Characterization of the Fc receptors of the murine leukemia L1210

A glycoprotein extract prepared from the plasma membranes of L1210 cells was passed over columns of Sepharose 4B to which either heat-aggregated human IgG or F(ab′)₂ fragments had been coupled. The intact IgG column bound 35.7% of the applied counts, whereas the F(ab′)₂ columns bound 2.8%. The bound glycoproteins were eluted with citrate buffer (pH 3.2) and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Three peaks with apparent molecular weights of 65,000, 45,000, and 28,000 daltons were identified and purified by electroelution from polyacrylamide gels. The isolated proteins were able to bind to the same subclasses of mouse IgG myeloma proteins as the intact L1210 cells, indicating that these molecules are related to L1210 surface Fc receptors. Amino acid analyses of the 3 proteins were markedly similar suggesting that the observed molecular heterogeneity might be due to carbohydrate differences. Neuraminidase digestion of the isolated proteins resulted in mobility shifts on polyacrylamide gel electrophoresis which were consistent with the interpretation that either the isolated proteins have considerably different sialic acid contents, or that removal of the sialic acid results in disaggregation of an Fc receptor molecule.     

Extracellular Lytic Enzymes of Myxococcus virescens II. Purification of Three Bacteriolytic Enzymes and Determination of their Molecular Weights and Isoelectric Points

The bacteriolytic enzymes produced by Myxococcus virescens and previously concentrated and separated from most of the non-bacteriolytic proteins have been further separated and purified. The bacteriolytic enzyme solution was concentrated by lyo-philization. When applied to a Sephadex G-100 column, three peaks of bacteriolytic activity were eluted. Polyacrylamide gel electrophoresis showed that all the three enzyme fractions were contaminated with at least four non-bacteriolytic proteins. In the first enzyme fraction the bacteriolytic enzymes could be freed from the contaminating proteolytic activity by adsorption on a hydroxylapatite column. The bacteriolytic enzymes could then be adsorbed on a CM-cellulose column. The remaining contaminating proteins passed the column un-adsorbed while the bacteriolytic enzymes could be eluted with a gradient of 0.02–0.10 M ammonium hydrogen carbonate solution. The second enzyme fraction was adsorbed on a CM-cellulose column and then eluted with 0.03–0.15 M NH4 HCO₃. After rechromatography on a new column under the same conditions, all of the contaminating proteins had disappeared. For purification of the third enzyme fraction chro-matography on one single CM-cellulose column was sufficient. The elution of the adsorbed enzymes was performed with a gradient of 0.15–0.30 M NH₄HCO₃. The recovery of activity for each of the ion-exchange chromatography separations was at least 90%. The purity of the enzymes was tested by polyacrylamid gel electrophoresis. Each of the purified enzymes gave only one coloured band which coincided with the enzyme activity assayed in sliced gels. The molecular weights of the enzymes were determined by electrophoresis on acryl-amide gels containing sodiumdodecylsulphate. The molecular weights determined in this way (about 40,000, 30,000 and 20,000, respectively) were about 10,000 daltons higher than those obtained by gel chromatography on Sephadex G-100. This discrepancy seems to depend on interactions between the enzymes and the dextran molecules probably caused by the strongly basic nature of the enzymes or by formation of enzyme-substrate complexes.     

Purification and Some Properties of Metal-binding Proteins in Housefly Larvae (Musca domestica)

Cadmium and zinc-binding proteins similar to metallothionein have been isolated from housefly larvae (Musca domestica) exposed to cadmium chloride. Amino acid composition analysis found a high half-cystine content and an apparent minimum molecular weight of 5225. Metal-binding proteins of Musca domestica contained 3.9 g-atoms and 4.5 g-atoms of heavy metals per mole, respectively, and showed the spectral characteristic of cadmium-thionein, i.e., a broad shoulder at 250 nm and low residual absorption at 280 nm. The simple and specific replacement of cadmium and zinc bound to the protein with a cupric ion indicates that proteins have mercaptide bonding with a high affinity for copper. The molecular weight of the proteins modified with Ellman’s reagent was 5300 ± 250 when measured by gel filtration in the presence of 6 M guanidine hydrochloride.     

