Transport of gamma-interferon into the cell nucleus may be mediated by nuclear membrane receptors

Purified mouse interferon gamma (MuIFN-gamma), a lymphokine having potent antiviral, immunomodulatory, and growth inhibitory activities, is internalized (t1/2 less than 1.0 min) by mouse L929 fibroblasts via receptor-mediated endocytosis. Individual MuIFN-gamma molecules, identified by a postembedding immuno-gold technique, are then transported to the cell nucleus, perhaps through nuclear pores, into areas of dense chromatin. Purified, isolated nuclei of L929 cells bind radiolabeled MuIFN-gamma specifically and with high affinity (Kd = 2 X 10(-10) M). These nuclear membrane receptors, distinct from those for MuIFN-beta, number about 24,000/nucleus. Treatment of nuclei with trypsin prevents binding of MuIFN-gamma. The demonstration of rapid cellular uptake and transport of MuIFN-gamma into the dense chromatin, perhaps facilitated by nuclear receptors, suggests that IFN-gamma molecules, alone or bound to receptor, may directly affect genome regulation.     

IFN-gamma reduces specific binding of tumor necrosis factor on murine macrophages.

Because IFN-gamma is the main cytokine activating macrophages and TNF cooperates in this activation, we assessed TNF binding capacity during the course of murine macrophage activation by IFN-gamma. TNF binding to elicited macrophages increased with time, was maximal by 8 h of culture, and required de novo protein synthesis. 125I-TNF bound to about 40,000 sites/cell with a Kd of 1 x 10(-9) M. Cross-linking experiments performed with a bifunctional cross-linking agent revealed a specific band with a m.w. of 94,000. Preincubation of macrophages with IFN-gamma prevented the binding of TNF to receptors. This effect was dose-dependent and maximal at 100 U/ml. IFN-gamma also reduced specific TNF binding to preexisting receptors (50% inhibition in 3 h), but IFN-gamma did not change the internalization rate of TNF. These studies showed that the number of TNF receptors increased on macrophages vs maturation in culture and was negatively controlled by IFN-gamma.     

The murine IFN-gamma receptor does not transduce the activation signal to a murine promoter in human cells.

MuIFN-gamma receptor cDNA has been stably transfected in the human WISH cell line. A stable transfectant, denominated WISH-C2, expressed 46;000 receptors/cell whose affinity was similar to that observed on murine cells (Kd = 2.6 x 10(-9) M). When WISH-C2 cells were treated with Hu- or MuIFN-gamma, antiviral and antiproliferative activities were observed with HuIFN-gamma only. These findings suggest that other species-specific components associated to the binding site are required for the signal transduction. To overcome the complexity of measuring biological functions that very likely involve more than one regulatory and structural gene, we set up for the first time a system where a reporter gene driven by a murine promoter was used to directly evaluate the interaction of MuIFN-gamma receptor with an inducible promoter through the missing transducer factor.     

Characterization of the beta-adrenergic receptor of the rat peritoneal macrophage

The beta-adrenergic receptor was characterized on BCG-activated rat peritoneal macrophage membranes by radio-ligand binding studies. Saturable binding with [125I]iodocyanopindolol (125I-ICYP) was demonstrated. With Scatchard analysis, rat macrophages demonstrate approximately 1000 receptors per cell with a Kd of 5 X 10(-11) M for 125I-ICYP. Competition curves with (-) and (+) propranolol at concentrations below 10(-6) M confirmed stereospecificity. The potency of various ligands to compete for 125I-ICYP binding sites followed the order: propranolol greater than isoproterenol greater than epinephrine greater than norepinephrine with apparent Kd of 2.0 X 10(-9), 3.9 X 10(-7), 1.0 X 10(-5), and 2.5 X 10(-5) M, respectively. Isoproterenol-stimulated adenylate cyclase activity was two-fold above basal activity. The potential physiologic significance of a beta-adrenergic receptor on rat peritoneal macrophages was suggested by a dose-dependent decrease in phagocytosis of soluble, model immune complexes (aggregated gamma-globulin) by macrophages incubated with metaproterenol. We conclude that the rat macrophage has a beta-adrenergic receptor and that catecholamines may thereby modulate macrophage function.     

