Epidermal growth factor receptors in the human glioblastoma cell line SF268 differ from those in epidermoid carcinoma cell line A431

Two established human tumor cell lines, epidermoid carcinoma line A431 and glioblastoma line SF268, were studied to compare the interaction of each with epidermal growth factor (EGF). SF268 cells bound [125I] EGF with 35-40 fold higher affinity than did the A431 cells. The EGF binding sites of both lines were photoaffinity labeled using 2,4-NAPS-[125I] EGF, a photoreactive derivative of EGF. Extracts of photolysed cells analyzed by SDS-PAGE showed a difference between the two cell lines in the high molecular weight component corresponding to the EGF receptor. EGF in a dose range from 0.3-200 nM had no effect on thymidine incorporation by SF268 cells, whereas thymidine incorporation by A431 cells was markedly inhibited by EGF.     

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.     

Internalization and degradation of receptor bound C-reactive protein by U-937 cells: induction of H2O2 production and tumoricidal activity

The presence of a membrane receptor for C-reactive protein (CRP-R) on the human monocytic cell line U-937 was the basis for determining the metabolic fate of the receptor-bound ligand and the functional response of the cells to CRP. Internalized [125I]CRP was measured by removing cell surface-bound [125I]CRP with pronase. Warming cells to 37 degrees C resulted in the internalization of approx. 50% of the receptor-bound [125I]CRP or receptor-bound [125I]CRP-PC-KLH complexes. U-937 cells degraded about 25% of the internalized [125I]CRP into TCA-soluble radiolabeled products. The lysosomotrophic agents (chloroquine, NH4Cl) greatly decreased the extent of CRP degradation without altering binding or internalization. In addition, a pH less than 4.0 resulted in dissociation of receptor-bound [125I]CRP. Treatment of U-937 cell with monensin, a carboxylic ionophore which prevents receptor recycling, resulted in accumulation of internalized [125I]CRP. Therefore, it appears that the CRP-R complex is internalized into an endosomal compartment where the CRP is uncoupled from its receptor and subsequently degraded. CRP initiated the differentiation of the U-937 cells so that they acquired the ability to produce H2O2 and also display in vitro tumoricidal activity. The results support the concept that internalization and degradation of CRP leads to the activation of monocytes during inflammation.     

Identification and isolation of endothelial cells based on their increased uptake of acetylated-low density lipoprotein

Acetylated-low density lipoprotein (Ac-LDL) is taken up by macrophages and endothelial cells via the "scavenger cell pathway" of LDL metabolism. In this report, aortic and microvascular endothelial cells internalized and degraded 7-15 times more [125I]-Ac-LDL than did smooth muscle cells or pericytes. Bound [125I]-Ac-LDL was displaced by unlabeled Ac-LDL, but not unmodified LDL. The ability to identify endothelial cells based on their increased metabolism of Ac-LDL was examined using Ac-LDL labeled with the fluorescent probe 1,1'- dioctadecyl-3,3,3',3'-tetramethyl-indocarbocyanine perchlorate (Dil-Ac- LDL). When cells were incubated with 10 micrograms/ml Dil-Ac-LDL for 4 h at 37 degrees C and subsequently examined by fluorescence microscopy, capillary and aortic endothelial cells were brilliantly fluorescent whereas the fluorescent intensity of retinal pericytes and smooth muscle cells was only slightly above background levels. Dil-Ac-LDL at the concentration used for labeling cells had no effect on endothelial cell growth rate. When primary cultures of bovine adrenal capillary cells were labeled with 10 micrograms/ml of Dil-Ac-LDL for 4 h at 37 degrees C, then trypsinized and subjected to fluorescence-activated cell sorting, pure cultures of capillary endothelial cells could be obtained. Utilizing this method, large numbers of early passage microvascular endothelial cells can be obtained in significantly less time than with conventional methods.     

