Specific binding of nonsupressible insulinlike activity to chicken embryo fibroblasts and to a solubilized fibroblast receptor.

¹²⁵I-labeled nonsuppressible insulinlike activity—soluble in acid/ethanol (NSILA-S) binds to cultured chicken embryo fibroblasts and to an extract obtained by treating the fibroblasts with Triton X-100. Binding to intact cells and to the cell extract is timetemperature, and pH-dependent and shows saturation kinetics. The apparent intrinsic association constant for binding of NSILA-S to intact cells is 10⁹ M^?1, the number of binding sites per cell approximately 6000. Cold NSILA-S preparations of different purity displace bound ¹²⁵I-labeled NSILA-S according to their biological potency. Moreover, cold NSILA-S displaces bound ¹²⁵I-labeled NSILA-S in concentrations in which it also stimulates thymidine incorporation into fibroblast DNA. Insulin displaces bound ¹²⁵I-labeled NSILA-S only at concentrations above 1 mU/ml. Glucagon, ACTH, human growth hormone and inactivated NSILA-S are ineffective. The displacement curves obtained with human serum are similar to those obtained in the presence of cold NSILA-S.     

Selenium binding proteins in rat tissues

The 100,000 × g extracts of rat intestine and colon were incubated $\text{in}\text{vitro}$ with Na₂[⁷⁵Se]O₃. Chromatography of this material on a Sephadex G-100 column produced three radioactive peaks corresponding to molecular weights of 17,000, 68,000 and > 90,000. The 17,000 peak corresponded to a protein which sedimented in the 2S region of a 5–20% ($\text{w}\text{v}$) linear sucrose density gradient. Selenium binding to this protein was specific, stable and sensitive to thiol inhibitors such as p-chloromercuriphenylsulfonic acid (1 mM) and iodoacetamide (2 mM). Chromatography of rat serum - [⁷⁵Se] complex on Sephadex G-100 yielded only two radioactive peaks that corresponded to molecular weights of 68,000 and > 90,000. The 2S selenium binding protein of intestine and colon may mediate the biological functions of selenium in those tissues.     

Mechanisms of insulin degradation by isolated rat adipocytes

Summary We have examined some of the chemical and biological characteristics of the insulin-derived cell-associated radioactivity following incubation of isolated adipocytes with ¹²⁵I-insulin (10^–10 M) for one hour at 37 °C S ephadex G-50 chromatography of the cell-associated radioactivity demonstrated three peaks: peak I eluted with the void volume and consisted of large molecular weight material; peak II comigrated with 1251-insulin; and peak III consisted of small molecular weight degradation products (probably iodotyrosine). When the insulin peak (peak II) was divided into fourths, it was found that the binding and biologic activity of this material was not homogenous; thus, binding and biologic activity (relative to native insulin) fell markedly from the earliest to the latest eluting fractions of this peak. Furthermore, when the entire peak 11 material was applied to DEAE-Sephacel and eluted with a 0.01–0.2 M NaCl gradient, three distinct peaks were observed. These peaks were all 90% TCA precipitable, whereas the ability of the latter two eluting peaks to precipitate with anti-insulin antiserum was markedly reduced. When similar experiments were performed with chloroquine-treated cells, a large increase in cell-associated radioactivity was observed, and Sephadex G-50 chromatography demonstrated that this increase was entirely confined to peaks I and II. When the insulin peak (peak II) was divided into fourths, it was found that chloroquine markedly inhibited the decreased binding and biologic activity, from the earliest to the latest eluting fraction of this peak. Furthermore, when the peak II material (Sephadex G-50) from chloroquine-treated cells was chromatographed on DEAE-Sephacel, this material eluted in a single peak which was 95% TCA precipitable and 106% precipitable by anti-insulin antiserum. In conclusion, these studies demonstrate that: 1) intermediate insulin-derived products with reduced binding and biologic activity are generated in the process of cellular insulin degradation, and 2) the formation of these intermediate products is mediated by a chloroquine-sensitive pathway.     

Molecular feature of the nerve growth factor in human serum

High molecular weight binding components which bind [¹²⁵I] mouse β nerve growth factor exist in human serum. The binding of β nerve growth factor to the serum components was inhibited at alkaline condition. After gel filtration of human serum on a Sephadex G-150 column at neutral condition, the nerve growth factor-like immunoreactivity was observed in only one peak, differing from the high molecular weight serum components. However, at alkaline condition two peaks with nerve growth factor-like immunoreactivity appeared; one was almost at the position observed at neutral pH, and the other was a new peak eluted approximately to the column volume. these results suggest that there are at least two nerve growth factor-like molecules in human serum and most of the nerve growth factor in the serum exists in a complex form associated with serum components with high molecular weight.     