Characterization of Leydig cell gonadotropin-releasing hormone binding sites utilizing radiolabeled agonist and antagonist

Gonadotropin-releasing hormone (GnRH) binding sites in intact Leydig cells and in membrane preparations were investigated using 125I-labeled GnRH agonist and antagonist. Binding was saturable and involved a single class of high affinity sites. Intact Leydig cells and a membrane preparation had a higher affinity for GnRH agonist (Kd 3.0 +/- 1.7 X 10(-10) M) than for GnRH antagonist (Kd 10.0 +/- 1.8 X 10(-10) M). With anterior pituitary membranes the Kd was 2.8 +/- 0.7 X 10(-10) M for the agonist and 2.4 +/- 1.4 X 10(-10) M for the antagonist. The Kd for GnRH was similar for Leydig cells and the anterior pituitary. Chymotrypsin and trypsin digestion decreased receptor binding, but neuraminidase increased Leydig cell binding in contrast to the decrease in binding observed with pituitary receptors. The results suggest that the Leydig cell GnRH binding sites may differ from the pituitary receptor which may be related to structural differences in GnRH-like peptides recently described in extracts of rat testis.     

Biochemical and functional responses stimulated by platelet-activating factor in murine peritoneal macrophages

Platelet-activating factor (PAF) is a potent stimulant of leukocytes, including macrophages. To analyze the mechanisms of its effects upon macrophages, we determined whether macrophages bear specific surface receptors for PAF. By competitive radioactive binding assays, we determined two classes of specific receptors to be present on purified membranes derived from murine peritoneal macrophages (one having a Kd of approximately 1 X 10(-10) M and one a Kd of approximately 2 X 10(-9) M). When the macrophages were incubated with PAF, rapid formation of several inositol phosphates including inositol 1,4,5-trisphosphate and inositol 1,3,4,5-tetrakisphosphate were observed. PAF also elevated intracellular levels of calcium to 290 +/- 27% of basal levels which were 82.7 +/- 12 nM. Increases in calcium were observed first in submembranous areas of the macrophages. PAF also led to increases of 1,2-diacylglycerol of approximately 200 pmol/10(7) cells. A characteristic pattern of enhanced protein phosphorylation, similar to that initiated by both phorbol 12,13-myristate and lipopolysaccharide, was observed and involved enhanced phosphorylation of proteins of 28, 33, 67, and 103 kD. The half-maximal dose of PAF for initiating all the above effects was approximately 5 X 10(-9) M. PAF also initiated significant chemotaxis of the cells; the half-maximal dose for this effect was approximately 1 X 10(-11) M. Taken together, these observations suggest that murine mononuclear phagocytes bear specific membrane receptors for PAF and that addition of PAF leads to generation of break-down products of polyphosphoinositides, subsequent changes in intracellular calcium and protein phosphorylation, and chemotaxis.     

Characterization of specific high-affinity receptor for human lymphotoxin

The specific cell surface receptors for lymphotoxin (LT) which are expressed on murine fibroblast L.P3 cells, a subline of L929 cells, were found to consist of a single class of specific high-affinity receptors with a dissociation constant (Kd) of 3.8 X 10(-10) M and a density of 5.8 X 10(3) sites/cell. Similarly, murine fibroblast L929 cells, human melanoma A375 cells and human cervical carcinoma HeLa-S3 cells had about 7.2 X 10(3), 3.5 X 10(3), and 6.6 X 10(3) sites/cell with Kd values of 1.4 X 10(-10), 0.5 X 10(-10), and 1.1 X 10(-10) M, respectively. Among the LT receptor-positive cell lines, there was no direct correlation between the level of specific LT binding and the sensitivity to the cytotoxic or cytostatic effect of LT. Cross-linking of 125I-LT to the cell surface receptors with disuccinimidyl suberate, followed by two-dimensional gel electrophoresis of the cell lysate, revealed two kinds of LT-LT receptor complexes with molecular weights of 70 and 97 kDa, and having the same pI value of 6.8. Cell-bound 125I-LT was internalized within 1 h and degraded intracellularly, and finally secreted into the medium within a few hours. Appropriate concentrations of LT and interferon gamma (IFN gamma) showed synergistic cytotoxicity toward murine fibroblast L.P3 cells and human monocytoma U937 cells, but these cytokines were only slightly cytotoxic individually. Preincubation of these cells with IFN gamma increased the total number of LT receptors without any significant change in the dissociation constant or in the molecular weight.(ABSTRACT TRUNCATED AT 250 WORDS)     