Biochemical and morphological effects of gentamicin in human proximal tubular cells: effects on lipid and lipoprotein metabolism

The effects of gentamicin, an antibiotic used extensively for antimicrobial therapy on the ultrastructure, binding, internalization, degradation, and cholesterol esterification of low-density lipoproteins, were investigated in cultured human proximal tubular cells. Cells were incubated with 0.3 mM gentamicin for 21 days with the following observations. Cells treated with gentamicin contained numerous "myeloid bodies." The binding, internalization, and degradation of 125I-labeled low-density lipoproteins ([125I]LDL) in cells treated with gentamicin was twofold lower than control cells. Pulse-chase experiments demonstrated that gentamicin did not impair the internalization of receptor-bound LDL and their subsequent transport to the lysosome. The relative amounts of [125I]LDL displaced by increasing concentrations of unlabeled LDL were the same in both gentamicin-treated and control cells. This pattern was reflected in the cell surface binding, internalization, and degradation of [125I]LDL. Gentamicin did not alter the degradation of [125I]LDL in cell homogenates at 4.0. The data suggest that gentamicin decreases the receptor-mediated endocytosis of LDL and subsequent lipid metabolism.     

Wheat germ agglutinin is selectively transported to multivesicular bodies.

Colloidal iron dextran particles bearing wheat germ agglutinin (WGA/FeDex) were bound by glycoconjugates expressed at the surface of HepG2 cells. Bound WGA/FeDex was internalized when cells were incubated at 37 degrees C and accumulated in intracellular structures which have the same buoyant density as the plasma membrane when examined on Percoll density gradients. The intracellular structures containing WGA/FeDex were identified as multivesicular bodies (MVB) by transmission electron microscopy. WGA/FeDex was not transported to lysosomes nor did it interfere with uptake and transport of GalBSA to lysosomes by the asialoglycoprotein receptor. WGA/FeDex was seen predominantly in non-coated invaginations at the cell surface, suggesting it may enter cells at a different site than GalBSA/FeDex. Highly enriched plasma membranes and MVBs containing superparamagnetic [125I]WGA/FeDex particles were prepared by high gradient magnetic affinity chromatography (HIMAC). Plasma membranes prepared by HIMAC were enriched 30-fold for [125I]WGA/FeDex, 15-fold for alkaline phosphodiesterase I, and 9-fold for galactosyltransferase relative to the crude post-nuclear homogenate and consisted entirely of plasmalemmal sheets. Intracellular structures containing WGA/FeDex were enriched 35-fold for [125I]WGA/FeDex, 10-fold for alkaline phosphodiesterase I, and 10-fold for galactosyltransferase but did not contain lysosomal beta-galactosidase. WGA/FeDex has a different ultimate destination in HepG2 cells than ligands internalized by the asialoglycoprotein receptor and can be used to obtain highly enriched plasma membranes and MVBs from cultured cells.     

The processing of receptor-bound [125I-Tyr11]somatostatin by RINm5F insulinoma cells

The peptide somatostatin (SRIF) is secreted by delta cells of the endocrine pancreas and inhibits the secretion of insulin from pancreatic beta cells. We have previously shown that [125I-Tyr11]SRIF binds to specific, high affinity receptors on RINm5F insulinoma cells and that these receptors mediate the action of SRIF to inhibit insulin release. In the present study we investigated the processing of receptor-bound [125I-Tyr11]SRIF in this clonal cell line. Surface-bound and internalized peptides were distinguished by the ability of an acid/salt solution (0.2 M acetic acid, 0.5 M NaCl, pH 2.5) to dissociate only exposed ligand-receptor complexes. Surprisingly, greater than 80% of saturably bound [125I-Tyr11]SRIF was removed by this acid wash independent of the time or temperature of the binding incubation. In contrast, the processing of receptor-bound [125I]EGF (epidermal growth factor) in RINm5F cells was markedly temperature-dependent. Although over 90% of saturably bound [125I]EGF was dissociated by acid after a 4 degrees C binding incubation, less than 10% was removed by acid treatment after 37 degrees C binding. The radioactivity released upon dissociation of receptor-bound [125I-Tyr11]SRIF was analyzed by high performance liquid chromatography and shown to consist of a mixture of intact peptide (40%) and [125I]tyrosine (60%). However, neither the rate of [125I-Tyr11]SRIF dissociation nor its degradation were affected by NH4Cl, methylamine, or leupeptin at concentrations which inhibited the lysosomal degradation of [125I] EGF. Of 11 other protease inhibitors tested, only the metalloendoprotease inhibitor, phosphoramidon, substantially reduced the degradation of receptor-bound [125I-Tyr11]SRIF. These data indicate that, unlike [125I] EGF, receptor-bound [125I-Tyr11]SRIF is not rapidly internalized by RINm5F cells and is degraded by a nonlysosomal process which may involve a metalloendoprotease.     