Effects of Rheological Properties and Molecular Weight Distribution on the Spinnability of Soy Protein

Experiments were carried out to elucidate the correlation between gel chromatographic profiles and rheological properties of dope with respect to the spinnability of soy protein. It was found that dope prepared with 20% protein concentrate and 1.2% sodium hydroxide showed a good transition zone from rubber-like elasticity to rubber-like flow, as frequency (log ω) in limitation was increased from ?1 to 1, and also the dope showed good spinnability when prepared in the above manner. Good spinnable dopes showed three main fractions in the gel chromatographic profiles on using a Sepharose 4B gel column. The first peak was of a high molecular weight fraction (M_w > 1,000,000) eluted at the void volume, the second peak was of low molecular weight fraction (M_w < 200,000; the peak was around 10,000) eluted at the end of the gel chromatogram, and the third part was a gentle upward slope between the two peaks (1,000,000 > M_w > 200,000). It was clear that the spinnabilities and rheological properties of dope depended on differences in composition of the three main fractions mentioned.     

Identification and Purification of Sulfotransferases for 20-Hydroxysteroid from the Larval Fat Body of a Fleshfly,Sarcophaga peregrina

Sulfotransferase (ST) activity for 20-hydroxyecdysone (20E) was identified in a larval fat body lysate of the fleshfly, Sarcophaga peregrina, but not in the hemolymph. The activity was highly sensitive to 2,6-dichloro-4-nitrophenol (DCNP) (IC₅₀=0.61 μM), a specific inhibitor of phenol ST (P-ST), but insensitive to triethylamine, a hydroxysteroid ST inhibitor. These results suggest that 20E-specific ST enzymes belong to the P-ST family, despite the fact that 20E is a hydroxysteroid. In addition to 20E ST activity, a relatively high level of 2-naphthol ST activity was detected in the fat body lysate. The ST activity for both substrates transiently decreased to the 50% of maximal levels, 6 hrs after induction of pupation. The ST enzymes were separated on a DEAE-cellulose column. The 20E-ST enzymes were eluted around 50 mM KCl as two separate peaks of close proximity and the P-ST was eluted at 0.1 M KCl. The 20E ST enzymes were further purified using 3′-phosphoadenosine 5′-phosphate (PAP)-agarose affinity column chromatography. Both of the eluted active fractions demonstrated 43-kDa proteins on SDS-polyacrylamide gel. Photoaffinity labeling with [³⁵S]-3′-phosphoadenosine 5′-phosphosulfate (PAPS) showed 43-kDa bands in the fat body lysate, as well as in the purified fractions. These results suggest that the 43-kDa proteins catalyze 20E sulfation within the fat body of S. peregrina.     

Expression, in Escherichia coli, of a soluble human Tumor Necrosis Factor receptor

We have expressed in Escherichia coli a soluble, truncated form of the human 55 kDa Tumor Necrosis Factor (TNF) receptor. For this purpose a plasmid was constructed which contains the extracellular domain of the 55 kDa TNF receptor fused to the coding sequence of the IgG binding domains of protein A from Staphylococcus aureus. The fusion product (TNFR-PA) obtained in E. coli is a soluble protein which bound human TNFα (huTNFα) with high affinity. In ligand-blotting experiments huTNFα bound to a single 52 kDa protein, a molecular mass corresponding to that expected for the monomeric fusion product. In gel filtration experiments binding activity was recovered from fractions that eluted at a volume corresponding to 140–150 kDa. TNFR-PA neutralized huTNFα in an in vitro cytotoxicity assay.     

Development of a chromatographic method for the isolation and detection of hygromycin B in biological fluids

An affinity chromatography method was developed for the purification of hygromycin B from biological fluids. Lysozyme and α-lactalbumin were immobilized on an N-hydroxysuccinimide activated agarose support. Hygromycin B solubilized in water was bound by the proteins and subsequently eluted using 10 mM sodium citrate buffer, pH 4.0. Hygromycin B was purified from swine plasma, bovine serum and bovine milk samples using a combination of ion-exchange chromatography for initial clean-up of spiked biological samples followed by affinity chromatography. Thin layer chromatographic analysis of the isolated hygromycin B revealed one band with the same R_F value as the hygromycin B standard.     

