Identification of exposed surface glycoproteins in undifferentiated and differentiated mouse N-18 neuroblastoma cells

A simple method is described that permitted rapid isolation of plasma membranes from mouse N-18 neuroblastoma cells. The purified plasma membranes gave a 10-fold increase in the specific activity of incorporated [³H]fucose over that of the cell homogenate. The specific activities of two other membrane markers, 5′-nucleotidase and alkaline phosphatase, increased 11-fold and 15-fold, respectively. Metabolic labeling with [³H]fucose identified a major fucosyl glycoprotein with apparent molecular weight of 92 000. Three surface labeling methods together with SDS-polyacrylamide gel electrophoresis and fluorography were used to characterize and compare the surface glycoproteins of undifferentiated and differentiated N-18 cells. The galactose oxidase/NaB³H₄ method labeled two major galactoproteins (M_r = 52 000, 42 000) in both undifferentiated and differentiated cells. The neuraminidase/galactose oxidase/NaB³H₄ method revealed many sialylgalactoproteins. Among them, the 220-kdalton, 150-kdalton and 130-kdalton bands were at least 100% more prominently labeled in the differentiated calls whereas the 76-kdalton and 72-kdalton bands were less prominently labeled in the differentiated cells when compared to their undifferentiated counterparts. The prominently iodinated protein bands in the undifferentiated cells had apparent molecular weights of 130 000, 92 000, 76 000 and 72 000 as compared to 150-, 130-, 92- and 76-kdalton bands in the differentiated cells. The labeling data obtained will enable us to further study the changes of these identified surface glycoproteins, both quantitatively and topologically, during the differentiation of neuroblastoma cells.     

Cleavage of cell surface proteins by thrombin

This study was based on our previous findings that the mitogenic action of thrombin on cultured fibroblasts can result from interaction of thrombin with the cell surface in the absence of internalization, and that the proteolytic activity of thrombin is required for stimulation of cell division. This prompted us to look for thrombin-mediated cleavages using 2-dimensional gel electrophoresis of labeled cell surface proteins. Surface membrane components were labeled by 3 procedures: (1) proteins were labeled by lactoperoxidase-catalyzed iodination using ¹²⁵I^?; (2) galactose and galactosamine residues of glycoproteins were oxidized with galactose oxidase and reduced with ³H-NaBH₄; and (3) glycoproteins were metabolically labeled by incubating cells with ³H-fucose. Labeling with the first 2 procedures was carried out after thrombin treatment; in contrast, cells metabolically labeled with ³H-fucose were subsequently treated with thrombin to look for proteolytic cleavages. Collectively, these studies indicated that only about 5 cell surface proteins were thrombin-sensitive, consistent with the high specificity of this protease. Each of the labeling procedures revealed a thrombin-sensitive cell surface glycoprotein which was identified as fibronectin by immunoprecipitation experiments. In addition, cell surface proteins of about 140K and 55K daltons were thrombin-sensitive. However, cell surface proteins of about 45K daltons and 130K to 1 50K daltons were increased after thrombin treatment. These experiments were conducted on an established line of Chinese hamster lung cells with the eventual goal of studying thrombin-mediated cleavages of cell surface proteins in a large number of cloned populations derived from this line that are either responsive or unresponsive to the mitogenic action of thrombin. This approach should permit identification of proteolytic cleavages that are necessary for thrombin-stimulated cell division.     

Isolation of ribosomal RNA precursors from Physarum polycephalum

Ribosomal RNA synthesis in Physarum polycephalum was studied by labeling intact microplasmodia with [³H]uridine. Labeled, high-molecular-weight RNA species were found in a 30,000 S structure released by phenol extraction at room temperature. RNA was released from the structure by further phenol extraction at 65–70 °C. If the labeling period was 15 min or longer, the labeled RNA was seen by polyacrylamide gel electrophoresis to be of two major types, a heterodisperse collection of 45-35 S molecules and a 26 S species. If the labeling was carried out for 30 min in the presence of cycloheximide, the major labeled species had an electrophoretic mobility corresponding to 40 S. Studies of the labeling kinetics, methylation, and base composition of these RNA molecules indicate that they are precursors to ribosomal RNA. The molecular weights of the homogeneous 40 and 26 S precursors are 3.0 × 10⁶ and 1.45 × 10⁶ daltons, respectively, in comparison with molecular weights of 1.29 × 10⁶ and 0.68 × 10⁶ daltons for the completed ribosomal RNA's.     