Regulation of low-density lipoprotein receptors in the human hepatoma cell line Hep G2

The human hepatoma cell line Hep G2 can be maintained in continuous culture and secretes numerous plasma proteins and lipoproteins into the medium. To better characterize cholesterol homeostasis in these cells we have examined the binding, internalization and degradation of [125I]LDL by cultured Hep G2 cells. Hep G2 cells express high-affinity low-density lipoprotein (LDL) receptors which facilitate the binding, internalization and degradation of [125I]LDL; these receptors can be induced by growth in LDL-depleted medium and repressed by further incubation in medium supplemented with LDL. The degradation of [125I]LDL by derepressed Hep G2 cells was inhibited by greater than 90% by monensin. Incubation of Hep G2 cells in the presence of increasing concentrations of LDL also inhibited cholesterol biosynthesis. Our results indicate that Hep G2 cells possess high affinity LDL receptors which are subject to metabolic regulation and suggest that this cell line affords a valuable model to further examine cholesterol and lipoprotein metabolism in human liver cells.     

Stimulation of LDL receptor activity in Hep-G2 cells by a serum factor(s)

The regulation of low-density lipoprotein (LDL) receptor activity in the human hepatoma cell line Hep-G2 by serum components was examined. Incubation of dense monolayers of Hep-G2 cells with fresh medium containing 10% fetal calf serum (FM) produced a time-dependent increase in LDL receptor activity. Uptake and degradation of 125I-LDL was stimulated two- to four-fold, as compared with that of Hep-G2 cells cultured in the same media in which they had been grown to confluence (CM); the maximal 125I-LDL uptake plus degradation increased from 0.2 microgram/mg cell protein/4 h to 0.8 microgram/mg cell protein/4 h. In addition, a two-fold increase in cell surface binding of 125I-LDL to Hep-G2 cells was observed when binding was measured at 4 degrees C. There was no change in the "apparent" Kd. The stimulation of LDL receptor activity was suppressed in a concentration-dependent manner by the addition of cholesterol, as LDL, to the cell medium. In contrast to the stimulation of LDL receptor activity, FM did not affect the uptake or degradation of 125I-asialoorosomucoid. Addition of FM increased the protein content per dish, and DNA synthesis was stimulated approximately five-fold, as measured by [3H]thymidine incorporation into DNA; however, the cell number did not change. Cellular cholesterol biosynthesis was also stimulated by FM; [14C]acetate incorporation into unesterified and esterified cholesterol was increased approximately five-fold. Incubation of Hep-G2 cells with high-density lipoproteins (200 micrograms protein/ml) or albumin (8.0 mg/ml) in the absence of the serum factor did not significantly increase the total processed 125I-LDL. Stimulation of LDL receptor activity was dependent on a heat-stable, nondialyzable serum component that eluted in the inclusion volume of a Sephadex G-75 column. Uptake of 125I-LDL by confluent monolayers of human skin fibroblasts was not changed by incubation with FM or by incubation with Hep-G2 conditioned medium. Taken together, these data demonstrate that LDL receptor activity in Hep-G2 cells is stimulated by a serum component. Furthermore, this serum factor shows some specificity for the LDL receptor pathway in liver-derived Hep-G2 cells.     

Characterization of ligand binding and processing by bombesin receptors in an insulin-secreting cell line.

