The murine IL 2 receptor. I. Monoclonal antibodies that define distinct functional epitopes on activated T cells and react with activated B cells

The properties of three distinct rat monoclonal antibodies, designated 3C7, 7D4, and 2E4, to the murine IL 2 receptor have been compared in binding, biochemical, and functional assays. 3C7 appears to define an epitope near or identical to the IL 2-binding site of the receptor, because 3C7 inhibited the binding of radiolabeled IL 2 to CTL-L cells and because unlabeled IL 2 inhibited the binding of FITC-3C7 to CTL-L cells. 7D4 and 2E4 had no effect on IL 2 binding. Competitive antibody-binding studies confirmed that the epitope seen by 3C7 was distinct from the epitope(s) seen by 7D4 and 2E4. Sequential immunoprecipitation studies demonstrated that all three antibodies were reactive with the same molecular species, and that each precipitated identical components of 20,000 to 25,000 daltons, 50,000 to 60,000 daltons, and 100,000 to 120,000 daltons from the surface of CTL-L. FACS studies demonstrated a quantitatively and qualitatively identical cell distribution for the antigen defined by each antibody. They failed to stain more than 95% of resting lymphocytes, but were strongly reactive with Con A T blasts and substantially less reactive with LPS B blasts. Unlabeled IL 2 was also able to inhibit the binding of FITC-3C7 to LPS B cell blasts, suggesting the presence of IL 2-binding sites on activated B cells. Each antibody inhibited IL 2-driven proliferation of HT2 or CTL-L cells. 3C7 and 7D4 were more potent inhibitors of proliferation than was 2E4, and the combined use of 3C7 and 7D4 resulted in greater levels of inhibition of proliferation than that shown from the use of either antibody alone. Collectively, the results support the hypothesis that these antibodies detect two distinct functional regions of the IL 2 receptor.     

Characterization of bovine placental lactogen as a glycoprotein with N-linked and O-linked carbohydrate side chains

In a previous report we showed that purified bovine placental lactogen (bPL) exists in two isoforms in the 31,000-33,000 Mr range, each with at least five isoelectric variants differing in approximately 2 orders of magnitude in isoelectric points (pI) 4-6. The multiple isoelectric variants are unique to the bovine hormone. In an effort to determine the nature of these variants endo- and exoglycohydrolase digestions were conducted to determine if this hormone was glycosylated. Analysis of peptide/N-glycosidase F and endoglycosidase F digests of radioiodinated bPL on one-dimensional gel electrophoresis showed a Mr decrease from 31,000 to 24,000 and 33,000 to 26,000 for the two isoforms. Digestion with a mixture of neuraminidase plus mixed exoglycosidases resulted in a Mr decrease of 4,000. Digestion with neuraminidase resulted in a Mr decrease of 2,000. Further analysis of peptide/N-glycosidase F- and neuraminidase-treated bPL by two-dimensional gel electrophoresis showed the isoelectric variants shifted from pI 4.4-6.3 to 4.9-8.0. The sialic acid residues on the N-linkage are responsible for the pronounced acidic character of bPL, but do not account for the residual charge heterogeneity as the different isoelectric variants persist after sialic acid removal. The apparent Mr of the protein after removal of N-linked carbohydrate residues is similar to that of PRL and GH. These enzymatic digestion results demonstrate the presence of N-linked complex oligosaccharide residues attached to the beta-amide group of an asparagine residue. Analyses of the sugar content of the molecule were consistent with the presence of one biantennary N-linked and two O-linked carbohydrate chains.     