Binding of metals by cell walls of Cunninghamella blakesleeana grown in the presence of copper or cobalt

Summary The binding of metals by cell walls isolated from Cunninghamella blakesleeana grown in the presence of inhibitory concentration of Cu or Co and which had altered chemical compositions was compared with the binding by control cell walls. The Co-cell walls, which had higher contents of phosphate and chitosan, bound more Cu and Co. Although the V _max for Cu and Co differed with each of the cell walls, the K _m values for the binding of Cu (6.3x10^-3 M) and Co (2.1x10^-3 M) were the same for all three types of cell walls. The cell walls also differed in their quantitative binding of various metals; control cell walls: Zn> Fe> Mn> Cd> Ca> Ni> Cu> Ag> Co> Mg; Cu-cellwalls: Zn> Fe> Mn> Cu> Ni> Cd> Ag> Ca> Co> Mg; and Co-cell walls: Fe> Zn> Cu> Mn> Cd> Ag> Ca> Ni=Co> Mg. The binding of Cu was temperature-dependent and had an optimum pH. The binding of Co was inhibited by Cu, but the binding of Cu was not inhibited by Co, and Cd totally suppressed the binding of Co but not of Cu, suggesting two binding sites on the cell walls, one exclusively for Cu and the other common to both metals but with a higher affinity for Co. The cell walls did not bind Mg. The Cu-or Co-loaded cell walls eluted with 5 mM ethylenediaminetetraacetate (EDTA) rebound these metals to the same or greater extent as the original walls, but walls eluted with 0.5 N HCl bound only 50% of that bound originally.     

Mimetic ligand-based affinity purification of immune complexes and immunoconjugates

We developed a simple purification method to purify alkaline phosphatase/anti-alkaline phosphatase IgG as immune complexes using mimetic affinity chromatography wherein the antibody was either a monospecific antibody, a bispecific antibody or a commercial polyclonal IgG conjugated with alkaline phosphatase (AP–IgG) covalently. The immune complexes or conjugates were efficiently bound on the mimetic Blue A6XL column and eluted under mild conditions (5–20 mM phosphate buffer). A similar strategy of purifying peroxidase/anti-peroxidase antibody complexes was also successfully demonstrated using the mimetic Red 3 column. Mimetic affinity chromatography thus appears to be a simple method to purify the desired monospecific or bispecific antibodies from the respective hybridomas and quadromas.     

Echinococcus multilocularis: distribution and persistence of specific host immunoglobulins on cysts membranes

Cyst vesicles were obtained from larval cyst masses of Echinococcus multilocularis grown in Medium 858 in vitro or isolated from the intraperitoneal or subcutaneous larval cyst mass of C57BL/6J mice infected 12 weeks previously. Antigenic determinants were present on the outermost section of the laminated layer and throughout the germinal layer of the cysts. Specific host antibodies of the IgG1, IgG2a, IgG2b, and IgM classes and complement component C3 but not host IgA or C-reactive protein were detected on the intact cysts by the indirect immunofluorescent technique. Specific antibodies were bound to the epitopes on the laminated layer but were not detected on the germinal layer. Host albumin, however, was found on the laminated layer, germinal layer, and within the intact cyst. IgG2a and IgG2b were high-affinity antibodies but IgG1 and IgM were low-affinity antibodies as they were eluted easily from the laminated layer with two washes of sodium phosphate buffer (0.01 M, pH 7.2) containing 0.15 M NaCl. The significance of bound antibody in complement activation and antibody-dependent cell-mediated cytotoxicity of the proliferative phase (cyst) of alveolar hydatid cyst is discussed.     

Properties and fate of plasma fibronectin bound to the tissue culture substratum

Plasma fibronectin (pFn) is a serum protein which, when adsorbed to a glass or plastic substratum, mediates the adhesion of fibroblasts in culture. We have studied some of the details of its adsorption and subsequent fate. By using ¹²⁵l-labeled pFn, we show that a substratum incubated with pFn adsorbs approximately 0.4 μg/cm² pFn (a monomolecular layer), and one incubated with medium containing serum adsorbs approximately 7 ng/cm² pFn (a 12-fold enrichment relative to a random selection of the soluble proteins). SDS-polyacrylamide gel electrophoresis (SDS-PAGE) suggests the bound serum proteins (eluted with SDS) are primarily BSA and β-globulins. The bound pFn adheres so tightly, though, that most resists elution, as assayed (1) with pFn radioiodinated before binding, (2) with pFn radioiodinated after binding, or (3) by the cell spreading activity of the bound pFn retained after SDS treatment. Under culture conditions, there is a continuous “turnover” of substratum-bound pFn: soluble pFn can bind to a serum-coated substratum, while bound pFn is gradually removed by incubation with serum proteins. The presence of fibroblasts increases the rate of this removal several-fold. By SDS-PAGE the material removed (as well as that eluted from the substratum with SDS after cell detachment) is intact pFn or large (possibly proteolytically generated) fragments. Thus, pFn binds preferentially to the tissue culture substratum, but can be removed subsequently by the combined action of cells and other serum proteins.     