Bombesin is a tetradecapeptide which stimulates insulin secretion in vivo by isolated islets and by HIT-T15 cells, a clonal line of hamster pancreatic-islet cells. In the present study we have used [125I-Tyr4]bombesin to characterize bombesin receptors in HIT-T15 cells. [125I-Tyr4]Bombesin binding was time- and temperature-dependent: maximum binding occurred after 45 min, 90 min and 10 h at 37, 22 and 4 degrees C respectively. Thereafter, cell-associated radioactivity declined at 37 degrees C and 22 degrees C but not at 4 degrees C. Scatchard analysis of [125I-Tyr4]bombesin binding measured at 4 degrees C showed that HIT-T15 cells contain a single class of binding sites (approximately equal to 85000/cell) with an apparent Kd of 0.9 +/- 0.11 nM. Structurally unrelated neuropeptides did not compete for [125I-Tyr4]bombesin binding. However, the relative potencies of bombesin and four bombesin analogues in inhibiting the binding of [125I-Tyr4]bombesin correlated with their ability to stimulate insulin release. Receptor-mediated processing of [125I-Tyr4]bombesin was examined by using an acid wash (0.2 M-acetic acid/0.5 M-NaCl, pH 2.5) to dissociate surface-bound peptide from the cells. Following [125I-Tyr4]bombesin binding at 4 degrees C, more than 85% of the cell-associated radioactivity could be released by acid. When the temperature was then increased to 37 degrees C, the bound radioactivity was rapidly (t1/2 less than 3 min) converted into an acid-resistant state. These results indicate that receptor-bound [125I-Tyr4]bombesin is internalized in a temperature-dependent manner. In fact, the entire ligand-receptor complex appeared to be internalized, since pretreatment of cells with 100 nM-bombesin for 90 min at 37 degrees C decreased the subsequent binding of [125I-Tyr4]bombesin by 90%. The chemical nature of the cell-associated radioactivity was determined by reverse-phase chromatography of the material extracted from cells after a 30 min binding incubation at 37 degrees C. Although 70% of the saturably bound radioactivity was co-eluted with intact [125I-Tyr4]bombesin 90% of the radioactivity subsequently dissociated from cells chromatographed as free iodide. At least some of the degradation of receptor-bound [125I-Tyr4]bombesin appeared to occur in lysosomes, since chloroquine increased the cellular accumulation of [125I-Tyr4]bombesin at 37 degrees C and slowed the release of radioactivity.(ABSTRACT TRUNCATED AT 400 WORDS)     

Co-localization of 125I-epidermal growth factor and ferritin-low density lipoprotein in coated pits: a quantitative electron microscopic study in normal and mutant human fibroblasts

Low density lipoprotein (LDL) and epidermal growth factor (EGF) bind to receptors on the surface of human fibroblasts and are internalized in coated vesicles. Each of the ligands has been studied separately by electron microscopy in human fibroblasts using ferritin-LDL as one visual probe and 125I-EGF as a second visual probe. A mutant strain of human fibroblasts (J.D.) has been described in which LDL does not localize to coated pits and hence is not internalized. Because LDL and EGF do not compete with each other for binding, in the current studies we coincubated the two ligands with normal and mutant cells to visualize their cellular fates. In normal fibroblasts ferritin-LDL and 125I-EGF both bound preferentially to coated pits at 4 degrees C and both ligands were internalized into endocytotic vesicles and lysosomes. Quantitative studies in normal cells showed that 75% of the coated pits and vesicles that contained 125I-EGF also contained ferritin-LDL, indicating that both ligands enter the cell through the same endocytotic vesicles. In the LDL internalization-mutant J.D. cells, ferritin-LDL did not localize in coated pits and was not internalized, but 125I-EGF bound to coated pits and was internalized just as in normal fibroblasts.     

