000. Binding to concanavalin A-Sepharose suggested that the TNF receptor is a glycoprotein.     

Identification and characterization of cellular receptors for the growth regulator, oncostatin M

Oncostatin M is a polypeptide growth regulator produced by activated T cells and phorbol ester-treated U937 cells. To identify specific cellular receptors for this factor, we have characterized the binding of 125I-labeled oncostatin M to a variety of normal and malignant mammalian cells. Recombinant oncostatin M was labeled with 125I with full retention of growth inhibitory activity on A375 melanoma cells. 125I-Oncostatin M bound to sensitive cells in a time- and temperature-dependent fashion. Binding was specifically inhibited by unlabeled native or recombinant oncostatin M, but not by other polypeptide growth factors tested. Binding to human leukemic and normal blood cells was generally less than to nonhematopoietic cells. With four different cell lines, maximal growth inhibition by oncostatin M was achieved at less than maximal binding site occupancy. Scatchard graphs of direct binding data were curvilinear and indicated that 125I-oncostatin M bound with higher apparent affinity at lower 125I-oncostatin M concentrations. Using a two binding site model, affinity constants of Kd1 = 11 +/- 11 pM and Kd2 = 1000 +/- 380 pM were extrapolated from binding data with A375 cells, and values of Kd1 = 3 +/- 2 pM and Kd2 = 400 +/- 44 pM from A549 cells. The major 125I-oncostatin M binding species in a number of mammalian cell lines was identified by chemical cross-linking as a specific protein(s) of Mr = 150,000-160,000. 125I-Oncostatin M was internalized (t1/2 = 30 min) and degraded subsequent to binding to a responsive cell line.(ABSTRACT TRUNCATED AT 250 WORDS)     

Binding of epidermal growth factor (EGF) and insulin to human liver microsomes and Golgi fractions

Microsomes and Golgi fractions were isolated from 13 human liver samples without local malignancy. Binding of insulin to microsomes (per cent per 0.5 mg protein) was 14.4 +/- 7.9% with two classes of receptors: K1 = 1.4 nM, R1 = 0.28 pmol/mg; K2 = 8.1 nM, R2 = 0.62 pmol/mg. The binding was insignificantly lower than in rats. Binding of EGF was only 3.4 +/- 1.7% with two classes of receptors: K1 = 1.4 nM, R1 = 0.06 pmol/mg; K2 = 10.8 nM, R2 = 0.22 pmol/mg; the binding was much lower than in rats (26.3 +/- 5.8%). Binding of insulin to Golgi fraction (per cent per 0.1 mg protein) was 5.5 +/- 0.4% with straight line Scatchard plot; Kd = 5.6 nM, Ro = 3.06 pmol/mg; it was only half of that found in rats. In one case of hepatoma, the binding of insulin to microsomes was normal but that of EGF very low.     

Expression and characterization of erythropoietin receptors on normal human bone marrow cells

We studied the specific binding of 125I-labeled bioactive recombinant human erythropoietin (Epo) to human bone marrow mononuclear cells (BMNC) obtained from normal subjects. The 125I-labeled Epo bound specifically to the BMNC. Scatchard analysis of the data showed two classes of binding sites; one high affinity (Kd 0.07 nM) and the other low affinity (Kd 0.38 nM). The number of Epo binding sites per BMNC was 46 +/- 16 high-affinity receptors and 91 +/- 51 low-affinity receptors. The specific binding was displaced by unlabeled Epo, but not by other growth factors. Receptor internalization was observed significantly at 37 degrees C, but was prevented by the presence of 0.2% sodium azide. These findings indicate that human BMNC possess two classes of specific Epo receptors with characteristics of a hormone-receptor association.     

Expression of haptoglobin receptors in human hepatoma cells.

The uptake of radio-labeled hemoglobin-haptoglobin complex (Hb-Hp) by human hepatoma PLC/PRF/5 and HepG2 cells was investigated in an attempt to characterize the uptake process and intracellular transport. Human hepatoma cells took up Hb-Hp in a receptor-mediated manner. Scatchard analysis of binding revealed that PLC/PRF/5 and HepG2 cells exhibited about 21,000 and 63,000 haptoglobin receptors/cell, with a dissociation constant (Kd) of 8.0 and 17 nM, respectively. Human hepatocytes in primary culture also expressed about 84,000 receptors/cells, with a Kd of 7.4 nM. The hemoglobin-haptoglobin complex was internalized and subsequently the internalized Hb-Hp was slowly degraded in the cells. Preincubation of the cells with Hb-Hp resulted in a decrease in binding of the radioactive Hb-Hp to the cell surface, and was accompanied with an accumulation of intracellular receptors. The uptake of Hb-Hp by the cells was not inhibited by 100 microM chloroquine or by 10 mM methylamine, but was inhibited by 50 microM monodansylcadaverine. Hemoglobin-heme taken up by the cells induced microsomal heme oxygenase. Thus, human hepatoma PLC/PRF/5 and HepG2 cells can take up Hb-Hp by haptoglobin receptor-mediated endocytosis and Hb-Hp probably causes translocation of the haptoglobin receptors from the cell surface to the cell interior where they can be degraded. The internalized heme-moiety of hemoglobin can regulate the expression of heme oxygenase.     