The human receptor for T-cell growth factor. Evidence for variable post-translational processing, phosphorylation, sulfation, and the ability of precursor forms of the receptor to bind T-cell growth factor

The T-cell growth factor (TCGF) receptor on phytohemagglutinin-activated normal peripheral blood T-cells is characterized as a glycoprotein with an apparent Mr = 55,000 that contains N-linked and O-linked carbohydrate with only approximately 33,000 daltons of peptide structure (p33) as evaluated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. There are two N-linked glycosylated intermediate precursor forms (apparent Mr = 35,000 (p35) and 37,000 (p37]. This receptor differs from the TCGF receptor on HUT-102B2 cells (apparent Mr = 50,000) because of differences in post-translational processing. Experiments with the carboxylic ionophore monensin demonstrate blockade of the transition of the p35 and p37 receptor precursor forms to the mature receptor, presumably secondary to inhibition of Golgi-associated receptor processing. We identify the primary translation product of TCGF receptor mRNA as intermediate in size between the p33 and the p35/p37 forms. We further demonstrate that the p33, p35, and p37 precursor forms, but not the primary translation product, are all capable of binding TCGF. Thus, the removal of the signal peptide and/or conformational changes of the primary translation product are necessary for ligand binding; however, the extensive post-translational modifications are not. Lastly, we demonstrate that at least some TCGF receptors are phosphorylated and sulfated, and that TCGF receptors on phytohemagglutinin-activated normal T-cells are more heavily sulfated than those on HUT-102B2 cells.     

Purification of papain-solubilized histocompatibility antigens from a cultured human lymphoblastoid line, RPMI 4265.

HL-A antigens having specificities HL-A2, HL-A7, HL-A12 have been solubilized by papain treatment of membrane preparations from the cultured human lymphoblastoid cell line RPMI 4265 and purified about 80-fold by chromatography on carboxymethylcellulose, Sephadex G-150, and diethylaminoethylcellulose columns. Separation of HL-A2 from a mixture of HL-A7 and HL-A12 was achieved on the final DEAE-cellulose column. The yield was about 1 mg of protein of each antigen preparation per 100 g of packed, frozen cells. On sodium dodecyl sulfate gel electrophoresis both preparations showed two polypeptide bands. The smaller subunit of 12,000 daltons is common to all HL-A preparations and has been shown to be identical with beta2-microglobulin. The larger subunit is a glycopeptide and in the HL-A7, 12 preparation was resolved into a duplex of 34,000 and 37,000 daltons. The HL-A2 preparation showed a single band at 34,000 daltons. On isoelectric focusing under nondenaturing conditions, the preparation showed multiple bands, all of which contained both subunits and retained antigenic activity. On isoelectric focusing in the presence of 6 M urea a single band for beta2-microglobulin and multiple bands for the larger subunit were seen. This charge heterogeneity of the larger subunit has been shown to be due to variable amounts of sialic acid. When HL-A antigen preparations were subjected to Sephadex G-100 chromatography in the presence of 3 M KCl, no separation of the two subunits was observed.     

The murine lymphocyte receptor for IgE. V. Biosynthesis, transport, and maturation of the B cell Fc epsilon receptor

The post-translational processing and maturation of the receptor for IgE (Fc epsilon R) on murine hybridoma B cells were studied to determine the carbohydrate content and the importance of processing events in cell surface expression and ligand (IgE) binding ability. Endo and exoglycosidase treatment demonstrated that the mature receptor is composed of two to three complex-type N-linked oligosaccharides and contains sialic acid. Pulse-chase experiments indicated that the receptor is synthesized as a 44,000 dalton precursor that begins to be processed by 1 hr to the mature 49,000 dalton form, and the latter is expressed at the cell surface by 2 hr. It was determined that the processing included the conversion of N-linked oligosaccharides to the complex type as well as an additional processing event, because in the presence of tunicamycin, the receptor is synthesized as a 36,000 dalton precursor that is processed to a 38,000 dalton species. Analysis of the effects of tunicamycin treatment and endo F digestion on soluble Fc epsilon R isolated from cell supernatants demonstrated the existence of several m.w. species of Fc epsilon R fragments, and indicated that only the higher m.w. fragments were N-glycosylated. The use of several inhibitors of the N-linked carbohydrate processing pathway demonstrated that the addition of core N-linked side-chains, but not their processing to the complex type, is required for cell surface expression of Fc epsilon R. Also, processing of N-linked carbohydrate is not required for ligand binding activity. Finally, IgE affinity chromatography indicated that the 49,000 and 38,000 dalton (tunicamycin) Fc epsilon R bind IgE more effectively than their precursor forms, 44,000 and 36,000 daltons, respectively, indicating that a processing event independent of N-linked glycosylation is necessary for optimal ligand binding activity.     

