Biosynthesis of prolyl hydroxylase: evidence for two separate dolichol-media pathways of glycosylation

Prolyl hydroxylase is a glycoprotein containing two nonidentical subunits, alpha and beta. The alpha subunit of prolyl hydroxylase isolated from 13-day-old chick embryos contains a single high mannose oligosaccharide having seven mannosyl residues. Two forms of alpha subunit have been shown to exist in enzyme purified from tendon cells of 17-day-old chick embryos, one of which (alpha) appears to be identical in molecular weight and carbohydrate content with the single alpha of enzyme from 13-day-old chick embryos, as well as another form (alpha') that contains two oligosaccharides, each containing eight mannosyl units [see Kedersha, N. L., Tkacz, J. S., & Berg, R. A. (1985) Biochemistry (preceding paper in this issue)]. Biosynthetic labeling studies were performed with chick tendon cells using [2-3H]mannose, [6-3H]glucosamine, [14C(U)]mannose, and [14C(U)]glucose. Analysis of the labeled products using polyacrylamide gel electrophoresis in sodium dodecyl sulfate showed that only the oligosaccharides on alpha' incorporated measurable mannose or glucosamine isotopes; however, both alpha subunits incorporated 14C amino acid mix and [14C(U)]glucose [metabolically converted to [14C(U)]mannose] under similar conditions. Pulse-chase labeling studies using 14C amino acid mix demonstrated that both glycosylated polypeptide chains alpha and alpha' were synthesized simultaneously and that no precursor product relationship between alpha and alpha' was apparent. In the presence of tunicamycin, neither alpha nor alpha' was detected; a single polypeptide of greater mobility appeared instead. Incubation of the cells with inhibitory concentrations of glucosamine partially depressed the glycosylation of alpha' but allowed the glycosylation of alpha.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of tunicamycin on the glycosylation of rhodopsin

The incorporation of [³H]glucosamine, [³H]mannose, and [³⁵S]methionine into rhodopsin was investigated in retinas which had been incubated in the presence and absence of the antibiotic, tunicamycin. In its presence, the incorporation of glucosamine was inhibited 70% and mannose, 96% compared to controls. In the presence of tunicamycin the attachment of glucosamine to core-region sites was virtually eliminated. The formation of unglycosylated rhodopsin was also indicated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and concanavalin A-Sepharose chromatography. These findings are consistent with the participation of the lipid-linked pathway in the glycosylation of this well-characterized intrinsic glycoprotein of the membranes of the disk of the rod outer segment. As indicated by the incorporation of [³⁵S]methionine, the synthesis of rhodopsin apoprotein was inhibited by a much lesser amount. This suggests that the glycosylation of rhodopsin is not required for its insertion into the disk membrane.     

Protein-bound oligosaccharides of Semliki Forest virus.

Semliki Forest virus was grown in BHK cells and labeled in vivo with radioactive monosaccharides. Pronase digests of the virus chromatographed on Bio-Gel P6 revealed glycopeptides of A-type and B-type. (For the nomenclature see Johnson, J. and Clamp, J.R. (1971) Biochem. J. 123, 739-745.) The former was labeled with [3H]fucose, [3H]galactose, [3H]mannose and [14C]glucosamine, the latter only with [3H]mannose and [14C]glucosamine. The three envelope glycoproteins E1, E2 and E3 were isolated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and subjected to pronase digestion. The glycoproteins E1 and E3 revealed glycopeptides of A-type. E2 revealed glycopeptides of B-type. E2 yielded additionally a glycopeptide (Mr3100) which was heavily labeled from [3H]galactose, but only marginally from [14C]glucosamine, [3H]fucose and [3H]mannose. Whether this glycopeptide belongs to the A-type or not remains uncertain. The apparent molecular weights of the A-type units measured by gel filtration were 3400 in E1 and 4000 in E3; the B-type unit of E2 had an apparent molecular weight of 2000. Combined with the findings of our earlier chemical analysis these data suggest that E1 and E3 contain on the average one A-type unit; E2 probably contains one 3100 dalton unit plus one or two B-type units.     

Biosynthesis of adrenocorticotropic hormone in mouse pituitary tumor cells.