Appearance of basic fibroblast growth factor receptors upon differentiation of rat mammary epithelial to myoepithelial-like cells in culture

The binding of [125I]-epidermal growth factor (EGF) and [125I]-basic fibroblast growth factor (bFGF) to a number of single-cell cloned rat mammary cell lines was measured using a saturation assay. Similar numbers of high-affinity [125I]-EGF binding sites (KD 1.3 nM) were found in epithelial and myoepithelial-like cell lines. In contrast, high-affinity (KD 35-276 pM) [125I]-bFGF binding sites were present on fibroblastic and myoepithelial-like cell lines but were not detectable on epithelial cell lines. A series of cell lines representing stages in the differentiation pathway of epithelial cells to an elongated myoepithelial-like morphology showed a graded increase in the number of bFGF receptors. The sensitivity of a cell line to stimulation of DNA synthesis by bFGF correlated with the level of expression of bFGF receptors on the cellular surface. Complexes of cell surface receptors affinity-cross-linked to [125I]-bFGF were analysed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). In each case two distinct complexes having apparent molecular weights of 180 kDa and 160 kDa were observed.     

Incorporation of an (125)I-labeled hexa-iodinated diglyceride analog into low-density lipoprotein and high specific uptake by cells of cervical carcinoma cell lines.

The feasibility of using low-density lipoprotein (LDL) to deliver cytotoxic drugs to tumor cells has been explored since the 1980s, when cells of a number of cancer cell lines were found to have higher LDL receptor activity than normal cells. Such differential uptake between tumor and normal cells may provide a unique opportunity to use LDL as a tumor-specific carrier of radiopharmaceuticals for the clinical management of cancer. In this study, an (125)I-labeled hexa-iodinated diglyceride analog, 1, 3-dihydroxypropan-2-one 1,3-diiopanoate (DPIP), was synthesized and incorporated into LDL using a fusion technique. It was found that approximately 500 [(125)I] DPIP molecules were incorporated into each LDL particle. Cells of three human cervical tumor cell lines, HeLa, SiHa and C-33A, were used to examine the cellular uptake of the [(125)I]DPIP-LDL conjugate. It was shown that the [(125)I]DPIP-LDL conjugate was specifically bound to and taken up by cervical tumor cells through an LDL receptor-mediated endocytosis pathway. The results suggest that LDL may be a selective carrier for delivering hydrophobic radiopharmaceuticals to cancer cells and particularly for the diagnosis of cervical tumors.     

Calcium channel blockers stimulate LDL receptor synthesis in human skin fibroblasts

Human skin fibroblasts incubated in lipoprotein-deficient medium in the presence of 50-100 microM of the calcium channel blockers verapamil or diltiazem incorporated up to 2.5 times more [35S]methionine into immunoprecipitable LDL receptor protein than did control cells. Verapamil was found to be more potent in this regard than diltiazem. The calcium channel blockers did not influence the overall synthesis of cellular proteins or the half-life of the LDL receptor, and they were not able to prevent the suppression of LDL receptor synthesis caused by exogenous LDL or 25-hydroxycholesterol. The calcium channel blocker-induced stimulation of LDL receptor synthesis was accompanied by a corresponding increase in binding and internalization of [125I]LDL, but the degradation of internalized lipoprotein was slightly decreased. The results suggest that intracellular Ca2+ levels modulate LDL receptor metabolism in human skin fibroblasts.     

Monoclonal antibody that immunoreacts with a subclass of human receptors for epidermal growth factor

Spleen cells from BALBc mice immunized with human epidermoid carcinoma A431 cells were fused with mouse myeloma P3NP cells. One of the isolated hybridoma lines, B4G7, secreted a monoclonal antibody of the IgG class which inhibited the binding of [125I]-EGF to A431 cells and human fibroblasts, but not to mouse 3T3 cells. This inhibition was partial (65-70%) and Scatchard analysis of the EGF binding data suggested that the B4G7 antibody interacts preferentially with a low-affinity class of EGF receptors. This monoclonal antibody specifically precipitated EGF receptors (Mr = 170,000 and 155,000) of A431 cells which were directly crosslinked with [125I]-EGF. It also precipitated EGF receptors from cells whose surface proteins were labeled with 125I, from cells grown in the presence of [35S]-methionine or [32P]-orthophosphate, and from membrane fractions phosphorylated in vitro with [32P]-gamma-ATP. Receptors subjected to EGF-induced phosphorylation, both in vivo and in vitro, were also precipitated. The B4G7 antibody blocked approximately 70% of the EGF receptors in human fibroblasts, but did not stimulate DNA synthesis in these cells. However, in the presence of this antibody, cells showed the full mitogenic response to EGF, presumably through the unblocked receptors that are likely to be of the high-affinity type.     