Binding and cross-linking of recombinant mouse interferon-gamma to receptors in mouse leukemic L1210 cells; interferon-gamma internalization and receptor down-regulation

Recombinant E. coli-derived murine IFN-gamma (Mu-rIFN-gamma; 5 X 10(7) U/mg) was radiolabeled with 125I by the chloramine-T method without loss of its antiviral activity. The 125I-Mu-rIFN-gamma showed specific binding to L1210 cells. Scatchard analysis indicates about 4000 binding sites per cell and an apparent Kd of 5 X 10(-10)M. Binding of 125I-Mu-rIFN-gamma to cells was inhibited by both natural (glycosylated) and rIFN-gamma, but not by IFN-alpha/beta. Receptor-bound 125I-Mu-rIFN-gamma was rapidly internalized when incubation temperature was raised from 4 degrees C to 37 degrees C. On internalization, almost no IFN-gamma degradation was observed during 16 hr incubation. 125I-Mu-rIFN-gamma binding capacity decreased in cells preincubated with low doses of unlabeled Mu-rIFN-gamma, but not with IFN-alpha/beta. This receptor down-regulation was dose-dependent: 90% reduction of 125I-Mu-rIFN-gamma binding was observed after preincubation with 100 U/ml. After removal of IFN-gamma from the culture medium, the binding capacity increased with time. However, reappearance of receptor was completely blocked by cycloheximide or tunicamycin, suggesting that re-expression of receptors is not due to recycling but to the synthesis of new receptors, and that the receptor is probably a glycoprotein. Cross-linking of 125I-Mu-rIFN-gamma to surface L1210 cell proteins by using bifunctional agents yielded a predominant complex of m.w. 110,000 +/- 5000. Thus, assuming a bimolecular complex, the m.w. of the receptor or receptor subunit would be close to 95,000 +/- 5000. The formation of such a complex appeared highly specific on the basis of the following criteria: it could be inhibited by the addition of Mu-rIFN-gamma but not by Mu-rIFN-alpha/beta, it was not obtained in cells pretreated with IFN-gamma to induce down-regulation of IFN-gamma receptors, and it was also identified in the IFN-alpha/beta-resistant L1210R cell line, known to be sensitive to IFN-gamma and which we have recently shown to express IFN-gamma receptors.     

Expression of a mannosyl-fucosyl receptor for endocytosis on cultured primary macrophages and their hybrids

The presence of a pinocytosis receptor, specific for mannose-fucose terminated glycoproteins, has been established on murine resident peritoneal macrophages, thioglycollate-elicited peritoneal macrophages, and macrophages derived from bone-marrow in culture. Macrophagelike cell lines (J-774 and P338.D1), a myelomonocytic cell line (427E), lymphocytes, polymorphonuclear leukocytes, and fibroblasts were negative. Binding and uptake of 125I-mannose-BSA and 125I-beta-glucuronidase, respectively, into thioglycollate-induced peritoneal macrophages is saturable (Kd 4 degrees C = 5.4 X 10(-9) M; Kuptake 37 degrees C = 7 X 10(-7) M) and sugar specific. Macrophage-macrophage (rat X mouse) hybrids prepared by fusing rat alveolar macrophages with J-774-B10 (HAT-sensitive macrophagelike cell line) expresses the mannose-fucose receptor. Karyotypes of the hybrids confirmed a 1:1 fusion of rat and mouse cells. The rat/mouse hybrids express a variety of rat and mouse antigens including Fc receptors. Fibroblast-macrophage hybrids and melanoma-macrophage hybrids were negative for mannose-fucose receptor activity. The expression of the mannose-fucose receptor by macrophages appears to be regulated independently of other macrophage markers.     