A double antibody immunoprecipitation technique using affinity-purified adrenocorticotropic hormone (ACTH) antiserum was employed to investigate the biosynthesis of ACTH in a mouse pituitary tumor cell line. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of cell extracts resolved four forms of ACTH with apparent molecular weights of 4,500, 13,000, 23,000, and 31,000. These four forms of ACTH can be detected by radioimmunoassay of cell extracts or by immunoprecipitation of cell extracts following incubation of cultures in [3H] tryptophan, [3H] lysine, or [3H] tyrosine. The double antibody immunoprecipitation scheme developed is specific, quantitative, and reproducible. ACTH biosynthesis was examined in both steady and pulse-labeling experiments using [8H] tyrosine or [3H] lysine. The results of these experiments are consistent with the proposal that Mr=31,000 ACTH is the biosynthetic precursor for all three smaller forms of ACTH and that Mr=23,000 ACTH is a biosynthetic intermediate. Both Mr=13,000 ACTH and Mr=4,500 ACTH are derived from the intracellular processing of Mr=31,000 ACTH.     

Characterization and identification of the hyaluronate binding site from membranes of SV-3T3 cells

Previous research has shown that binding sites for hyaluronate are present on the surfaces of a number of different cell types. To further characterize these binding sites, membranes were prepared from SV-3T3 cells and dissolved in a solution of sodium deoxycholate. Hyaluronate binding activity was detected by mixing the sodium deoxycholate extract with [3H]hyaluronate and then adding an equal volume of saturated (NH4)2SO4, which precipitated the binding protein and any [3H]hyaluronate associated with it, but left free [3H]hyaluronate in solution. Following partial purification by hydroxylapatite chromatography, the binding site was examined by molecular sieve chromatography and by rate-zonal centrifugation, which revealed that it has a Stokes radius of 6.5 nm and a sedimentation coefficient of 4.8 S. From these values, it was possible to calculate that the sodium deoxycholate-solubilized binding site has a frictional coefficient of 1.87 and a molecular weight of 132,000. Since this latter value applies to the complex of both detergent and protein, the binding protein by itself must have a molecular weight lower than 132,000. To determine the molecular weight of the hyaluronate binding site itself, the protein was purified by the sequential application of hydroxylapatite chromatography, molecular sieve chromatography, rate-zonal centrifugation, and finally lectin-affinity chromatography on concanavalin A-agarose. Analysis of the purified material by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed an 85,000 Mr protein which has been identified as the binding site. This protein was also detected on nitrocellulose blots which had been specifically stained for concanavalin A binding material, suggesting that the binding site is a glycoprotein.     

Plasmodium falciparum: Synthesis of glycoprotein by cultured erythrocytic stages

The human malarial parasite, Plasmodium falciparum, incorporated significant radioactivity into glycoconjugates when cultured in the presence of [¹⁴C]- or [³H]glucosamine for 48 to 50 hr. Digestion of the labeled proteins with pronase and subsequent precipitation with absolute ethanol showed that 90 to 95% of the radioactive glucosamine was incorporated into the precipitated material. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the labeled macromolecules revealed eight bands with approximate molecular weights from 19,000 to 90,000 daltons.     

High molecular weight forms of adrenocorticotropic hormone in the mouse pituitary and in a mouse pituitary tumor cell line.

Denaturing solvents have been used to determine the molecular weight of the adrenocorticotropic hormone (ACTH) activity in mouse pituitary, in an ACTH secreting mouse pituitary tumor cell line (AtT-20/D-16v), and in the tissue culture medium from the pituitary tumor cells. ACTH activity was quantitated by radioimmunoassay and by bioassay. It is possible to utilize guanidine hydrochloride or sodium dodecyl sulfate in characterizing the multiple forms of ACTH because treatment of porcine ACTH (the 39 amino acid polypeptide form of ACTH, alpha(1-39)), pituitary extracts, tumor cell extracts, and tumor cell tissue culture medium with these denaturants does not diminish the immunological ACTH activity. Based on gel filtration in the presence of guanidine hydrocholoride, extracts of the pituitary tumor cells and the mouse pituitary contain three distinct molecular weight classes of ACTH activity. The major form of ACTH has a molecular weight similar to alpha(1-39) (molecular weight 4000-5500), but there are significant amounts of two higher molecular weight forms of ACTH: molecular weight 6500-9000 and molecular weight 20,000-30,000. The 6500-9000 molecular weight form of ACTH is the major form of ACTH in the tissue culture medium; there is no peak of alpha(1-39) size ACTH in the medium. In the radioimmunoasay all three forms of ACTH generate competitive binding curves parallel to that of porcine alpha(1-39); in the bioassay (stimulation of steroidogenesis in a mouse adrenal tumor cell line) the dose response curve for each of the molecular forms of ACTH is parallel to that for porcine alpha(1-39).     