The internalization of nerve growth factor by high-affinity receptors on pheochromocytoma PC12 cells.

The internalization and subsequent fate of the two populations of nerve growth factor (NGF) receptors on pheochromocytoma PC12 cells were explored either by identifying the relative amounts and sizes of the receptors, after incubation of cells with [125I]NGF, by cross-linking with a photoreactive heterobifunctional reagent or by following the topological distribution of the cross-linked receptors with time. The ratio of the slow, high-affinity to the fast, low-affinity NGF receptor decreased over a 5-h incubation with [125I]NGF in a process which did not involve proteolytic conversion of the slow to the fast receptor. During this period the cross-linked slow receptor moved from a trypsin-labile to a trypsin-stable site suggestive of internalization. In contrast, the cross-linked fast NGF receptor remained trypsin sensitive for at least 2 h of incubation, indicative of a constant cell surface localization. The internalized [125I]NGF in the cross-linked slow NGF receptor was not degraded, indicating that cross-linking, by preventing the acid pH-induced dissociation of the NGF-receptor complex in the endosomes, blocks normal sorting of [125I]NGF to the lysosomes. The cross-linked receptor was not recycled to the cell surface. If this reflects the properties of the unmodified receptor then another process, possibly receptor conversion, is required to replenish slow NGF receptors in the cell surface.     

Compensated endocytosis of LDL by hamster cells co-expressing the two distinct mutant LDL receptors defective in endocytosis and ligand binding

The low density lipoprotein receptor (LDLR) regulates the plasma cholesterol level by mediating endocytosis of LDL. We established stable hamster cell lines expressing two LDLRs with distinct functional defects, i.e., endocytosis and ligand binding. In the cell line expressing only I189D h/r (human-rat chimeric) LDLR, defective in LDL binding, very little amount of LDL was internalized, although the receptor was endocytosed efficiently. In the cell line expressing Y807C LDLR solely, very few receptors were located in coated pits or endocytosed, while LDL binding to the receptor was not disrupted. In striking contrast, in the cells co-expressing both receptors, a much larger number of Y807C LDLR were internalized and co-located with I189D h/r LDLR in the perinuclear region. In these cells, LDL was bound exclusively to Y807C LDLR and its uptake was enhanced by 80% as compared to the cell expressing Y807C LDLR solely, whereas LDL binding affinity was not changed. These results suggest that a defect of the essential motif for endocytosis, cysteine 807, could be compensated by co-expression of I189D h/r LDLR, but the LDL binding was not affected.     

Characterization of the rebinding of 125I-epidermal growth factor released from BALB/c-3T3 cells following accumulation in the presence of chloroquine

Lysosomotropic amines, such as chloroquine and methylamine, increase the intracellular accumulation of 125I-EGF by inhibiting lysosomal degradation. It has been shown previously that BALB/c-3T3 cells, prelabeled at 4 degrees C with 125I-EGF for 3 h and subsequently chased at 37 degrees C in the presence of chloroquine, internalized the surface bound 125I-EGF which was subsequently released into the extracellular medium in a high molecular weight form which co-migrated with native 125I-EGF. The secreted 125I-EGF rebound to the cells from which it was released more efficiently than does peptide in the extracellular media. We now show that when the BALB/c-3T3 cells were prelabeled at 37 degrees C for 2 h in the presence of chloroquine, the internalized 125I-EGF released into the medium was in a high molecular weight form which co-migrated with native 125I-EGF and did not rebind anymore efficiently than did peptide in the extracellular media. This lack of rebinding was not due to an alteration in the 125I-EGF molecule since it was still capable of rebinding to naive A431 cells, nor was it due to the exhaustion of EGF receptors on the BALB/c-3T3 cells. The inhibition of rebinding was observed only when the cells were treated with EGF in the presence of chloroquine, and was not due to a general down-regulation of membrane receptors. The differences between the rebinding of 125I-EGF at 4 degrees C and 37 degrees C suggest that EGF may be processed via different pathways in the cell.     