Species variability in the modification of erythrocyte surface proteins by enzymatic probes

Bovine and equine erythrocytes have been studied by three different surface modification techniques to investigate the accessibility of the surface components to the external medium. Lactoperoxidase labeling of equine erythrocytes results in a significant labeling of only one membrane component, a 100 000-mol.wt polypeptide corresponding to the membrane-spanning Component III of human erythrocytes. The major sialoglycoprotein of the equine erythrocyte is not labeled. This is in contradistinction to the situation for human and bovine cells, where both components are labeled. The equine membrane sialoglycoprotein is also not markedly affected by pronase, chymotrypsin or trypsin treatment of whole cells under the treatment conditions used, although it can be cleaved by pronase in isolated membranes. Experiments with the isolated glycoprotein show that its cleavage by trypsin is quite selective, whereas cleavage by pronase and chymotrypsin is much more extensive. Labelling of bovine red cells by galactose oxidase treatment followed by reduction with ³H-labeled borohydride yields radioactivity in only one major peak, that corresponding to the glycoprotein. Pretreatment of the cells with neuraminidase causes a dramatic increase in the labeling. Equine erythrocytes do not show significant labeling by this technique unless a neuraminidase pretreatment has been performed. Then only the major glycoprotein is labeled. Thus the equine glycoprotein is apparently inaccessible to the cell surface by standard surface modification methods, although it is clearly a surface component. These experiments point out some of the limitations of surface labeling and proteolysis methods in probing the accessibility of membrane components. The results suggest that the apparent inaccessibility of the equine glycoprotein is due partially to its structure and partially to its localization in the membrane.     

Products of rat liver mitochondrial protein synthesis: electrophoretic analysis of the number and size of these proteins and their solubility in chloroform: methanol

Rat liver mitochondria were incubated in vitro with radioactive leucine, and submitochondrial particles prepared by several methods. Analysis of the labeled mitochondrial membrane fractions by sodium dodecylsulfate gel electrophoresis revealed three labeled bands of molecular weights corresponding to 40,000; 27,000; and 20,000 daltons. Electrophoresis for longer times at higher concentrations of acrylamide revealed eight labeled bands, ranging in molecular weights from 48,000 to 12,000.Mitochondria were incubated for 5 min with [³H]leucine followed by a chase of unlabeled leucine. Gel electrophoresis of the membranes obtained after labeling for 5 min indicated significant synthesis of polypeptides in the 40,000 M_r, range and very little labeling of low molecular-weight polypeptides. After addition of the chase, increased synthesis of the high molecular-weight polypeptides was observed; however, no significant increase or decrease of radioactivity in the bands of low molecular-weight was observed, suggesting that rat liver mitochondria have the ability to synthesize complete proteins in the M_r 27,000–40,000 range.Approximately 16% of the total leucine incorporated into protein by isolated rat liver mitochondria in vitro could be extracted by chloroform: methanol. Gel electrophoresis of the chloroform: methanol extract revealed several bands containing radioactivity with the majority of counts in a band of 40,000 molecular weight. Gel electrophoresis of the chloroform: methanol extract of lyophilized submitochondrial particles indicated label in two broad bands in the low molecular-weight region of 14,000-10,000 with insignificant counts in the higher molecular-weight regions of the gel.Yeast cells were pulse labeled in vivo with [³H]leucine in the presence of cycloheximide and the submitochondrial particles extracted with chloroform:methanol. The extract separated after gel electrophoresis into four labeled bands ranging in molecular weight from 52,000 to 10,000. Preincubation of the yeast cells with chloramphenicol prior to the pulse labeling caused a 6-fold stimulation of labeling into the band of lowest molecular weight of the chloroform: methanol extract. These results suggest that the accumulation of mitochondrial proteins synthesized in the cytoplasm, when chloramphenicol is present in the medium, may stimulate the synthesis of certain specific mitochondrial proteins which are soluble in chloroform: methanol.     