Binding of monoiodinated neuropeptide Y to hippocampal membranes and human neuroblastoma cell lines

Monoiodinated radioligands of the homologous 36-amino acid peptides, neuropeptide Y (NPY) and peptide YY, were prepared by reverse phase high performance liquid chromatography with isocratic elution. [125I-Tyr1]- and [125I-Tyr36]monoiodoNPY bound equally well to a single class of high affinity binding sites on synaptosomal membranes prepared from porcine hippocampus (Kd = 1.0 X 10(-10) M) whereas iodine substitution in Tyr27, for example, partly interfered with the receptor binding. The receptors on the hippocampal membranes did not distinguish between neuropeptide Y and peptide YY either in their monoiodinated or in their unlabeled forms. Six out of twelve human neuroblastoma cell lines had high affinity binding sites for monoiodinated NPY ranging from 2 to 145 X 10(3) sites per cell. The NPY binding to three of the cell lines, SMS-MSN, SMS-KAN, and CHP-234 was of relatively high affinity (Kd = 1.3 to 6.1 X 10(-10) M), and, as in the hippocampal membranes, the long C-terminal fragment, NPY(13-36)peptide was also a relatively potent ligand for these receptors. Two other neuroblastoma cell lines, MC-IXC and CHP-212, expressed NPY receptors characterized by a lower affinity (Kd = 4.8 and 24.6 X 10(-9) M) and negligible cross-reactivity with the C-terminal fragment. It is concluded that monoiodinated radioligands of the tyrosine-rich neuropeptide Y can be prepared and that receptors for these ligands in two apparently different subtypes are found on a series of human neuroblastoma cell lines.     

A macrophage receptor for liver lysosomal beta-glucosidase

beta-Glucosidase was purified from lysosomal membranes isolated from rat liver. Binding and uptake of the purified beta-glucosidase were mediated via an apparently single binding site on rat peritoneal macrophages. The number of sites and the Kd were 4.20 X 10(4)/cell and 1.00 X 10(-7) M, respectively. Neither of the processes was inhibited by ligands for mannose/fucose receptors, mannose 6-phosphate receptors, or scavenger receptors, or by other glycoproteins and sugar compounds. A portion of the beta-glucosidase taken up into the macrophages was degraded rapidly. These results suggested that liver lysosomal beta-glucosidase was endocytosed via a receptor not previously described.     

Characterization and regulation of alpha-interferon receptor expression in interferon-sensitive and -resistant human lymphoblastoid cells

Interferon-sensitive (IFN-S) and IFN-resistant (IFN-R) Daudi lymphoblastoid cells were studied for IFN-alpha receptor expression and regulation by steady state and kinetic procedures, utilizing a homogeneous 125I-IFN-alpha 2 probe. Heterogeneity in the binding of this probe to IFN-S cells was determined to result from negatively cooperative interactions between an initially homogeneous class of IFN receptor. No such heterogeneity was noted in the IFN-R cells, indicating an apparent difference in the interaction of IFN-alpha 2 with these cells. The apparent dissociation constants (Kd) for IFN-S cell receptors were calculated to be 1 X 10(-10) M and 1 X 10(-8) M, for the high and low affinity sites, respectively. The Kd for sites on the IFN-R cells was estimated to be 4 X 10(-9) M. IFN-R and IFN-S cells expressed 2.4 X 10(4) and 3.5 X 10(4) binding sites per cell, respectively, representing an increase of at least 6-fold over previous reports of IFN-S Daudi IFN receptor density. Both IFN-S and IFN-R cells were capable of down-regulating expression of the IFN-alpha receptor in response to low concentrations of IFN-alpha 2. Furthermore, both cell lines were shown to be capable of internalizing specifically bound 125I-IFN-alpha 2 to an equivalent degree. Accordingly, we propose that the relative insensitivity of the Daudi IFN-R phenotype involves the loss of a high affinity interaction between cellular receptors and IFN-alpha 2, in addition to the reduced level of expressed low affinity binding sites.     