Processing of the gp55-116 envelope glycoprotein complex (gB) of human cytomegalovirus.

The processing pathway of the major envelope glycoprotein complex, gp55-116 (gB), of human cytomegalovirus was studied using inhibitors of glycosylation and endoglycosidases. The results of these studies indicated that the mature gp55-116 is synthesized by the addition of both simple and complex N-linked sugars to a nonglycosylated precursor of estimated Mr 105,000. In a rapid processing step, the Mr 105,000 precursor is glycosylated to a protein of Mr 150,000 (gp150) which contains only endoglycosidase H-sensitive sugar linkages. The gp150 is then processed relatively slowly to a Mr 165,000 to 170,000 species (gp165-170), which is then cleaved to yield the mature gp55-116. Monensin prevented the final processing steps of the gp150, including cleavage, suggesting that transport through the Golgi apparatus is required for complete processing. Digestion of the intracellular forms of this complex as well as the virion forms confirmed the above findings and indicated that the mature virion form of gp55 contains 8,000 daltons of N-linked sugars. The virion gp116 contains some 52,000 to 57,000 daltons of N-linked carbohydrates and approximately 5,000 daltons of O-linked sugars.     

Co- and posttranslational modification of the alpha(1B)-adrenergic receptor: effects on receptor expression and function

We have characterized the maturation, co- and posttranslational modifications, and functional properties of the alpha(1B)-adrenergic receptor (AR) expressed in different mammalian cells transfected using conventional approaches or the Semliki Forest virus system. We found that the alpha(1B)-AR undergoes N-linked glycosylation as demonstrated by its sensitivity to endoglycosidases and by the effect of tunicamycin on receptor maturation. Pulse-chase labeling experiments in BHK-21 cells demonstrate that the alpha(1B)-AR is synthesized as a 70 kDa core glycosylated precursor that is converted to the 90 kDa mature form of the receptor with a half-time of approximately 2 h. N-Linked glycosylation of the alpha(1B)-AR occurs at four asparagines on the N-terminus of the receptor. Mutations of the N-linked glycosylation sites did not have a significant effect on receptor function or expression. Surprisingly, receptor mutants lacking N-linked glycosylation migrated as heterogeneous bands in SDS-PAGE. Our findings demonstrate that N-linked glycosylation and phosphorylation, but not palmitoylation or O-linked glycosylation, contribute to the structural heterogeneity of the alpha(1B)-AR as it is observed in SDS-PAGE. The modifications found are similar in the different mammalian expression systems explored. Our findings indicate that the Semliki Forest virus system can provide large amounts of functional and fully glycosylated alpha(1B)-AR protein suitable for biochemical and structural studies. The results of this study contribute to elucidate the basic steps involved in the processing of G protein-coupled receptors as well as to optimize strategies for their overexpression.     

Purification of canine surfactant-associated glycoproteins A. Identification of a collagenase-resistant domain

A procedure for purification of surfactant-associated glycoproteins A from canine surfactant was established utilizing preparative isoelectric focusing as a major purification step in absence of detergents. The proteins migrated as charge trains, isoelectric points 4.2-5.0. Unglycosylated forms of surfactant-associated protein A1 (26 kDa) and glycoproteins A2 and A3 (32-36 kDa) were identified by silver-staining and immunoblot analysis. These forms were demonstrated to be identical polypeptides by fingerprint analysis of 125I-labeled peptides generated by tryptic-chymotryptic digests of the iodinated proteins. Size and charge heterogeneity were related to varying amounts of N-linked complex carbohydrates, including sialic acid, which were sensitive to endoglycosidase F and neuraminidase but resistant to endoglycosidase H. A collagenase-sensitive region was demonstrated which was required for sulfhydryl-dependent oligomerization of the molecule. Collagenase treatment resulted in removal of approx. 10 kDa from the glycoprotein molecule. Collagenase-resistant fragments of 21-23 kDa migrated with carbohydrate-dependent size and charge heterogeneity and were reduced to 16 kDa by endoglycosidase F. Amino acid composition of the surfactant glycoproteins demonstrated high glycine content which was diminished after digestion with collagenase. Several glycine-rich tryptic peptides were isolated by reverse-phase chromatography. Partial sequence information shows Gly-X-Y repeat sequences containing hydroxyproline residues. The major canine surfactant-associated proteins, glycoproteins A contain complex-type N-linked carbohydrate. In addition, a separate collagen-like peptide domain is present and is required for sulfhydryl-dependent oligomerization.     