Comparison of the Surface Proteins and Glycoproteins On Erythrocytes of Calves Before and During Infection With Babesia Bovis

The surface proteins and glycoproteins on red cells from normal and Babesia bovis-infected calf blood have been compared. Several radiolabeling probes were used to label specifically external membrane molecules which were then separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and identified by autoradiography or fluorography. No differences were observed among the Coomassie Blue-stained membrane proteins of erythrocytes from individual uninfected calves. Comparison of red cells from these animals also indicated no qualitative differences in the surface proteins with accessible tyrosyl residues labeled by lactoperoxidase-catalyzed radioiodnation, although some quantitative variation in the uptake of radioactivity into particular proteins was observed. the major radioiodinated bands on normal bovine erythrocytes had Mr of 165, 130, 90, and 45 kiloDaltons. However, labeling of surface glycoproteins by the periodate/[³H]NaBH₄ and galactose oxidase (± neuraminidase)/[³H]NaBH₄ methods showed significant differences in the surface proteins of red cells from individual uninfected calves. of 14 animals tested, 5 had major labeled glycoproteins of unique Mr. No changes were observed in radioiodinated surface proteins of total red cell samples from infected calves with 0.5-6% parasitemia. Radioiodination of concentrated infected red cells from the same samples (concentrated by selective hypotonic lysis of uninfected erythrocytes in KC1) resulted in the labeling of 3 new surface proteins, with Mr of 118, 115, and 60 kiloDaltons. the same new ¹²⁵I-labeled bands were identified on infected cells from 3 avirulent strains of B. bovis used in vaccine production. Furthermore, in concentrated infected cells there was very poor radiolabeling of major bands strongly labeled on uninfected cells (Mr 165, 130, and 90 kiloDaltons), suggesting parasite-induced loss of these proteins. Although there were some differences in ³H-labeled surface glycoproteins of red cells from normal and. B. bovis -infected blood, they were restricted to minor labeled bands and were not seen consistently. the labeled surface glycoproteins of concentrated infected cells were very similar to those of the uninfected red blood cells from infected blood.     

Isolation and characterization of surface antigens from Schistosoma mansoni. I. Evaluation of techniques for radioisotope labeling of surface proteins from adult worms

Radiolabeled surface proteins of adult Schistosoma mansoni were prepared by in vitro labeling of whole worms, and by labeling freeze-thaw surface membrane extracts. Incorporation of 125I into surface proteins was attempted using the lactoperoxidase, chloramine-T, iodosulfanilic acid, and Bolton-Hunter methods. Radiolabeling of whole worms with lactoperoxidase, chloramine-T and iodosulfanilic acid yielded a single protein peak (mol wt greater than 100,000) on SDS-PAGE, and showed considerable incorporation of label in the lipid fraction. Bolton-Hunter labeling of whole worms yielded four major peaks with molecular weights of 100,000, 60,000, 30,000 and 21,000, and minor peaks with molecular weights of 26,000, 36,000, 43,000, 68,000 and 78,000; three of the four major peaks corresponded to prominent bands in Coomassie blue-stained gels. Although carbohydrate-labeling techniques were not successful, a single carbohydrate band, molecular weight greater than 100,000, was detected was PAS staining. Radiolabeling of freeze-thaw extracts yielded results similar to those obtained with whole worms. Electron microscopy revealed the tegument to be left intact and undamaged after labeling with the Bolton-Hunter reagent.     

Use of Iodo-Gen and Iodine-125 to label the outer membrane proteins of whole cells of Neisseria gonorrhoeae

The outer membrane proteins of Neisseria gonorrhoeae are specifically labeled by use of 1,3,4,6-tetrachloro-3α,6α-diphenyl glycoluril (Iodo-Gen) and ¹²⁵I under the conditions described in this report. Use of this procedure with whole cells of N. gonorrhoeae produces a clear labeling pattern which can be visualized by electrophoretic separation of the proteins, followed by autoradiography. Electrophoretograms reveal some 70 polypeptide bands, while autoradiograms reveal only 5 or 6 labeled bands. The labeled polypeptide bands correspond to isolated outer membrane proteins, the most intensely labeled of which is the principal outer membrane protein. The method described in this report is both specific and gentle, as well as rapid and convenient.     