Receptors for D-Trp6-luteinizing hormone-releasing hormone, somatostatin, and insulin-like growth factor I in MXT mouse mammary carcinoma

Membrane receptors for D-Trp6-luteinizing hormone-releasing hormone (D-Trp6-LH-RH), somatostatin-14 (SS-14), and insulin-like growth factor I (IGF-I) were estimated in MXT mammary cancers of mice using sensitive multipoint micromethods. The receptors were characterized in untreated animals and following in vivo treatment with microcapsules of the agonist D-Trp6-LH-RH and the somatostatin analog RC-160, which strongly inhibited tumor growth. In the control group, D-Trp6-LH-RH was bound to the single class of saturable, specific, noncooperative receptor sites (Kd, = 29.3 +/- 8.48 x 10(-9) M; Bmax = 4.55 +/- 0.31 pmol/mg membrane protein). Treatment with D-Trp6-LH-RH alone or in combination with RC-160 produced down-regulation of membrane receptors for D-Trp6-LH-RH on MXT mammary tumor cells. RC-160 alone and ovariectomy were without effect on D-Trp6-LH-RH receptors. On the membrane surface of MXT mammary cells, we found one class of high affinity, specific, saturable binding sites for SS-14 (Kd = 4.4 +/- 1.9 x 10(-9) M; Bmax = 0.58 +/- 0.21 pmol/mg membrane protein). Treatment with RC-160 alone or combined with D-Trp6-LH-RH significantly increased both the dissociation binding constant (Kd = 18.6 +/- 3.5 x 10(-9) and 10.1 +/- 0.7 x 10(-9) M, respectively) and the binding capacity (Bmax = 13.98 +/- 1.7 and 21.00 +/- 4.0 pmol/mg membrane protein, respectively). We also found specific binding sites (Kd = 3.01 +/- 0.15 x 10(-9) M; Bmax = 2.24 +/- 0.96 pmol/mg membrane protein) for IGF-I in the membrane fractions of MXT mammary cancers. Chronic treatment with D-Trp6-LH-RH and RC-160 alone or in combination, as well as ovariectomy, significantly decreased the dissociation binding constant of IGF-I membrane receptors on MXT mammary cells. Our results strongly suggest an important role of LH-RH, SS-14, and IGF-I in the growth of MXT mammary carcinoma. Changes in characteristics of receptors after treatment with analogs of LH-RH and SS-14 along with tumor growth inhibition provide additional support for the direct effect of these peptides on tumor cells. A possible significance of these findings as applied to a clinical environment is discussed.     

Vascular smooth muscle cells express distinct transforming growth factor-beta receptor phenotypes as a function of cell density in culture

Transforming growth factor-beta (TGF-beta) is a bifunctional, density-dependent regulator of vascular smooth muscle cell (SMC) proliferation in vitro (at sparse densities SMC are growth-inhibited by the peptide, whereas at confluent densities TGF-beta potentiates their growth). We have used affinity labeling and ligand binding techniques to characterize cell surface receptors for TGF-beta under sparse and confluent culture conditions. Confluent SMC, whose growth are promoted by TGF-beta, exhibited a single class of high affinity TGF-beta binding sites (Kd = 6 pM, 3,000 sites/cell). In contrast, sparse SMC (whose growth are inhibited by TGF-beta) expressed two distinct classes of high affinity binding sites with binding constants of 6 pM (3,000 sites/cell) and 88 pM (11,000 sites/cell). By affinity labeling using 125I-TGF-beta and disuccinimidyl suberate cross-linking, confluent cells were found to express a major Mr = 280,000 TGF-beta receptor as well as trace amounts of low molecular weight (Mr = 85,000 and 65,000) receptor subtypes. All three of these receptors were determined, by ligand competition, to show similar affinity for TGF-beta. The predominant receptor subtypes expressed by sparse SMC exhibited apparent Mr = 75,000 and 65,000. In ligand competition experiments, the Mr = 75,000 receptor subtype (never present in confluent cultures) exhibited lower relative affinity for TGF-beta than did the Mr = 65,000 form. The ability of TGF-beta to inhibit SMC proliferation, therefore, correlates with the expression of a unique TGF-beta-binding protein on the SMC surface. The data suggest that TGF-beta may exert opposite biological effects on the same cell type via an interaction with distinct, selectively expressed receptor subtypes.     