Multiple charge isomers of human recombinant interleukin-1 beta

Human interleukin-1 beta (rhuIL-1 beta), obtained by DNA recombinant technology, was radiolabelled. Its isoelectric properties were determined by various analytical techniques such as high-voltage ultrathin layer isoelectric focusing (IEF) and chromatofocusing. The rhuIL-1 beta molecule had a molecular mass of 18 kDa, as determined by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. When examined by IEF on a polyacrylamide gel of 1 mm thickness in the pH range of 3.5-9.5, it was resolved into two broad bands appearing in the pH range of 6.2-5.8 and 5.5-5.2. Each of the two bands was further resolved into multiple bands when electrofocused on (i) a thinner gel of 0.5 mm thickness and (ii) a narrower pH range of 5-8. Upon chromatofocusing in a liquid column, it was possible to isolate various charged components of rhuIL-1 beta. However, all these components reacted to the antiserum to rhuIL-1 beta and displayed a molecular mass of 18 kDa suggesting the charge heterogeneity of rhuIL-1 beta.     

Synthesis and processing of glycoproteins gD and gC of herpes simplex virus type 1.

Herpes simplex virus type 1 (HSV-1) contains five glycoproteins, designated gA, gB, gC, gD, and gE. The present studies focused on the synthesis and processing of two of these, gC and gD. By using monoprecipitin antibody to gC, we demonstrated an antigenic and structural relationship between the precursor, pgC(110), and the product, gC(130). Tryptic peptide analysis showed that pgC and gC shared methionine peptides and that these molecules had the same fingerprint pattern as that of gC(130) extracted from the purified virion. These results suggested that post-translational processing of gC involved no major changes in methionine-containing tryptic peptides or in the cleavage sites required to generate those peptides. The syntheses of gC and gD were compared. We found that the glycoproteins were synthesized starting at different times in the infectious cycle; pgD was detected by 2 h postinfection, whereas pgC was first detected at 4 to 6 h postinfection. Both precursor molecules, pgC(110) and pgD(52), are basic glycopolypeptides, and in both cases processing involved changes in molecular weight and charge. These changes were detected by two-dimensional gel electrophoresis. Both glycoproteins exhibited heterogeneity, displayed as a series of spots (6 for gD and 15 to 20 for gC) of increasing negative charge and molecular weight. Neuraminidase treatment decreased the size, number, and acidic charge of the spots, suggesting that processing was due in part, but not entirely, to addition of sialic acid to pgD and pgC.     

Identification of 5-Hydroxytryptamine1A Receptor Proteins in Bovine Frontal Cortex

5-Hydroxytryptamine1A (5-HT1A) receptor proteins were identified by a novel approach in which photoaffinity labeling technique was used in conjunction with affinity column chromatography. 5-HT1A receptors were solubilized from bovine frontal cortical membranes with 0.3% digitonin and 0.1% Nonidet P-40, and bound effectively to 1-[2-(4-aminophenyl)ethyl]-4-(3-trifluoromethylphenyl)piperazine (PAPP)-coupled Affi-Gel 10 in a time-dependent manner. PAPP was shown previously to be a selective ligand for the 5-HT1A receptor. Two protein bands with molecular masses of approximately 55,000 and 38,000 daltons revealed on sodium dodecyl sulfate-polyacrylamide gel electrophoresis were eluted from the affinity column with either 1 mM 5-HT or 1 microM [3H]1-[2-(4-azidophenyl)ethyl]-4-(3-trifluoromethyl-phenyl)piperazine ([3H]p-azido-PAPP). [3H]p-Azido-PAPP is a selective photoaffinity labeling probe for the 5-HT1A receptor. The intensity of these two protein bands and the incorporation of [3H]p-azido-PAPP into these two proteins decreased significantly when the solubilized fraction was preincubated with excess 5-HT or PAPP (saturating all 5-HT1A receptors) prior to affinity column chromatography. These results suggest strongly that these two proteins are related to the 5-HT1A receptor protein. The isoelectric points of the photolabeled 5-HT1A receptor proteins were 6.0 and 6.5.     