Photolabeling of glucose-sensitive cytochalasin B binding proteins in erythrocyte, fibroblast and adipocyte membranes

(³H)Cytochalasin B has been photoincorporated into membrane fractions of the human erythrocyte, Rous sarcoma virus-transformed chicken embryo fibroblast and rat adipocyte. Identification of D-glucose sensitive cytochalasin B binding sites was achieved by photolyzing membranes with radioligand in the presence of 0.5–0.7M D- or L-glucose. In the erythrocyte the major labeled bands on SDS-polyacrylamide gels were at 55,000 and 46,000 daltons. In the virus-transformed fibroblasts a major labeled band was at 55,000 daltons, and in adipocyte microsomal membranes, peaks at 50,000 and 45,000 daltons were observed. Binding characteristics of these polypeptides suggest that they are the putative glucose transport proteins in these three cell types.     

Proteolytic fragments of Alzheimer's paired helical filaments

We found that at least a part of Alzheimer's paired helical filaments (PHF) was cleaved by proteases to release three major polypeptides, the apparent molecular weights of which were 10K, 26K, and 36K daltons. These proteolytic fragments were strongly labeled with the antibodies specific to PHF. Absorption with highly purified PHF eliminated this labeling. The monospecific antibodies bound to the 10K daltons protein, the most intensely immunolabeled one, stained isolated neurofibrillary tangles composed of PHF. From these observations, we conclude that these polypeptides released by proteases, especially the 10K daltons protein, are derived from PHF themselves.     

Identification of a receptor for atrial natriuretic factor in rabbit aorta membranes by affinity cross-linking

Binding sites in rabbit aorta membranes for atrial natriuretic factor (ANF) have been specifically and covalently labeled by two methods. In the first, the photoreactive analog of ANF, 125I-azidobenzoyl-ANF, was synthesized and used to photoaffinity label ANF receptors. In the second, 125I-ANF was covalently attached to its binding site by treatment of the 125I-ANF-receptor complex with bifunctional cross-linking agents. Analysis of the labeled proteins by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography revealed that by both methods the same three protein bands were labeled. These bands had apparent molecular masses of 60,000, 70,000, and 120,000 daltons. With the photoaffinity label, half-maximal inhibition of labeling of each of these bands was achieved when approximately 200 pM of unlabeled ANF was included in the binding assay. These results suggest that these three different polypeptides are specific components of ANF receptors in rabbit aorta membranes.     

Newly found selenium-containing proteins in the tissues of the rat

The Se-containing proteins in 27 tissues of the rat were investigated by in vivo labeling with⁷⁵Se-selenite, separation of the tissue homogenate proteins by SDS-polyacrylamide gel electrophoresis, and determination of the labeled proteins by autoradiography. By using Se-depleted rats and a⁷⁵Se-tracer with a high specific activity, Se compounds present at only very low concentrations could be detected. Besides the 13 Se-containing proteins previously described, for which apparent molecular masses of 12, 15, 18, 20, 22, 25, 28, 34, 56, 60, 65, 70, and 75 kD have been found here, a further 15⁷⁵Se-labeled bands, with apparent molecular masses of 8, 10, 15.5, 16.5, 24, 32, 34.5, 38, 40, 41, 44, 45, 46.5, 53 and 116 kD could be distinguished. Two-dimensional separation of the kidney homogenate proteins showed that some of the Se-containing bands could be resolved into several labeled spots. Most of the newly found compounds were present in various tissues, but with some the enrichment in certain tissues suggested specific sites of action.     

Discontinuous DNA replication in developing sea urchin embryos.