Demonstration of an endogenous, competitive inhibitor(s) of [3H] diazepam binding in bovine brain.

An endogenous inhibitor(s) of [³H] diazepam binding to synaptosomes has been demonstrated in bovine brain. The inhibitory activity of crude extracts is heat stable, dialyzable, and not affected by ether extraction. Three distinct peaks of inhibitory activity were resolved using Sephadex G-25 chromatography. The lowest molecular weight peak (<700 daltons) had the highest specific inhibitory activity and its inhibition of [³H] diazepam binding was competitive. A similar low molecular weight fraction was not observed in either muscle or liver suggesting that it may be unique to brain. Thin layer chromatography of the Sephadex G-25 fractions revealed a discrete band of inhibitory activity in the two low molecular weight peaks.     

Isolation of inhibin like peptides from human placenta

Two moieties of inhibin could be obtained by chromatography of partially purified preparations of inhibin from human placenta on Sephadex G-100, G-25 and ion exchange chromatography on diethylaminoethyl Sephadex A-50. The higher molecular weight moiety (14,000) designated as HPI-H appears to be similar to inhibin from human seminal plasma. While the lower molecular weight moiety (1500) designated as HPI-L appears to be similar to that of sheep testicular inhibin. The preparations from both human term placenta and human seminal plasma inhibited the binding of [¹²⁵I] human follicle stimulating hormone to rat testicular receptors. This effect of inhibins could be neutralized by antisera raised against corresponding polypeptide. Further these antibodies could neutralize endogenous inhibin resulting in 2 to 3 fold increase in serum follicle stimulating harmone levels, which could then be reversed by exogenous administration of the isolated inhibin preparations.     

Identification of novel calcium binding proteins of heart and brain 100,000 x g supernatant

The chelex competitive calcium binding assay has been used to assay the calcium binding activity of the 100,000 X g supernatant of bovine heart and brain. Chromatography of brain 100,000 X g supernatant on diethylamino-ethyl (DEAE) cellulose reveals the presence of two peaks of calcium binding activity, peak I eluting at about 0.05 M NaCl and peak II at about 0.18 M NaCl. Chromatography of peak I on Sephadex G-150 resolves a major and a minor peak of calcium binding activity, at Mr 40,000 and Mr 150,000. Chromatography of peak II (0.18 M NaCl) on Sepharose 6B produces two peaks of calcium binding activity, a broad peak of calcium binding activity composed of two molecular weight species of Mr 230,000 and Mr 420,000, and a sharp peak of calcium binding activity with Mr 75,000. Chromatography of the 100,000 X g supernatant of bovine heart on DEAE Cellulose reveals two peaks of calcium binding activity. Chromatography of the lower ionic strength peak on Sephadex G-150 resolved major and minor peaks of calcium binding activity at Mr 65,000 and 150,000, respectively. The results of this study suggest the presence of several calcium binding proteins, other than calmodulin, in these tissues.     

Subfragments of the papain solubilized TL antigen.

TL antigen was solubilized from the tumor ASLI (TL. 1,2,3) by papain digestion. The subfragments of 125I-labeled TL were examined by two methods. The first involved immune precipitation followed by electrophoresis on SDS-acrylamide gels. This treatment yielded three bands of molecular weight 39,000 and 19,000, as well as material which migrated with the tracking dye. In the second procedure the papain digested material was partially purified on Sephadex G-200. The active fraction from G-200 was labeled with 125Iodine, mixed with alloantiserum and rechromatographed on G-200. The isolated immune complexes were boiled in SDS and 2-mercaptoethanol, then separated on a SDS-Sephadex G-150 column. Two radioactive peaks were eluted indicating an absence of the 19,000 m.w. component following the latter method of purification.     

Immunological studies on the Purkinje cells from rat and mouse cerebella. I. Evidence for antibodies characteristic of the Purkinje cells.