Biosynthesis and glycosylation of the epidermal growth factor receptor in human tumor-derived cell lines A431 and Hep 3B.

Biosynthesis of the receptor for epidermal growth factor was investigated in two human tumor-derived cell lines, Hep 3B and A431. When grown in the presence of tunicamycin, both cells expressed a receptor-related species p135, the presumptive aglycosylated form of the biosynthetic precursor, gp145, of the mature form of the receptor, gp165, expressed at the cell surface. Two additional receptor-related species, p115 and p70, were detected when A431, but not Hep 3B, cells were treated with tunicamycin. Furthermore, digestion of the A431 receptor-related proteins with endoglycosidase F resulted in the detection of these three aglycosylated species. P70 appears to be the aglycosylated form of gp95, the presumptive intracellular precursor of the receptor-related species gp120 that is secreted by A431 but not Hep 3B cells; gp120 has a complex pattern of N-linked glycosylation, with consequent molecular weight and charge heterogeneity. P115 may be the aglycosylated form of a third biosynthetic intermediate, possibly a gp135 species detected in the early time points of pulse-chase labeling. Alternatively, p115 and gp135 may be derived co- or post-translationally by Ca2+-mediated proteolysis from p135 and gp145, respectively. The implications of the complexity of the biosynthesis of this molecule with regard to the multiple opportunities it affords the cell to modulate cell proliferation are discussed.     

Isolation of the terminal complement complex from target sheep erythrocyte membranes.

(1) Membranes from sheep erythrocytes lysed with antibody and human complement were solubilized in Triton X-100 and subjected to isoelectric focusing in polyacrylamide gels containing 1% Triton X-100. Membrane-bound serum proteins were located in the gels by subsequent immunoelectrophoresis against antisera to human serum proteins. Monospecific antisera against C9 and C5 were used to locate the terminal complement complex, which is not dissociated by Triton X-100. The complex focused between pH 5.8 and pH 6.5 and was separated from the bulk of other membrane-bound serum proteins, which focused at pH ranges below than 6.0. (2) In a second step, proteins electrophoretically eluted from the gel sections containing the terminal complement complex were chromatographed on Sepharose 6B equilibrated with 0.05% Triton X-100. Fused rocket immunoelectrophoresis was used to monitor separations. This step separated the terminal complement complex from the remaining contaminating proteins. The complex eluted in a broad peak corresponding to a molecular weight range of 800000-4000000. (3) The terminal complement complex thus obtained migrated with alpha-mobility and yielded a single precipitation arc in crossed immunoelectrophoresis using polyvalent antisera to human serum proteins. A distinct precipitate was obtained with monospecific anti-C9. The presence of C5 and C6, in complex with one another and with C9 was demonstrable by immuno-double-diffusion. No immunoprecipitate was obtained with antisera to sheep erythrocyte membrane proteins. (4) Dodecyl sulfate gel electrophoresis of the complex revealed seven protein bands of 190000, 160000, 115000, 93000, 85000, 68000 and 60000 daltons. Planimetric quantitation of densitometric scans gave a molar ratio of approx. 0.7:0.3:1:1:1:2:1 for these bands, respectively. All bands stained faintly with periodate-Schiff. Two-dimensional dodecyl sulfate gel electrophoresis showed that the first two bands (190000 and 160000 daltons, probably C5b and C5c) represented proteins possessing more than one peptide chain linked by disulfide bonds. The main subunit for both bands was a protein of approximately 68000 daltons. Band 5 (83000 daltons, probably C8alpha) was split into two peptide chains of approximately 68000 and 15000 daltons. The other components were not affected by dithiothreitol treatment. (5) The dodecyl sulfate gel electrophoretograms obtained were very similar to that described by Kolb and Müller-Eberhard (Kolb, W.P. and Müller-Eberhard, H.J. (1975) J. Exp. Med. 141, 724-735) for the terminal complement complex isolated from inulin-activated serum. However, certain minor but consistent deviations were observed. A preliminary correction of the electrophoretograms is presented.     