Embryos of the sea urchin, Hemicentrotus pulcherrimus, growing synchronously and entering the third “S” phase at 120 min after fertilization, were pulse-labeled with [³H]thymidine for various periods ranging from 15 sec to 20 min, and the size of nascent DNA was analyzed by centrifugation in an alkaline sucrose gradient. It was found that pulse-labeling for 15 sec gave rise to a sedimentation profile with a major radioactivity peak at the position corresponding to a molecular weight of 4 × 10⁴ daltons. One-minute of labeling, however, gave a major radioactive band around the position corresponding to 1.4 × 10⁶ daltons. Upon increasing the labeling time, the radioactivity peaks or bands shifted toward the increasing molecular weights. Finally, most of the radioactive DNA was found to sediment at the bottom when the embryos were exposed to [³H]thymidine for 15 min or longer. The time span of the S phase in the cleavage embryos was about 15 min. The results of pulse and chase experiments also supported the discontinuous mechanism of DNA replication in the cleavage embryos.     

Calmodulin antagonists inhibit activity of myosin light-chain kinase independent of calmodulin

In order to identify the molecule components carrying polyglycosyl chains on cell surfaces a two-step enzymatic method was developed. In the first step, the cells were incubated with endo-beta-galactosidase to selectively expose terminal N-acetylglucosamine residues of the lactosamine backbone to the chains. In the second step these residues were glycosylated by incubation with galactosyltransferase and radioactive UDP-galactose. As many as 2.5-3.0 X 10(6) residues per cell could be transferred to human erythrocytes. Negligible amounts of labeling occurred if either of the enzymes was omitted from the incubations. Of the label 80% was found in glycoproteins. In accordance with previous observations, bands 3 and 4.5 were found to be the main carriers of polyglycosyl chains. In human promyelotic HL-60 leukemia cells, a major band of apparent molecular weight of 110000-140000 was labeled. In addition, bands of lower molecular weight which appear to have escaped detection by previous methods were also labeled. The novel labeling method was found to be simple to perform, uses commercially available reagents, and leads to the efficient and highly specific labeling of cell surface molecules carrying polyglycosyl chains.     

Accessibility of plasma membrane sialoglycoconjugates of novikoff tumor cells to exogenous neuraminidase and proteases

Plasma membrane glycoconjugates of Novikoff tumor cells were radioactively labeled by oxidation with NaIO₄ followed by reduction with NaB³H₄ Submission of the radioactively labeled glycoconjugates to polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate followed by fluorography revealed the presence of at least ten major glycoproteins and a glycolipid fraction. The glycolipid fraction contained 34% of the cell-surface radioactive label. Pretreatment of cells with neuraminidase from Vibrio cholerae reduced radioactive labeling of the glycoproteins by 71% and that of the glycolipids by 39%. Sequential treatment of cells with papain and neuraminidase further reduced radioactive labeling of the glycolipid fraction, indicating that resistance of this fraction to the hydrolytic action of neuraminidase was determined, at least in part, by steric factors. Incubation of cells with papain resulted in extensive degradation of most of the radioactively labeled glycoproteins with the exception of a subset of glycoproteins having apparent molecular weights of $\text{48 000 ± 5000}$. Trypsin was more selective, degrading three glycoproteins having apparent molecular weights of 200 000, 140 000 and 37 000.     

Surface peptides on intact Ehrlich ascites tumor cells : Identification by a method not requiring subcellular fractionation

Lactoperoxidase catalysed iodination of tyrosyl residues was used to label the exposed plasma membrane proteins in intact Ehrlich ascites tumor cells. Autoradiography of ¹²⁵I-labeled intact cells revealed that the label was predominantly associated with the plasma membrane. When whole cells were solubilized and subjected to gel electrophoresis, two major labeled peptide classes of 100 000 and 80 000 D along with 4 minor labeled classes were found. An identical labeling pattern was obtained when plasma membranes isolated from labeled cells were solubilized and subjected to gel electrophoresis. These results demonstrate that the number of exposed plasma membrane peptides and their molecular weights can be determined without first isolating the membrane by subcellular fractionation procedures, a standard approach in most studies.     