Stimulation of the biosynthesis of membrane glycoproteins from Zajdela ascites hepatoma cells by Robinia lectin.

Membrane glycoprotein biosynthesis of ascites hepatoma cells is followed by [14C]glucosamine and [3H]leucine incorporation into cells in culture. The rate of incorporation is strongly increased by the addition of Robinia lectin in culture medium. Labeled glycoproteins are released from lectin stimulated and non-stimulated cells by trypsin digestion. Studies of labeled trypsinates on sodium dodecyl sulfate gel electrophoresis and Sephadex G-200 filtration exhibit two fractions both labeled with [14C]glucosamine and [3H]leucine and having different molecular weights, one over 200000 and the other about 2000. Identical results are obtained when external membrane glycoproteins are solubilized by sodium deoxycholate. Comparison of surface glycoproteins isolated by trypsinization from control cells labeled with [3H]-glucosamine and from lectin stimulated cells labeled with [14C]glucosamine displays no significant qualitative differences between glycoprotein fractions released from both cell groups.     

Phosphatidylinositol-linked glycans and phosphatidylinositol-anchored proteins of Tetrahymena mimbres

The insoluble residue from Tetrahymena mimbres cells that had been preincubated in vivo for 2 h with [3H]myristic acid and then exhaustively delipidated with organic solvents retained radioactivity, principally in material which migrated on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with an apparent molecular mass of 10-14 kDa. This material was extractable from the delipidated cell residue with organic solvents known to solubilize phosphatidylinositol glycans (PI glycans). The same material could also be labeled with [3H]inositol, [14C]glucosamine, and [3H] ethanolamine. When the delipidated residue of cells labeled for 2 h with [3H]myristate was treated with phosphatidylinositol-specific phospholipase C or nitrous acid, much of the associated radioactivity was released. A similar release was obtained using the putative PI glycan fraction extracted from the cell residue. After further purification by thin layer chromatography, this latter material was hydrolyzed with HCl and shown to contain fatty acids, alkylglyceryl ethers, phosphate, inositol, glucosamine, mannose, and ethanolamine. The findings indicate that T. mimbres contains PI glycans resembling in structure those recently characterized in trypanosomes and mammalian cells. As the time of incubation with the radiotracers enumerated above was increased to 6-24 h, increasing amounts of radioactivity appeared in the 22-27-kDa region of sodium dodecyl sulfate-polyacrylamide gel electrophoresis gels. This higher molecular weight material is shown in the companion paper (Pak, Y., Ryals, P.E., and Thompson, G.A., Jr. (1991) J. Biol. Chem. 266, 15054-15059) to be released by in vivo phosphatidylinositol-specific phospholipase C treatment. Thus T. mimbres contains a pool of free PI glycans and at least one phosphatidylinositol-anchored protein.     

Mammalian beta-adrenergic receptors. Distinct glycoprotein populations containing high mannose or complex type carbohydrate chains