Preparation of 32P-labeled murine immune interferon and its binding to the mouse immune interferon receptor

Murine immune interferon (Mu-IFN-gamma) can be radiolabeled with [gamma-32P]ATP by the catalytic subunit of cAMP-dependent protein kinase. The resulting 32P-labeled Mu-IFN-gamma (32P-Mu-IFN-gamma) with high radiological specific activity (60-260 muCi/micrograms) retains biological activity. Acid hydrolysis of 32P-Mu-IFN-gamma or 32P-labeled human IFN-gamma leads to the release of [32P]phosphoserine but not phosphothreonine or phosphotyrosine. With 32P-Mu-IFN-gamma, we have demonstrated that there are 5 X 10(3) to 1.5 X 10(4) receptors per-cell on several murine cell lines of diverse origin and that the Kd at 24 degrees C for these cells is in the range of 1 X 10(-10) to 1 X 10(-9) M. Covalent binding of 32P-Mu-IFN-gamma to its receptor results in the formation of several specific high-molecular weight products, the major one of which has an apparent molecular weight of 90,000-100,000. If this represents a 1:1 complex of Mu-IFN-gamma and its receptor (or its binding subunit), the murine interferon gamma receptor has a molecular weight of 75,000-85,000.     

Human platelets possess receptors for a lymphokine: demonstration of high specific receptors for HuIFN-gamma

This report demonstrates that 125I-recombinant human interferon-gamma (125I-rHuIFN-gamma) binds to high-affinity specific receptors on human platelets. Scatchard analysis of binding data indicates the presence of homogeneous sites estimated in the order of 150 to 200, with an apparent equilibrium dissociation constant, Kd, of 2 X 10(-10) M. The binding of 125I-rHuIFN-gamma to platelet membrane was inhibited by unlabeled rHuIFN-gamma but not by unlabeled rHuIFN-alpha or unlabeled rHuIFN-beta. High affinity binding sites for HuIFN-alpha were not detectable. Cross-linking of 125I-rHuIFN-gamma to platelet membrane proteins with the use of a bifunctional agent (DSS) yielded a predominant complex of 100,000 +/- 5,000 daltons on SDS-PAGE autoradiography, which confirms the presence of specific receptors for IFN-gamma. Two faint bands of lower m.w., 70,000 and 90,000, could also be visualized. Cross-linking of 125I-rHuIFN-alpha to platelet surface could not be demonstrated by using the same procedures. This is the first time that a receptor for a lymphokine (IFN-gamma) has been demonstrated on human platelets. These findings are consistent with data already published, suggesting an interrelationship between IFN and platelet function.     

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.     

Circadian and seasonal variations of glucocorticoid receptors in normal human lymphocytes

Circulating human lymphocytes are known to contain specific glucocorticoid receptors. Using a competitive binding whole cell assay, we have examined the binding of [3H] dexamethasone to peripheral lymphocytes of normal male subjects. Lymphocytes were found to contain 2000-10000 glucocorticoid receptor sites/cell and the Kd value was in the range of 0.5-9 X 10(-9) M. The number and affinity of glucocorticoid receptors did not change throughout a 1-year observation time. In contrast, there was a significant diurnal variation in receptor content (38% higher at 11 p.m. than at 8 a.m.), while receptor affinity did not change.     

Synergistic antiviral and antiproliferative activities of Escherichia coli-derived human alpha, beta, and gamma interferons

The antiviral and antiproliferative effects of highly purified Escherichia coli-derived human interferons (IFNs) were examined in human melanoma cells (Hs294T). Antiproliferative activity was monitored by measuring inhibition of cell multiplication, and antiviral activity was determined by inhibition of herpes simplex virus type 1 replication. Treatment of cells with IFN-gamma in combination with IFN-alpha A or IFN-beta 1 resulted in potentiation of both antiproliferative and antiviral activities. In contrast, combination treatments composed of IFN-alpha A and IFN beta 1 yielded inconsistent results. Some combinations reflected additive responses, whereas others were antagonistic. To examine correlations between IFN-induced biological activities and interactions of the different IFNs with cell surface receptors, in vivo [35S]methionine-labeled IFN-alpha A was prepared. Binding studies indicated the presence of 2,980 +/- 170 receptors per cell, each with an apparent Kd of (8.4 +/- 1.3) X 10(-11) M. Results from competitive binding studies suggested that Hs294T cells possess at least two types of IFN receptors: one which binds IFN-alpha A and IFN-beta 1 and another to which IFN-gamma binds.     