Expression of Sulfated Gangliosides in the Central Nervous System

Abstract: Several sulfated lipids were detected in the ganglioside fraction isolated from a cell line of oligodendrocyte progenitors that had been metabolically labeled with [³⁵S]sulfate. Separation of the ganglioside fraction by two-dimensional TLC showed that, except for galactosylceramide-sulfate, none of the sulfate-labeled lipids comigrated with those glycosphingolipids visualized by orcinol staining, indicating that these sulfolipids were quantitatively minor components. At least eight sulfate-labeled lipid bands were susceptible to desialylation by Arthrobacter ureafaciens neuraminidase, which resulted in the formation of three new bands that retained the labeled sulfate. Six of the sulfate-labeled lipid bands containing sialic acid were also susceptible to Vibrio cholerae neuraminidase, which generated two labeled bands that appeared identical to the two major products formed after treatment with A. ureafaciens neuraminidase. In vivo labeling of lipids from 14-day-old rat brain with [³⁵S]sulfate demonstrated that the synthesis of sulfated lipids containing sialic acid also occurred in intact brain tissue. These results show that sulfated gangliosides are synthesized in the CNS and that oligodendrocytes are one cell type that contributes to this synthesis.     

Immunochemistry and polypeptide composition of hepatitis B core antigen (HBc Ag).

Core particles were isolated from a nuclear extract of a hepatitis B-infected liver labeled with 125I by using chloramine-T and further purified by rate zonal sedimentation on sucrose gradients. Iodinated HBcAg was used as a ligand in a sensitive double-antibody radioimmunoprecipitation (RIP) assay for antibody to HBcAg. The specificity of the RIP reaction was evaluated using defined anti-HBc sera and paired sera from six well-documented cases of hepatitis B infection. The polypeptide composition of the iodinated antigen was examined by SDS-polyacrylamide gel electrophoresis of solubilized complexes of 125I-HBcAg and anti-HBc. Two major polypeptides with apparent m.w. of 17,000 and 35,000 daltons were observed and designated as cP-1 and cP-2, respectively.     

Selective stimulation by mitogens of incorporation of 35S-methionine into a family of proteins released into the medium by 3T3 cells

Serum and three mitogens for mouse embryo 3T3 cells—fibroblast growth factor from brain, fibroblast growth factor from pituitary, and epidermal growth factor—specifically stimulate the synthesis and release into the medium by these cells of a group of proteins that travel together on SDS gel electrophoresis and that are detected by ³⁵S-methionine labeling. These proteins, designated mitogen-releasable proteins (MRPs), have a median, monomer molecular weight on SDS polyacrylamide gel electrophoresis of 34,000 daltons (30,000–38,000 daltons). Our evidence indicates that these proteins comprise a family of glycoproteins, probably with a common polypeptide backbone. The observations supporting this conclusion are that MRPs give a diffuse pattern of bands upon SDS gel electrophoresis; travel as a single, diffuse band when resolved by electrophoresis in the absence of SDS; adsorb to a pea-lectin-sepharose column and can be eluted with α-methyl mannose; and can be labeled metabolically with ³H-mannose. In addition, in the presence of tunicamycin, MRPs are not made—instead, a smaller molecular weight (22,000 dalton), and apparently homogeneous, protein appears. We believe this 22,000 dalton protein to be the unglycosylated form of MRP. Further support for this idea comes from our observation that treatment of MRPs with endoglycosidase H produces a protein with a molecular weight slightly greater than 22,000 daltons. The effect of mitogens on DNA synthesis and MRP release are correlated in the following ways. First, serum factors are required for both responses. Second, in 3T3 cells transformed by SV40, Moloney and Kirsten viruses that do not synthesize DNA in response to FGF, MRPs are not released in response to FGF. Third, in untransformed 3T3 cells, the dose-response curves for fibroblast growth factor on MRP release and thymidine incorporation are closely correlated. Fourth, insulin, a poor mitogen for 3T3 cells, does not enhance MRP release. Fifth, stimulation of MRP release by epidermal growth factor or fibroblast growth factor is inhibited by hydroxyurea and butyrate, both inhibitors of DNA synthesis in these cells. Sixth, if the mitogen is removed at any time during the 20 hr preincubation period, the effect on MRP release observed between 20 and 24 hr is severely diminished.