Nature and properties of human platelet vasopressin receptors.

The binding of 3H-labelled [8-arginine]vasopressin to human platelets or crude platelet membranes was examined. Both preparations specifically bound [8-arginine]vasopressin. The binding increased linearly with protein concentration, it was temperature- and time-dependent, saturable and could be reversed to a large extent by EDTA (10 mM). In this latter case, addition of an excess of MgCl2 (20 mM) restored the initial level of binding. Intact platelets and membranes derived from these platelets presented a single population of binding sites with a dissociation constant (Kd) of 1.3 +/- 0.2 and 1.8 +/- 0.3 nM and a maximal binding capacity of 142 +/- 48 and 270 +/- 17 fmol/mg of protein, respectively. The Kd values of various analogues correlated well with those determined on rat liver membrane V1 vasopressin receptors but not with those determined on rat kidney membrane V2 receptors.     

Identification and characterization of leukotriene C4 and D4 receptors on a cultured smooth muscle cell line, BC3H-1

We studied the characteristics of the leukotriene (LT) C4 and D4 receptors on a cultured smooth muscle cell line, BC3H-1. Specific [3H]LTC4 binding to the cell membrane was greater than 80% of total binding and saturable at a density of 3.96 +/- 0.39 pmol/mg protein, with an apparent dissociation constant (Kd) of 14.3 +/- 2.0 nM (n = 9). The association and dissociation of [3H]LTC4 binding were rapid and apparent equilibrium conditions were established within 5 min. Calculated Kd value of [3H]LTC4 binding from the kinetic analysis was 9.9 nM. From the competition analysis, calculated Ki value of unlabeled LTC4 to compete for the specific binding of [3H]LTC4 was 9.2 nM and was in good agreement with the Kd value obtained from the Scatchard plots or kinetic analysis. The rank order of potency of the unlabeled competitors for competing specific [3H]LTC4 binding was LTC4 much greater than LTD4 greater than LTE4 greater than FPL-55712. The maximum number of binding sites (Bmax) of [3H]LTD4 in the membrane of BC3H-1 cell line was about 11 times lower than that of the [3H]LTC4. The calculated values of Kd and Bmax of [3H]LTD4 binding were 9.3 +/- 0.8 nM and 0.37 +/- 0.04 pmol/mg protein, respectively (n = 3). The rank order of potency or the unlabeled competitors for competing specific [3H]LTD4 binding was LTD4 = LTE4 greater than FPL-55712 much greater than LTC4. These findings demonstrate that BC3H-1 cell line possess both LTC4 and LTD4 receptors with a predominance of LTC4 receptors. Thus BC3H-1 cell line is a good model to study the regulation of LTC4 and LTD4 receptors.     

Interaction of vasoactive intestinal peptide (VIP) with rat lymphoid cells

Receptors for vasoactive intestinal peptide (VIP) have been characterized in rat lymphoid cells. The interaction of [125I] VIP with blood mononuclear cells was rapid, reversible, specific and saturable. At apparent equilibrium, the binding of [125I] VIP was competitively inhibited by native VIP in the 0.01-100 nM range concentration. The binding data were compatible with the existence of two classes of receptors: a high-affinity class with a Kd = 0.050 +/- 0.009 nM and a low binding capacity (2.60 +/- 0.28 fmol/10(6) cells), and a low-affinity class with a Kd = 142 +/- 80 nM and a high binding capacity (1966 +/- 330 fmol/10(6) cells). Secretin, glucagon, insulin and somatostatin did not show any effect at a concentration as high as 100 nM. With spleen lymphoid cells, stoichiometric studies were performed. The binding data were compatible with the existence of two classes of receptors: a high-affinity class with a Kd = 0.100 +/- 0.033 nM and a low binding capacity (4.60 +/- 1.07 fmol/10(6) cells), and low-affinity class with a Kd = 255 +/- 110 nM and high binding capacity (2915 +/- 1160 fmol/10(6) cells). With thymocytes, no binding was obtained under different conditions.