Binding constants of soluble NGF-receptors in rat oligodendrocytes and astrocytes in culture

The neuronotrophic factor NGF binds to peripheral neurons of the dorsal root ganglion and the sympathetic nervous system. NGF binds to a cell surface receptor, NGFR, on these cells and displays Kd's of 10(-9) and 10(-11)M. NGF receptors have also been reported for basal forebrain magnocellular neurons. In addition, NGF specifically binds to NGFR on Schwann cells although the biological significance of this binding is not known. Here we report that NGF binds in a saturable and specific fashion to receptors on cultured isolated populations of rat astrocytes but not to oligodendrocytes. The binding to astrocytes in culture displayed a Kd of 2.7 +/- 1.0 nM with 36,000 receptors per cell.     

Interleukin-1 binding, internalization, and processing in a murine osteoblastic cell line, MC3T3.E1.

We have investigated the interaction of IL-1 and its receptor on a murine osteoblastic cell line, MC3T3.E1, with regard to binding, internalization, and the fate of the receptor-ligand complex following internalization. Binding experiments indicated that this cell line possesses a high affinity receptor (Kd 1.02 x 10(-10) M) that binds both IL-1 alpha and IL-1 beta, and has approximately 6500 receptors per cell. Cross-linking experiments indicated that the receptor has a molecular weight of 100,000 daltons. Binding of IL-1 to the receptor is inhibited by the Interleukin Receptor Antagonist Protein (IRAP). These characteristics suggest that the murine osteoblastic receptor resembles that found on T lymphocytes and fibroblasts. Internalization experiments showed that this process is fairly rapid and results in degradation of the ligand and subsequent loss of degraded IL-1 from the cell. In this respect, processing of the receptor-ligand complex mimics that observed with IL-1 receptors on murine bone marrow cells, pre-B cells, and macrophages. Although the reasons for these differences are unclear, it may be that, unlike fibroblasts, osteoblasts may function as an effector cell which rapidly removes IL-1 from the immediate environment via ligand degradation while at the same time initiating bone resorption via stimulation of osteopontin biosynthesis.     

The interaction of 125I-colony-stimulating factor-1 with bone marrow-derived macrophages

The colony-stimulating factor, CSF-1, stimulates cultured quiescent murine bone marrow-derived macrophages (BMM) to enter DNA synthesis with a lag phase of 10-12 h. The binding, dissociation, internalization, and degradation of 125I-CSF-1 by BMM during the lag phase were investigated. Quiescent BMM express approximately 5 X 10(4) cell surface receptor sites/cell but contain additional cryptic sites (approximately 10(5)/cell) that can appear at the cell surface within 10 min at 37 degrees C. Studies of the binding reaction at both 2 degrees C (Kd less than or equal to 2 X 10(-13) M) and 37 degrees C (Kd approximately 4 X 10(-10) M) are consistent with the existence of a single class of cell surface sites. The disappearance of cell surface 125I-CSF-1 following a 2-37 degrees C temperature shift results from two, competitive, first order processes, internalization and dissociation. Internalization (t1/2 = 1.6 min) is 6 times more frequent than dissociation (t1/2 = 9.6 min). Following internalization, 10-15% of the intracellular CSF-1 is rapidly degraded whereas the remaining 85-90% is slowly degraded by a chloroquin-sensitive first order process (t1/2 greater than 3.5 h). These findings were confirmed and extended by studies of the uptake of 125I-CSF-1 at 37 degrees C. Following addition of 125I-CSF-1, cell surface receptors are rapidly down-regulated (t1/2 approximately 7 min) and their replacement does not commence until 20-60% of pre-existing surface receptor sites have disappeared. Despite receptor replacement, initially from the cryptic pool and later by de novo synthesis and/or receptor recycling (4 molecules/cell/s at steady state), the number of receptors at the cell surface remains low. The process results in the intracellular accumulation of large amounts of 125I-CSF-1 (greater than 10(5) molecules/cell) by BMM. Thus, whereas the kinetics of association, dissociation, and internalization of CSF-1 with BMM and peritoneal exudate macrophages are similar, BMM, which exhibit a higher proliferative response, degrade growth factor 12 times more slowly.