Differential effects of abrin on normal and tumor cells

The effects of the plant toxin abrin on normal mouse embryonic fibroblasts (MEF), an untransformed mouse cell line (NIH 3T3), and two mouse tumor cell lines (LMTK- and S-180) were studied. Measurements of cell growth and colony formation showed that MEF and S-180 cells were more sensitive to abrin intoxication than NIH 3T3 and LMTK- cells. Also, the effects of abrin on the inhibition of [3H]leucine and [3H]thymidine incorporation were more evident in MEF and S-180 cells. The basis for these varying responses to abrin by the four different cells was examined. The number of abrin binding sites per cell was determined from [125I]abrin binding studies: NIH 3T3 and LMTK- cells had significantly fewer abrin binding sites than MEF and S-180 cells. The fate of the [125I]abrin after internalization was examined by gel electrophoresis and autoradiography. A pattern of time-dependent degradation was observed, degradation being more rapid in NIH 3T3 and S-180 cells than in LMTK- and MEF cells. We conclude that the varying responses of different cells to the toxin abrin may be due to several factors, including the relative number of abrin binding sites on the cell surface and the rate of degradation of the toxin once internalized. The results also show that the sensitivities of the cells to abrin do not necessarily correlate with their normal or neoplastic state.     

Mechanisms subserving the steroidogenic synergism between follicle-stimulating hormone and insulin-like growth factor I (somatomedin C). Alterations in cellular sterol metabolism in swine granulosa cells

Swine granulosa cells respond to follicle-stimulating hormone (FSH) and the insulin-like growth factor, IGF-I (somatomedin C), with synergistic increases in progesterone production. This facilitative interaction was not attributable to decreased catabolism of progesterone to 20 alpha-hydroxypregn-4-en-3-one, but rather to enhanced pregnenolone biosynthesis observed in response to provision of 25-hydroxycholesterol as exogenous sterol substrate. The latter evidence of increased functional cholesterol side-chain cleavage activity was accompanied by augmented incorporation of [35S]methionine into specific immunoisolated components of the cholesterol side-chain cleavage apparatus, viz. cytochrome P-450scc and adrenodoxin. The synergism between FSH and IGF-I could be sustained over 4 days of serum-free monolayer culture. Under these conditions, compactin, a competitive inhibitor of de novo endogenous cholesterol biosynthesis, suppressed stimulated progesterone production by approximately equal to 50%. However, synergism was not expressed at the levels of [14C]acetate incorporation into nonsaponifiable lipids or endogenous 3-hydroxy-3-methylglutaryl coenzyme A reductase activity per se. Conversely, exogenous sterol substrate provided in the form of low-density lipoprotein (LDL)-borne cholesterol increased the absolute magnitude of the combined actions of IGF-I and FSH by 3-6-fold. This increase in steroidogenesis in response to LDL was associated with enhanced surface binding, internalization, and degradation of [125I] iodo-LDL. In addition, when granulosa cells were incubated with [3H]cholesteryl linoleate-labeled LDL, FSH and IGF-I synergistically augmented the intracellular accumulation of [3H]cholesterol and [3H]cholesteryl ester and the production of [3H]progesterone. Moreover, FSH and IGF-I coordinately increased the total mass of free and esterified cholesterol contained in granulosa cells. We conclude that FSH and IGF-I can augment absolute rates of progestin biosynthesis by granulosa cells by activating dual mechanisms: stimulation of functional cholesterol side chain cleavage activity and enhancement of effective cellular uptake and utilization of low-density lipoprotein-borne sterol substrate.