Mammalian beta-adrenergic receptor binding peptides can be visualized by covalently labeling them with the photoaffinity reagent p-azido-m-[125I]iodobenzylcarazolol followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. The receptor peptides migrate as broad bands of Mr approximately equal to 62,000. In the present study, we examined the carbohydrate composition of the mammalian beta receptor through the use of specific exo- and endoglycosidases and lectin affinity chromatography. Treatment of p-azido-m-[125I]iodobenzylcarazolol-labeled beta2-adrenergic receptors from hamster lung or rat erythrocyte with the exoglycosidases neuraminidase and alpha-mannosidase provided evidence for the existence of both high mannose and complex type carbohydrate chains on beta 2-adrenergic receptors. The nonadditivity of the effect of sequential treatments with these enzymes suggested discrete populations of beta-adrenergic receptors containing either complex or high mannose type chains. Deglycosylation of receptor with endoglycosidase F results in a single labeled polypeptide at Mr = 49,000 for both systems. The same two populations of the beta receptors (high mannose or complex type chain) could also be fractionated by lectin affinity chromatography of solubilized p-azido-m-[125I]iodobenzylcarazolol-labeled receptors. The high mannose-containing receptors could be absorbed to and specifically eluted from concanavalin A-agarose. Those containing complex type carbohydrates could be adsorbed to and eluted from wheat germ agglutinin-agarose. Taken together, these data suggest that mammalian beta-adrenergic receptors contain both complex and high mannose type carbohydrate chains and that microheterogeneity of these chains likely explains the broad band pattern typically obtained on sodium dodecyl sulfate-polyacrylamide gel electrophoresis.     

Purification and characterization of peptidylglycine alpha-amidating monooxygenase from bovine neurointermediate pituitary

Extracts of bovine neurointermediate pituitary secretory granules and frozen bovine neurointermediate pituitary contain multiple forms of peptidylglycine alpha-amidating monooxygenase (PAM) activity differing in apparent molecular weight and in charge. Metal chelate affinity chromatography, substrate affinity chromatography, and gel filtration resulted in the purification of two forms of amidation activity from frozen bovine neurointermediate pituitary: PAM-A, apparent molecular weight 54,000, was purified 7,000-fold and PAM-B, apparent molecular weight 38,000, was purified 21,000-fold. Enzyme activity of similar molecular weights was observed in the starting material. Purified PAM-A and PAM-B correspond to two of the three charge forms present in crude extracts, and both exhibited optimal activity at alkaline pH. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of PAM-B revealed the presence of two bands with apparent molecular weights of 42,000 and 37,000; autoradiography of 125I-labeled PAM-B revealed only the same two bands, and 125I-labeled PAM-B co-eluted with enzyme activity during gel filtration. PAM-A was still heterogeneous based on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The properties of purified PAM-A and PAM-B were very similar to those of amidation activity in crude extracts: activity was reduced upon removal of molecular oxygen; activity was stimulated by the addition of CuSO4 and eliminated by the addition of diethyldithiocarbamate; activity was stimulated by the addition of ascorbate, with optimal levels of ascorbate increasing as the concentration of peptide substrate was increased. In the presence of 1.25 mM ascorbate, PAM-B exhibited a Km of 7.0 microM for D-Tyr-Val-Gly and a Vmax of 84 nmol/micrograms/h.     

Identification of multiple tropoelastins secreted by bovine cells

High resolution gradient sodium dodecyl sulfate-polyacrylamide gel electrophoresis, cell-free translation, and elastin-specific antibodies were used to identify three tropoelastin isoforms secreted by bovine tissue and cells. Tropoelastin isolated from nuchal ligament and from conditioned culture medium or cell-matrix extracts of ligament fibroblasts and auricular chondrocytes resolved as three distinct bands on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with molecular weights of approximately 67,500 (tropoelastin I), 65,000 (tropoelastin II), and 62,000 (tropoelastin III). Three tropoelastin polypeptides with molecular mass 2-3 kDa higher than their corresponding tissue forms were also evident in cell-free translation products of ligamentum nuchae RNA, suggesting that each tropoelastin species is encoded by a unique mRNA. The presence of cysteine in all three tropoelastin isoforms was demonstrated by the incorporation of [35S]cysteine into newly synthesized tropoelastin polypeptides and by immunoreactivity with an antibody raised against a synthetic peptide that defines the cysteine-containing carboxyl-terminal region of tropoelastin. Immunological co-localization of the carboxyl-terminal antibody with insoluble elastin in lung vasculature and parenchyma suggests that intact tropoelastin and not a processed form is incorporated into the elastin fiber.     

Steps involved in the processing of common precursor forms of adrenocorticotropin and endorphin in cultures of mouse pituitary cells.