Identification of canine pulmonary surfactant-associated glycoprotein A precursors

Surfactant-associated glycoproteins A were identified by two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis of crude surfactant from canine alveolar lavage: an unglycosylated form (protein A1), 27,000-28,000 daltons; glycoprotein A2, 32,000-34,000 daltons; and glycoprotein A3, 37,000-38,000 daltons; pH at isoelectric point (pI) 4.5-5.0. Glycoproteins A2 and A3 were electroeluted and used to prepare a monospecific antiserum that identified proteins A1, A2, and A3 in immunoblots of crude surfactant obtained from dog lung lavage. This antiserum precipitated several proteins from in vitro translated canine lung poly(A)+ mRNA; proteins of 27,000 daltons, pI 5.0, and 28,000 daltons, pI 4.8-5.0, which precisely comigrated with proteins A1 from canine surfactant. Cotranslational processing of the primary translation products by canine pancreatic microsomal membranes resulted in larger proteins of 31,000-34,000 daltons, pI 4.8-5.0. Treatment of these processed forms of glycoprotein A with endoglycosidase F, to remove N-linked carbohydrate, resulted in proteins of 27,000-28,000 daltons which precisely comigrated with surfactant protein A1. These observations demonstrate that the polypeptide precursors to the glycoproteins A complex are extensively modified by addition of asparagine N-linked complex carbohydrate and are subsequently secreted as glycoproteins A2 and A3.     

Purification and characterization of an estrogen-inducible membrane glycoprotein. Evidence that it is a transferrin receptor

A number of N-linked membrane glycoproteins are induced during chick oviduct differentiation. We have purified a major estrogen-inducible glycoprotein (Mr = 91,000) to homogeneity by preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Comparison of partial NH2-terminal sequence data with membrane glycoproteins having similar Mr showed a limited homology with human and murine transferrin receptors. We observed that oviduct membranes contain estrogen-inducible transferrin receptor activity (Kd = 2-8 x 10(-8) M). Analytical purification of the putative receptor on an ovotransferrin-Affi-Gel affinity column and sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis reveals a protein of Mr, 180,000, which contains two disulfide-linked subunits of Mr 91,000. The receptor reacts very strongly with antibodies prepared against the 91-kDa glycoprotein on Western blots. Western blot analysis confirms that the 91-kDa glycoprotein is induced by estrogen. The protein has 2% total carbohydrate with Man, GlcNAc, Gal, GalNAc, and NeuAc in a molar ratio of 6:4:2:1:1. The protein contains at least one O-linked moiety. Analysis of the O-linked moiety by glycosidase digestions and gel filtration indicates there are sialo tetra- and trisaccharides and a neutral disaccharide(s). Labeled N-linked glycopeptides were prepared by pronase digestion, beta-elimination, and 3H-acetylation. The N-linked oligosaccharides include high mannose and complex neutral nonbisected biantennary types in an approximate ratio of 3:1 as determined by serial lectin affinity chromatography.     

Y2 receptor proteins for peptide YY and neuropeptide Y. Characterization as N-linked complex glycoproteins.

