George A. Baumbach

Alkaline urea solubilization, two-dimensional electrophoresis and lectin staining of mammalian cell plasma membrane and plant seed proteins☆

Abstract Plasma membranes, isolated from Chinese hamster ovary cells and seed proteins from Arachis hypogaea (L.) were analyzed by two-dimensional electrophoresis. Polypeptides were solubilized without employing sodium dodecyl sulfate (SDS), using in its place 5 m m K2CO3 and 9.5 m urea. After addition of dithiothreitol and the nonionic detergent Nonidet P-40, more than 95% of the total protein remained in the supernatant fraction after the preparation was centrifuged at 100,000 g. The solubilization was comparable to that achieved with boiling SDS solution. This soluble material could be used directly for either isoelectric focusing or nonequilibrium pH gradient electrophoresis in narrow bore, tubular, polyacrylamide gels crosslinked by means of N,N′-diallyltartardiamide. Up to 750 μg of protein could be analyzed in one such 3 mm gel. Electrophoresis in polyacrylamide slab gels containing SDS was used for separations in the second dimension. The method allows large amounts of both basic and acidic insoluble proteins to be solubilized and then analyzed without employing SDS as a solubilizing agent. Classes of glycoproteins on the gels were detected by incubating with small volumes of 125I-lectins in heat-sealed plastic bags. CHO cells contain several high molecular weight acidic glycoproteins that bind wheat germ agglutinin, but which do not stain with Coomassie blue. Several of the storage polypeptides in peanut seeds were also shown to bind wheat germ agglutinin and are probably, therefore, glycoproteins containing N-acetyl d -glucosamine.

N-Glycosylated and unglycosylated forms of caprine trophoblast protein-1 are secreted by preimplantation goat conceptuses

Goat conceptuses secrete caprine trophoblast protein-1 (cTP-1) which is related antigenically to the abundant embryonic interferon-alpha II of sheep and cattle. Antiserum to ovine and bovine TP-1s immunoprecipitated three molecular weight classes (23,000, 21,000 and 17,000, each with two isotypes) of cTP-1 from goat conceptus culture medium. Cultures which contained tunicamycin resulted in a shift in the Mr = 23,000 and Mr = 21,000 forms to a Mr of 17,000. The Mr = 23,000 and 21,000 forms, but not the Mr = 17,000 form, bound to Concanaval in A-Sepharose and were eluted under conditions selective for glycoproteins bearing complex-type oligosaccharide(s). Thus cTP-1 is a mixture of glycosylated and unglycosylated polypeptides.

Uteroferrin contains complex and high mannose-type oligosaccharides when synthesized in vitro

Mature uteroferrin (Uf; MΓ = 35,500) is a progesterone-induced acid phosphatase secreted by the pig uterus. It contains a single, unphosphorylated, high mannose-type oligosaccharide. Endometrial explants cultured in vitro secrete Uf with a MΓ of 37,000 (37k Uf) having phosphorylated high mannose oligosaccharides. In this report we demonstrate that 37k Uf contains two N-linked oligosaccharides which are a mixture of complex and high mannose-type oligosaccharides. The complex-type glycopeptides are biantennary and a portion may be fucosylated on the GlcNac of the chitobiose core proximal to the peptide. Only a portion of the high mannose-type oligosaccharides are phosphorylated. The remainder appear to be typical Man6-4GlcNac2 oligosaccharides found on mature Uf.