The initial steps in the processing of the common precursor to adrenocorticotropin (ACTH) and endorphin in mouse pituitary tumor cells (AtT-20) have been investigated. Three forms of the precursor have been resolved by sodium dodecyl sulfate (NaDodSO4)-polyacrylamide gel electrophoresis with apparent molecular weights of 29 000 (29K ACTH-endorphin), 32 000 (32K ACTH-endorphin) and 34 000 (34K ACTH-endorphin). These forms have a similar peptide backbone, but their carbohydrate content differs. In particular, a tryptic glycopeptide has been observed in 32K ACTH-endorphin which is not present in 29K ACTH-endorphin and has been identified as the tryptic peptide containing the alpha(22--39) sequence of ACTH. Similar heterogeneity in carbohydrate has been observed in some of the smaller molecular weight forms of ACTH which are resolved by NaDodSO4 gel electrophoresis. Pulse chase and continuous labeling studies using radioactive amino acids and sugars suggest that the 29K ACTH-endorphin is converted to 32K and 34K ACTH-endorphin by the addition of carbohydrate. The glycopeptide and pulse chase studies suggest that 29K ACTH-endorphin is at a branch point in the processing pathways. It can either be converted to 4.5K ACTH by proteolytic processing or to 32K ACTH-endorphin by the further addition of carbohydrate. The 32K ACTH-endorphin can then be converted to 13K ACTH, the glycosylated form of 4.5K ACTH (Eipper, B.A., & Mains,, R.E. (1977) J.Biol. Chem.252, 882), by proteolytic processing. A comparison of the distribution of the different molecular weight forms of ACTH and endorphin in mouse pituitary extracts and in the mouse pituitary tumor cells reveals that the pituitary contains all of the forms of ACTH and endorphin seen in the tumor cells, including the three forms of the ACTH-endorphin precursor. However, the molecular weight distribution of the forms in the anterior lobe is very different from that in the intermediate lobe of mouse pituitary.     

Biosynthesis of a glycosylated keratin by human keratinocytes

Human keratinocytes, cultured in the presence of D-[1-14C]glucosamine, incorporated radioactivity into a cytoskeleton-associated glycoprotein with Mr 53,000. This glycoprotein co-purified with prekeratin when keratinocyte cytoskeletons were extracted with 0.1 M citric acid/0.1 M sodium citrate and subjected to isoelectric precipitation at pH 4.0. Analysis of the prekeratin polypeptides by two-dimensional gel electrophoresis revealed that the radioactivity was restricted to a single polypeptide with an isoelectric point in the pH range 4.5-5.5. Acid hydrolysis of prekeratin followed by paper chromatography of the hydrolysate showed that the radioactivity was incorporated as glucosamine and not by metabolic conversion to amino acids. Control experiments showed that the radioactivity associated with the glycoprotein of Mr 53,000 was not the result of adsorbed glycolipids or non-enzymatic labelling. In contrast to the incorporation of D-[1-14C]glucosamine and D-[6-3H]glucosamine, no appreciable amounts of L-[6-3H]fucose, D-[2-3H]mannose or 32PO4 were incorporated into this glycoprotein. The immunological relationship of the glycoprotein of Mr 53,000 to the keratins was demonstrated by its reactivity with both polyclonal and monoclonal antisera to keratin.     

Identification of the milk fat globule membrane proteins: I. Isolation and partial characterization of glycoprotein B

The salt soluble proteins from the fat globule membrane of cow's milk were resolved into three fractions by Sephadex column chromatography in sodium dodecyl sulfate. One of the fractions, termed glycoprotein B, was purified by rechromatography to essentially one band on sodium dodecyl sulfate gel electrophoresis. It was found to contain 14% carbohydrate including sialic acid, mannose, galactose, glucose, glucosamine and galactosamine. The amino acid composition of glycoprotein B was determined; it has amino terminal serine and carboxyl terminal leucine. The molecular weight of this glycoprotein as estimated by sodium dodecyl sulfate gel electrophoresis is 49 500.     

Resolution of the phosphorylated and dephosphorylated cAMP-binding proteins of bovine cardiac muscle by affinity labeling and two-dimensional electrophoresis.