Immunoglobulin G Fc fragment-binding proteins in Mycoplasma salivarium cells.

Cell proteins of Mycoplasma salivarium were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, transferred to membranes, then examined for reactivity with human IgG molecules, the Fc fragment of human IgG, and concanavalin A (ConA). Multiple protein bands bound IgG, and most of them also bound ConA. One (corresponding to a molecular mass of 90 kDa) of the IgG- and ConA-binding bands intensely interacted with the Fc fragment of IgG. The reactivity of proteins eluted from the band with the Fc fragment, tested by dot-blotting and ELISA, was inhibited (90%) by pre-incubation with IgG and to a lesser extent (50%), with IgM. Thus, M. salivarium contained a cellular protein with a molecular mass of 90 kDa, that bound the Fc fragment of human IgG.     

Cathepsin L Plays an Important Role in the Lysosomal Degradation of L-Lactate Dehydrogenase

A cystatin α-sensitive cysteine proteinase that plays an important role in the lysosomal inactivation and degradation of L-lactate dehydrogenase (LDH) was purified by column chromatography from an ammonium sulfate precipitate of lysosome extract prepared from rat livers. It was eluted with marked delay from cathepsins B and H in a Sephacryl S-200 column by its specific interaction with the gel, and then effectively separated from cathepsins B and H and other proteins. It was eluted with 0.5 M NaCl after washing with 0.2 M NaCl in a CM-Sephadex column, indicating that it showed the same elution behavior as cathepsin L from the CM-Sephadex column. It had activity to hydrolyze z-Phe-Arg-NH-Mec, a synthetic substrate for cysteine proteinases, including cathepsins B and L. The N-terminal sequences of the final preparation of LDH-inactivating enzyme were identical with those of rat cathepsin L. Inactivation and degradation of LDH by the final preparation were observed and effectively inhibited by a low level of cystatin α as well as a general cysteine proteinase inhibitor, leupeptin or (L-3-trans-carboxyoxirane-2-carbonyl)-L-leucine (3-methylbutyl)amide (E-64-c). From these results, it is concluded that cathepsin L plays a critical role in the lysosomal degradation of native LDH.     

Isolation of Proteins Related to the β-Lectin from Potato which Bind to Hyphal Wall Components of Phytophthora infestans

Proteins from potato cells which recognize fungal cell wall components of Phytophthora infestans were isolated after passage of a potato homogenate through an affinity column which contained bound fungal cell wall components. Bound potato proteins were eluted with NN′-diacetylchitobiose, and fractionated by SDS-polyaciylamide gel electrophoresis. Eluted proteins from cv. Yukijiro (R₁-gene) and cv. Irish Cobbler (r-gene) had similar profiles and the same apparent Mr, 66, 58 and 41.5 kD and other proteins with lower molecular weight. Only the 41.5 kD and lower molecular weight proteins reaeted with polyclonal antibodies against the β-lectin from the R₁ cultivar, Rishiri. The surfaces of protoplasts from cvs Yukijiro and Irish Cobbler also reacted with the antibodies to the lectin. Treatment of potato protoplasts with hyphal cell wall components of P. infestans caused cytoplasmic aggregation, a response characteristic of the hypersensitive reaction. Oligomers of N-acetyl glucosamine reduced the ability of fungal cell wall components to cause this cytoplasmic aggregation. These results suggest that binding between fungal cell wall eomponents and certain potato proteins is sensitive to N-acetylglucosamine, and may play a role in the hypersensitive reaction.     

Synthesis and use of an isoform-specific affinity matrix in the purification of glutathione S-transferases from the housefly, Musca domestica (L.)

Glutathione may be linked to an agarose matrix which has been activated by treatment with epichlorhydrin. The resulting resin displayed group selectivity for the glutathione S-transferases of the housefly Musca domestics (L). The isoenzymes of low isoelectric point, which have little activity with substrates other than 1-chloro-2,4-dinitrobenzene, bound strongly to this matrix and were eluted with 10 mm glutathione at pH 7.4. On the other hand, the group of isoenzymes of higher isoelectric point, showing activity with other substrates such as 3,4-dichloronitrobenzene, did not bind. These isoenzymes did bind to a sulfobromophthalein-glutathione conjugate immobilized on agarose and could be eluted with 5 mm sulfobromophthalein at pH 7.4. The immobilized glutathione resin bound rat liver glutathione S-transferase subunits from all three molecular weight classes.     