Age-related changes in porcine corticosteroid-binding globulin (pCBG) as determined by an enzyme-linked immunosorbent assay

The objectives of this study were to develop an assay for the direct measure of porcine corticosteroid-binding globulin (pCBG) and to confirm age-related changes in plasma pCBG concentration. Isolation and purification of pCBG from plasma was performed by affinity chromatography and HPLC-DEAE anion exchange techniques. Analysis by SDS-PAGE revealed two polypeptides (54 and 59 kDa) having similar amino acid homology (>50%) to previously reported sequences of seven mammalian species for the first 33 amino acids. Porcine CBG (20 ng/well) was immobilized to microtiter plates and standards or samples added along with rabbit antiserum developed against the purified pCBG. Goat anti-rabbit IgG-alkaline phosphatase conjugate was added followed by p-NPP substrate. The resultant color development was read at 405 nm. Intra- and interassay coefficients of variation (n=26) of a pooled sample were 10 and 15%, respectively. Age-related changes (P<0.001) in plasma pCBG concentration (n=203) from day 3 through 168 of age confirmed that, in the pig, changes seen in the percent distribution of cortisol among protein bound and free forms around day 28 of age are associated with an increase in CBG concentration.

Possible function of carbohydrate on glycoproteins secreted by the pig uterus during pregnancy.

Uteroferrin is a purple iron-containing acid phosphatase secreted by the porcine uterus under the influence of the hormone, progesterone. It is synthesized by the glandular epithelial cells of the uterine endometrium and during pregnancy is taken up by specialized structures (areolae) opposite each uterine gland. Uteroferrin is then released into the fetal circulation and cleared by the liver or fetal kidney. A major role in iron transport to the fetus has been proposed. Uteroferrin, as purified from uterine secretions of pigs, possesses mainly high mannose (predominately Man5 and Man6 chains. These oligosaccharide chains of uteroferrin appear to be responsible for its binding and uptake by reticuloendothelial cells of the fetal liver which is the major site of erythropoiesis of the fetus. Uteroferrin, although implicated in transplantal iron transport, also possesses many of the properties of a lysosomal enzyme and, when newly synthesized, carries the so-called lysosomal recognition marker, mannose 6-phosphate. The phosphate group is masked by a covering N-acetylglucosamine residue, a feature which may account for its secretion rather than retention within lysosomes. Evidence is also presented that the oligosaccharide chains of newly synthesized uteroferrin are larger than those of the mature form and are trimmed after secretion. The phosphate group is also removed. It is not clear whether uteroferrin carbohydrate is implicated in the movement of the glycoprotein across the placenta as well as its uptake by the fetal liver.

Isolation of a domain of the plasma membrane in Chinese hamster ovary cells which contains iodinatable, acidic glycoproteins of high molecular weight

A light vesicle fraction, apparently derived from the plasma membrane, was obtained following breakage of Chinese hamster ovary (CHO) cells by means of a fluid pump disrupting device. The final preparation was enriched approx. 40-fold over the homogenate in K+,Na+-stimulated ATPase and phosphodiesterase I, but only approx. 10-fold in 125I specific radioactivity after lactoperoxidase-catalyzed iodination. This preparation was compared with another plasma membrane fraction purified as large sheets via a two-phase centrifugation procedure. Two-dimensional polyacrylamide gel electrophoresis followed by Coomassie blue staining indicated that both fractions were fairly similar in polypeptide composition, although a few consistent differences were evident. However, staining of glycoproteins by the periodic acid-Schiff technique or by overlaying with 125I-labeled concanavalin A showed that the vesicle fraction was highly enriched in groups of high molecular weight, acidic glycoproteins which stain only weakly with Coomassie blue. These glycoproteins also bound 125I-labeled ricin I agglutinin and wheat germ agglutinin. They appear to be the major receptors for wheat germ agglutinin on the CHO cell surface. After surface labeling of cells by the 125I-lactoperoxidase technique, the membrane sheet fraction contained a large number of iodinated polypeptides, whereas labeling in the vesicle fraction was restricted almost entirely to the high molecular weight, acidic glycoproteins. It is proposed that the vesicle fraction constitutes a specific domain of the cell surface which is coated on its exterior by this group of glycoproteins. These components probably mask underlying proteins of the plasma membrane from external labeling.

Two-dimensional electrophoretic analysis of concanavalin-A binding components in the plasma membranes of Chinese hamster fibroblasts.