Antibodies have been raised against an enriched preparation of isolated rat cerebellar Purkinje cells. The immunoglobulins were labeled with ¹²⁵I and the strength and specificity of the serum determined by a direct binding assay on cerebellar membranes. About 2% of the ¹²⁵I-labeled IgG bound to an excess of cerebellar membranes. Absorption with heart and liver membranes removed 80.5% of the ¹²⁵I-labeled IgG binding to cerebellar membranes; absorption with cerebrum membranes removed 13% more; the remaining 6.5% were directed specifically against cerebellar membranes. An enriched ¹²⁵I-labeled anti-Purkinje antibody population was prepared by absorption and subsequent elution from cerebellar membranes. The absorption pattern with heart, liver, and cerebrum membranes resembled that found with the total population of IgG except that the nonspecific binding was significantly diminished. The Purkinje cell degeneration (pcd) mouse mutant was used to assess the specificity of the serum toward the Purkinje cells. After absorption of the enriched anti-Purkinje antibodies with heart, liver, and cerebrum membranes, the binding of labeled IgG to membranes prepared from pcd/pcd cerebella was about one-fourth that found with control cerebella. The direct immunoperoxidase technique performed on smears of purified Purkinje and granule cells shows that the unabsorbed serum stains both classes of cells, but that after absorption with liver, heart, and cerebrum membranes, only the Purkinje cells react positively.     

Liver cytosolic fatty acid-binding proteins: Effect of diabetes and starvation

The binding of [1-¹⁴C]oleate to rat liver cytosol was studied, using gel filtration on Sephadex G-75 and G-50. In liver cytosols from control rats, most of the high-affinity oleate binding was in the region of 12 000-dalton proteins. In liver cytosols from diabetic and starved rats, a second peak of radioactivity appeared in the void volume. This peak was shown to be associated with a component having the molecular weight of 400 000. Evidence suggesting that a change in the composition of cytosolic binding proteins is involved is presented.     

Promoting Protein,a Silkworm Hemolymph Protein Promoting in Vitro Replication of Nucleopolyhedrovirus,Binds to β-Glucans

A protein which bound to ¹²⁵I-labeled peptidoglycan (PGN) was isolated from hemolymph of silkworm larvae. The N-terminal amino acid sequence and the molecular weight of the protein were in accord with those described for Promoting Protein (PP) from the silkworm. The binding of the protein to [¹²⁵I]PGN was competitively inhibited by various β-glucans. The binding kinetics of PGN and chitin to the protein were analyzed in a biosensor.     

Biological microcalorimetry: Edited by A. E. Beezer,Academic Press,New York/London, 1980. 484 pp. $69.00

Radiolabeled anti-human immunoglobulin G was purified by the elution from a minicolumn of Protein A-Sepharose by gel centrifugation. As much as 93.7% of the Protein A-bound ¹²⁵I-labeled immunoglobulin G was recovered within the first three 200-μl fractions. Removal of the eluting agent was achieved by centrifuging the peak fractions through a minicolumn of hydrated Sephadex G-50.     

A sensitive competency assay for concanavalin A binding

A standardized assay method has been developed for assessing the binding capacity of derivitized concanavalin A (con A). The method takes advantage of the fact that concanavalin A binds to Sephadex G-75 in an α-methyl-d-mannopyranoside-inhibitable manner. Using this binding assay we have found that α-methyl-d-mannopyranoside inhibition of [¹²⁵I]concanavalin A to Sephadex is greater than 95%. In addition, this sugar is able to remove more than 99% of [¹²⁵I]concanavalin A previously bound to Sephadex. Competition studies will allow the use of this procedure to characterize any con A sample under the exact conditions used for cell-binding studies.     

High molecular weight forms of human placental lactogen: synthesis in vitro and binding to membrane receptors for lactogenic hormones.

Translation in wheat germ extracts of poly(A)-containing RNA isolated from human term placentas resulted in the synthesis of immunoreactive forms of human placental lactogen (hPL) capable of specific binding to lactogenic receptors. The minor component coelectrophoresed on sodium dodecyl sulfate-polyacrylamide gels with authentic hPL while the major component migrated with an apparent molecular weight about 3000 larger. In addition to this precursor-like molecule, even higher molecular weight forms of hPL were observed under certain conditions: (i) when the cell-free translation products were purified by precipitation with anti-hPL serum followed by dissociation of the immunoprecipitate in guanidine hydrochloride and chromatography of the solubilized material on Sephadex G-150 in the same denaturing buffer, and (ii) when the cell-free reaction mixture was analyzed by direct chromatography on Sephadex G-150 in nondenaturing buffers. Under both sets of conditions 50–75% of the radioactivity was eluted in the column void volume, suggesting it had a molecular weight of 150,000 or more. When the high molecular weight translated product was analyzed by electrophoresis on sodium dodecyl sulfate-polyacrylamide gels, the radioactive components were identical to authentic hPL and the precursorlike form, suggesting the large forms are aggregates of the smaller forms. Both the very high molecular weight forms, composed primarily of the precursor-like molecule, and the less aggregated products bound to specific lactogenic hormone receptors in rat liver membrane preparations, although the larger forms exchanged less readily with unlabeled hPL than did the monomeric form of the hormone. The aggregated, receptor-bindable cell-free translation product may be similar to high molecular weight lactogens previously described in vivo.     