Preparation of Large Oligonucleotides by RNase T1 Partial Hydrolysis of MS2 Virus Treated with Succinic Nhydride

Intact MS2 virus was reacted with succinic anhydride to modify the protein coat and then treated with RNase Tl to obtain controlled hydrolysis of the viral RNA. Viral protein and enzyme were removed by phenol extraction. The RNA fraction was adsorbed on DEAE-cellulose and eluted stepwise with 0.1, 0.5, and 1.0 M NH₄HCO₃, pH 8.6. tRNA^arg, used as a marker, was eluted in the 1.0 M NH₄HCO₃ fraction. The oligomers in the 1.0 M fraction isolated from the viral derivative were further examined by paper chromatography, polyacrylamide gel electrophoresis, and sucrose gradient cestrifuga-tion. Yields of the large oligomer fraction as defined by elution with 1.0 MNH₄HCO₃ from DEAE-cellulose ranged from 51–86% of the amount applied.     

Purification of collagen-binding proteins ofLactobacillus reuteri NCIB 11951

Collagen type-I-binding proteins ofLactobacillus reuteri NCIB 11951 were purified. The cell surface proteins were affinity purified on collagen Sepharose and eluted with an NaCl gradient. Two protein bands were eluted from the column (29 kDa and 31 kDa), and both bound radio-labeled collagen type I. Rabbit antisera raised against the 29 kDa and 31 kDa protein reacted with the affinity-purified proteins in a Western blot with whole-cell extract used as antigen. The N-terminal sequence of the 29-kDa and 31-kDa proteins demonstrated the closest homologies with internal sequences from anEscherichia coli trigger factor protein (TIG.ECOLI). Out of nine other lactobacilli, the antisera reacted only with theL. reuteri and not with the other species tested.     

Uptake of methotrexate linked to an anti-EL4-lymphoma antibody by EL4 cells

Summary To study the mechanism of tumor inhibition, the uptake of methotrexate (MTX) covalently linked to a rabbit IgG antibody against a tumor-associated antigen on the surface of mouse EL4 lymphoma cells (AELG) has been compared with the uptake of free MTX and of MTX covalently linked to normal rabbit IgG (NRG). When EL4 cells were incubated at 37°C with 10 M free MTX uptake leveled off after 30 min, at 30 pmol/mg protein. In contrast, uptake of both conjugates under these conditions continued throughout an observation period of 6 h. At 6 h the net uptake of MTX bound to AELG was 40 pmol/mg protein and that of MTX bound to NRG was 24 pmol/mg protein. These results show that both MTX-AELG and MTX-NRG conjugates are taken up by EL4 cells. The rate at which EL4 cells took up bound MTX was much slower than that of free MTX but, at 6 h, the net uptake of MTX-AELG exceeded that of the free drug. Abbreviations used in this paper: AELG, antiEL4 IgG; NRG, normal rabbit IgG; MTX, methotrexate; PBS, 0.01 M sodium phosphate, pH 7.1, containing 0.145 M sodium chloride     

High-abundance proteins depletion for serum proteomic analysis: concomitant removal of non-targeted proteins

In clinical and pharmaceutical proteomics, serum and plasma are frequently used for detection of early diagnostic biomarkers for therapeutic targets. Although obtaining these body fluid samples is non-invasive and easy, they contain some abundant proteins that mask other protein components present at low concentrations. The challenge in identifying serum biomarkers is to remove the abundant proteins, uncovering and enriching at the same time the low-abundance ones. The depletion strategies, however, could lead to the concomitant removal of some non-targeted proteins that may be of potential interest. In this study, we compared three different methods aimed to deplete high-abundance proteins from human serum, focusing on the identification of non-specifically bound proteins which might be eventually removed. A Cibacron blue-dye-based method for albumin removal, an albumin and IgG immunodepletion method and an immunoaffinity column (Multiple Affinity Removal System) that simultaneously removes a total of six high-abundance proteins, were investigated. The bound proteins were eluted, separated by two-dimensional gel electrophoresis and identified by Nano LC-CHIP-MS system. Flow-through fractions and bound fractions were also analysed with the ProteinChip technology SELDI-TOF-MS. Our results showed that the methods tested removed not only the targeted proteins with high efficiency, but also some non-targeted proteins. We found that the Multiple Affinity Removal Column improved the intensity of low-abundance proteins, displayed new protein spots and increased resolution. Notably, the column showed the lowest removal of untargeted proteins, proved to be the most promising depletion approach and a reliable method for serum preparation prior to proteomic studies.