Many of the polypeptide components of plasma membranes are glycoproteins which seem to fulfill a wide variety of important functions at the cell surface. Because glycoproteins frequently form highly specific associations with lectins, the latter molecules have assumed great importance as a means for probing the structures of membranes. In addition, lectins can be iodinated [ 1,2], coupled to horseradish peroxidase [3] or conjugated with fluorescent dyes [4] and used to detect glycoproteins on polyacrylamide gels. Here we describe a two-dimensional electrophoretic procedure for separating plasma membrane polypeptides and demonstrate by means of 1251-labeled Con A ‘staining’ that the binding components are extremely numerous. In particular, we show that a major group of binding components for this lectin are acidic molecules of high molecular weight which stain faintly, if at all, with Coomassie blue. They may thus represent a new class of membrane glycoproteins whose presence is not revealed by conventional electrophoretic techniques.

Immunolocalization and endocytosis of the uterine secretory protein, uteroferrin, in pre-implantation pig trophectoderm on day 11 of pregnancy.

SummaryUteroferrin is a progesterone-induced, iron-binding glycoprotein secreted by the glandular epithelium of the pig endometrium. Evidence is presented that maternal uteroferrin is present in trophectoderm of pre-implantation pig blastocysts on day 11 of pregnancy. Although [35S]-methionine was not incorporated into uteroferrin during in vitro culture of blastocysts, solubilized tissue extracts from 10–20-mm-diameter blastocysts contained uteroferrin by western blotting with monospecific antiserum to uteroferrin. Uteroferrin was detected in the apical and basolateral cytoplasm of trophectoderm by immunocytochemistry of paraffin-embedded blastocysts. Immunostaining was excluded from cells of the endoderm and the inner cell mass. Further-more, blastocysts internalized fluorescein-labeled uteroferrin from medium during in vitro culture in a temperature-dependent manner. Fluorescent label was located in apical and basolateral cytoplasm in a punctate distribution, and clustered in the supranuclear region of trophectoderm. Addition of a threefold excess of unlabeled uteroferrin to culture medium did not inhibit uptake. These results suggest that the pre-implantation pig blastocyst actively endocytoses uteroferrin from glandular secretions in utero. Uptake was restricted to trophectoderm.

Immunocytochemical localization of BP, a conceptus secretory protein, in trophectoderm during pig trophoblast elongation.

Tissue sections of periimplantation pig conceptuses (days 9-15 of pregnancy) were incubated with antiserum to the basic protein (BP), a major secretory protein of filamentous pig blastocysts. Bound antibody was detected by the peroxidase-antiperoxidase method. BP was restricted to trophectoderm in conceptuses which had made the transition from a spherical to an ovoid shape having a diameter of greater than 5 mm (day 11). Tubular (day 11, 10-20 mm) and filamentous (day 11-15) conceptus trophectoderm contained BP. These results suggest that BP synthesis commences at the time of rapid trophoblast growth.

Synthesis and Secretion of Proteins by Porcine Chorion and Allantois during Gestation

Porcine chorion and allantois were obtained surgically on days 26, 55 and 112 of pregnancy. Membranes were cultured in vitro in the presence of [^35S] - methionine for 24 h. Proteins released into medium during culture were analyzed by two-dimensional polyacrylamide gel electrophoresis and fluorography. Certain polypeptides were synthesized preferentially by chorion and/or by allantois during gestation. Common to both membranes were a group of polypeptides, designated as the B2 complex, and a 22 kDa protein, designated as C1, which were the predominant polypeptide product of chorion and allantois. The C1 protein was immunologically identified as retinol-binding protein (RBP) of chorionic and allantoic origin. Prior to parturition, chorion or allantois alone synthesized a few distinct proteins. The present study is the first to characterize protein production by isolated porcine chorion and allantois, and to demonstrate that both membranes secret RBP. These data pave a way for evaluating the protein secretory ability of chorion and allantois in vitro during pregnancy.