The uptake of Na-selenite in rat brain

Polyunsaturated fatty acids (PUFAs) occur in phospholipids of synapses of central nervous system (CNS). PUFAs may thus determine the fluidity of synaptosomal membranes and regulate neuronal transmission. It was therefore tempting to suggest an oxidative system in CNS protecting the membrane function, e.g., glutathione peroxidase (GSH-Px). In order to trace GSH-Px Wistar rats were loaded with 4800 kBq of⁷⁵Se sodium selenite. By means of gradient ultracentrifugation, particulate fractions of CNS were isolated and radioactivity as well as selenium dependent GSH-Px were estimated. The following data were obtained:

1. All fractions (myelin, synaptic vesicles, synaptosomes, mitochondria, and microsomes) contained⁷⁵Se.
2. After acetone precipitation of GSH-Px activity, fractionation on Sephadex G-150 revealed in all particulate fractions at least two peaks of radioactivity with GSH-Px activity.
3. The two GSH-Px peaks from the Sephadex filtration were freeze dried and applied on a hydrophobic T-gel column and eluted with decreasing molarity of ammonium sulfate from 1.5 to 0.05M. The first Sephadex peak with GSH-Px activity from myelin and the second peak with GSH-Px activity from synaptic vesicles could now be resolved into two different fractions of radioactivity on the T-gel. The remaining Sephadex G-150 peaks could only be resolved into one peak of radioactivity.
4. SDS-polyacrylamide gel electrophoresis of the T-gel peaks from all fractions showed a protein band with a mobility identical with that of human erythrocyte GSH-Px. The T-gel elution of myelin, synaptic vesicles and mitochondria gave rise to nearly pure CNS GSH-Px activity.

. The data presented support the idea that CNS fractions have membrane bound GSH-Px activity that may function as protecting enzymes towards oxidative stress in the brain.     

Solubilization and hydrodynamic characterization of guanine nucleotide sensitive vasoactive intestinal peptide-receptor complexes from rat intestine

The purpose of this work was to solubilize vasoactive intestinal peptide (VIP) receptors from rat small intestinal plasma membranes and to analyze the nature and function of its molecular form(s) in a nondenaturing environment. Membranes were incubated with 3 nM 125I-VIP, washed, and treated with 1% Triton X-100. Chromatography on Sephadex G-50 showed that 60% of the extractable radioactivity was eluted with macromolecular components in the void volume. This radioactive material was dramatically reduced when 1 microM unlabeled VIP was present in the incubation medium or when membranes were pretreated with trypsin or dithiothreitol. Macromolecular components that had bound 125I-VIP were further chromatographed on Sephacryl S-300. Two peaks were observed: a major one (80%) and a minor one (20%) with Stokes radii of 5.2 and 3.1 nm, respectively. The labeling of both components was inhibited by unlabeled VIP or peptide with NH2-terminal histidine and COOH-terminal isoleucine amide (a VIP agonist). The presence of GTP (0.1 mM) in the incubation medium of membranes completely abolished the labeling of the 5.2-nm component but did not affect that of the 3.1-nm one. Moreover, GTP induced dissociation of 125I-VIP from the 5.2-nm component isolated by Sephacryl S-300 chromatography. This effect was time dependent and nucleotide specific. In contrast, GTP did not affect the stability of the 3.1-nm component. After cholera toxin catalyzed [32P]ADP-ribosylation of membranes, chromatography of solubilized material on Sephacryl S-300 showed that a peak of 32P radioactivity was coeluted with the 5.2-nm component.(ABSTRACT TRUNCATED AT 250 WORDS)     

Consequences of 125I-labeled insulin degradation by hepatocytes on the interpretation of receptor binding studies