Affinity labeling using [125I-Tyr36]PYY and homobifunctional affinity crosslinking reagents of the rabbit Y2 receptor for peptide YY(PYY) results in specifically labeled proteins of both M(r) = 50,000 to 60,000 and M(r) = 96,000 to 115,000 [1,2]. In this work the glycoprotein nature of affinity labeled Y2 receptor proteins were investigated by enzymatic deglycosylation using neuraminidase, endoglycosidase F (endo F), N-glycosidase F (PNGase F), and O-glycanase treatment. Only N-glycosidase F and neuraminidase increased the electrophoretic mobility of the radiolabeled receptor bands, whereas all other glycosidases did not. PNGase F treatment of both radiolabeled receptor bands electroeluted from gel slices reduced the apparent molecular mass of by 16-17 kDa units, that is M(r) = 96,000 to 79,000 and M(r) = 60,000 to 44,000, indicating removal of N-linked oligosaccharide chains of similar size from both species. Neuraminidase treatment caused slight increases in the electrophoretic mobilities suggesting the presence of terminal sialic residues. It is concluded that the Y2 binding proteins are N-linked complex (sialo)glycoproteins with a minimal core protein size of M(r) = 44,000. Furthermore, based on this sensitivity pattern of the glycosidases, the Asn-linked carbohydrate may be of the tri- or tetra-antennary complex type containing terminal sialic acid residues.     

Resolution of two subunits from the molybdenum-iron protein of Azotobacter vinelandii nitrogenase

The Mo-Fe protein of Azotobacter vinelandii nitrogenase was fractionated on 9.5 M urea isoelectric focusing gels and gave three distinct bands (alpha', alpha", beta'). Protein focused on nondenaturing gels gave a single brown band, which when excised and refocused on a denaturing gel gave the three-band pattern. Partial trypsin digestion of the subunits and fractionation of the peptides by sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that the alpha' and alpha" polypeptide moieties were the same. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the alpha' and beta' proteins with appropriate molecular weight standards indicated Mr = 61,000 and 57,000, respectively. This is consistent with an overall alpha 2 beta 2 mass of 236,000 daltons.     

Heterogeneity of human alpha-fetoprotein as revealed by isoelectric focusing in urea-containing gels.

The heterogeneity of human alpha-fetoprotein has been studied by analytical isoelectric focusing in polyacrylamide gel slabs in the presence of 8 M urea. Six major isoelectric variants could be identified over a pH range of 6.0--6.2. Verification of their identity was achieved by crossed immunoelectrophoresis into agarose gel containing monospecific antiserum to human alpha-fetoprotein. Complete desialylation of the protein did not abolish the heterogeneity; a complex pattern of major alpha-fetoprotein bands persisted over a more alkaline pH range. We have been able to correlate the pattern of alpha-fetoprotein heterogeneity seen following extended agarose gel electrophoresis with that obtained during isoelectric focusing in the presence of urea. The quantity of certain alpha-fetoprotein charge isomers in various alpha-fetoprotein isolates may be important in considering certain biological functions of this protein.     

Resolution of simian virus 40 proteins in whole cell extracts by two-dimensional electrophoresis: heterogeneity of the major capsid protein.

The major capsid protein (VP1) of simian virus 40 (SV40) has been analyzed by two-dimensional electrophoresis. This system separates protein according to isoelectric point by isoelectric-focusing, and according to molecular weight by sodium dodecylsulphate electrophoresis (O'Farrell, 1975). VP1 synthesis in infected CV-1 cells can be monitored directly by analysis of unfractionated whole cell extracts; the resolution of VP1 from cellular proteins allows its detection as early as 13 hr after infection. The two-dimensional separation of VP1 reveals that it is heterogeneous, consisting of one major protein (molecular weight 47,000 daltons and isoelectric point of approximately pH 6.8) and five minor protein components. The minor forms of VP1 are 10% of the total VP1 and differ from the major form of VP1 both in molecular weight (by approximately 500 daltons) and isoelectric point (ranging from approximately pH 6.7 to pH 6.9). Evidence is presented to show that two of the minor forms are phosphorylated derivatives of VP1, and it is further suggested that all the different forms of VP1 are the result of modifications of the primary product of translation. A temperature-sensitive mutant of the BC complementation group (BC11) of SV40 results in the synthesis of VP1 with an altered electrophoretic mobility; both the major form of VP1 and the minor forms are shifted in their isoelectric points. In addition to the specific case of SV40, two aspects of these studies should be generally significant to investigators studying eucaryotic gene expression by two-dimensional gel electrophoresis: first, the genetic origin of a protein can be determined by a temperature-sensitive mutation which causes a charge change in the resultant protein; and second, two or more protein spots on a two-dimensional separation may be the products of a single gene.