The association of ¹²⁵I-labeled insulin with hepatocytes was assayed by filtration or microcentrifugation. Assay by centrifugation resulted in a greater amount of retained radioactive label throughout the course of association of ¹²⁵I-labeled insulin with hepatocytes. Similarly, saturation experiments assayed by microcentrifugation suggested greater binding than filtration. During dissociation, cells isolated by centrifugation released a greater amount of rapid-dissociating radioactive label. Control experiments of [³H]-inulin exclusion with cell pellets, which were isolated during microcentrifugation, demonstrated that the difference between the methods was not due to extracellular trapping of radioactivity. Therefore, the data suggested that there was more low-affinity retention when binding was assayed by centrifugation than filtration. The integrity of the ¹²⁵I-labeled insulin extracted from hepatocytes was determined by column chromatography. A substantially greater proportion of the extracted radioactivity was fragments of ¹²⁵I-labeled insulin in cells isolated by centrifugation. It is suggested that the extensive washing of the cells during filtration removes more fragments than does centrifugation. During dissociation, the low-affinity component of radioactivity, which was observed in the centrifugal assay, resulted from the transient retention of insulin fragments. The extensive degradation of insulin, which was assayed by either method, and the differences observed between these methods, should be considered in the interpretation of binding experiments with cells.     

Absence of covalent binding by insulin to erythrocyte and reticulocyte insulin receptors

We investigated whether insulin forms covalent bonds with its receptors on erythrocytes and reticulocytes, as it does in adipocytes (1). Of the [125I]-insulin specifically bound at 37 degrees C to human and rat erythrocytes and rat reticulocytes, only 1.5-2.3% was non-dissociable on extensive washing. When ghosts prepared from the washed cells were solubilized in Triton X-100, only 0.6-1.5% of the specifically bound radioactivity appeared in the void volume of a Sephadex G-50 column. Moreover in contrast to adipocytes, this high molecular weight radioactivity was not immunoprecipitable by antibodies to the insulin receptor and was dissociated during chromatography in sodium dodecyl sulphate. Thus we have been unable to demonstrate the formation of covalent bonds between insulin and its receptors on erythrocytes and reticulocytes. This finding is consistent with the hypothesis that covalent binding of insulin is a necessary receptor modification for insulin's metabolic effects.     

Insulin binding to cultured adult hepatocytes. Effects of bacitracin and chloroquine on the nature of cell-associated radioactivity.

Sephadex (G-50 fine grade)-gel chromatography and trichloroacetic acid (TCA) precipitation were used to investigate the effects of chloroquine and bacitracin on the nature of cell-associated radioactivity in studies on the binding and degradation of 125I-insulin in cultured rat hepatocytes. Sephadex peak I, eluted with the void volume, increased with hepatocyte incubation time and comprised 6% of total cell-bound radioactivity at 120 min. However, all radioactivity in this peak was due to unspecific binding. Peak II, corresponding to intact insulin, represented 95% of specifically cell-associated label at 5 min and decreased to 77% at 120 min. Peak III, containing the final low-Mr degradation products, increased with incubation time (22% of specifically bound label at 120 min). The TCA-precipitable and TCA-soluble fractions of hepatocytes extracted with 0.1% SDS were within 4-7% of the proportions of radioactivity in peaks II and III respectively. Scatchard plots based on insulin-binding data from Sephadex chromatography or TCA precipitation were identical. Dissociation studies revealed that at least 75% of the intact insulin associated with the hepatocytes was bound to receptors at the cell surface. Bacitracin increased the proportion of cell-associated intact hormone and decreased that of ligand degraded when analysed by either Sephadex chromatography or TCA precipitation. The proportion of surface-bound to internalized intact hormone remained unaltered, indicating that bacitracin acted predominantly at the cell surface. In the presence of chloroquine, which dramatically increased the contribution of peak I to specific binding, 'intact' insulin was substantially overestimated when determined as the TCA-precipitable fraction. In addition, all peak I material and 50% of cell-associated label in peak II was trapped intracellularly, thereby pointing to the lysosomal or prelysosomal site of action of this drug.     

Time course of distribution to tissues of 125I-somatomedin A injected into the rat

125I-somatomedin A (SMA) was injected iv into rats. Distribution studies in rats showed concentrations of radioactivity to be high in kidney and plasma, low in brain, and intermediate in other tissues. The concentration of total and trichloracetic acid (TCA) precipitable radioactivity in rat blood and tissues fell at rapid rate. Ninety per cent of the radioactivity was in the urine in 24 hr, and only 15% of urine radioactivity was TCA precipitable. The half-life of the radioactivity in TCA-precipitable fraction from blood and that from tissues were nearly identical (about 6 hr). In both liver and kidney, TCA-precipitable radioactivity was detected in membrane and/or organellar fraction and cytosol fraction. Sephadex G-200 chromatography at neutral PHY AT NEUTRAL PH of plasma after injection of 125I-SMA revealed 3 peaks of radioactivity in higher molecular weight region than purified SMA.