The photoaffinity label 8-azido[32P]adenosine 3':5'-monophosphate (8-azido-cyclic [32P]AMP) was used to analyze both the cAMP-binding component of the purified cAMP-dependent protein kinase, and the cAMP-binding proteins present in crude tissue extracts of bovine cardiac muscle. 8-Azido-cyclic [32P]AMP reacted specifically and in stoichiometric amounts with the cAMP-binding proteins of bovine cardiac muscle. Upon phosphorylation, the purified cAMP-binding protein from bovine cardiac muscle changed its electrophoretic mobility on sodium dodecyl sulfate-polyacrylamide gels from an apparent molecular weight of 54,000 to an apparent molecular weight of 56,000. In tissue extracts of bovine cardiac muscle, most of the 8-azido-cyclic [32P]AMP was incorporated into a protein band with an apparent molecular weight of 56,000 which shifted to 54,000 upon treatment with a phosphoprotein phosphatase. Thus a substantial amount of the cAMP-binding protein appeared to be in the phosphorylated form. Autoradiograms following sodium dodecyl sulfate-polyacrylamide gel electrophoresis of both the pure and impure cAMP-binding proteins labeled with 8-azido-cyclic [32P]AMP revealed another binding component with a molecular weight of 52,000 which incorporated 32P from [gamma-32P]ATP without changing its electrophoretic mobility. Limited proteolysis of the 56,000- and 52,000-dalton proteins labeled with 32P from either [gamma-32P]ATP.Mg2+ or 8-azido-cyclic [32P]AMP showed patterns indicating homology. On the other hand, peptide maps of the major 8-azido-cyclic [32P]AMP-labeled proteins from tissue extracts of bovine cardiac muscle (Mr = 56,000) and rabbit skeletal muscle (Mr = 48,000) displayed completely different patterns as expected for the cAMP-binding components of types II and I protein kinases. Both phospho- and dephospho-cAMP-binding components from the purified bovine cardiac muscle protein kinase were also resolved by isoelectric focusing on polyacrylamide slab gels containing 8 M urea. The phosphorylated forms labeled with 32P from either [gamma-32P]ATP or 8-azido-cyclic [32P]AMP migrated as a doublet with a pI of 5.35. The 8-azido-cyclic [32P]AMP-labeled dephosphorylated form also migrated as a doublet with a pI of 5.40. The phosphorylated and dephosphorylated cAMP-binding proteins migrated with molecular weights of 56,000 and 54,000, respectively, following a second dimension electrophoresis in sodium dodecyl sulfate. The lower molecular weight cAMP-binding component (Mr = 52,000) was also apparent in these gels. Similar experiments with the cAMP-binding proteins present in tissue extracts of bovine cardiac muscle indicate that they are predominantly in the phosphorylated form.     

Stimulation of the biosynthesis of membrane glycoproteins from zajdela ascites hepatoma cells by Robinia lectin

Membrane glycoprotein biosynthesis of ascites hepatoma cells is followed by [¹⁴C]glucosamine and [³H]leucine incorporation into cells in culture. The rate of incorporation is strongly increased by the addition of Robinia lectin in culture medium. Labeled glycoproteins are released from lectin stimulated and non-stimulated ceils by trypsin digestion. Studies of labeled trypsinates on sodium dodecyl sulfate gel electrophoresis and Sephadex G-200 filtration exhibit two fractions both labeled with [¹⁴C]glucosamine and [³H]leucine and having different molecular weights, one over 200 000 and the other about 2000. Identical results are obtained when external membrane glycoproteins are solubilized by sodium deoxycholate. Comparison of surface glycoproteins isolated by trypsinization from control cells labeled with [³H]glucosamine and from lectin stimulated cells labeled with [¹⁴C]glucosamine displays no significant qualitative differences between glycoprotein fractions released from both cell groups.     

Isolation and characterization of the putative canalicular bile salt transport system of rat liver

Through labeling with the sodium salt of the photolabile bile salt derivative (7,7-azo-3 alpha,12 alpha-dihydroxy-5 beta-[3 beta-3H]cholan-24-oyl)- 2-aminoethanesulfonic acid, a bile salt-binding polypeptide with an apparent molecular weight of 100,000 was identified in isolated canalicular but not basolateral (sinusoidal) rat liver plasma membranes. This labeled polypeptide was isolated from octyl glucoside-solubilized canalicular membranes by DEAE-cellulose and subsequent wheat germ lectin Sepharose chromatography. The purified protein still contained covalently incorporated radioactive bile salt derivative and exhibited a single band with an apparent molecular weight of 100,000 on sodium dodecyl sulfate-gels. Antibodies were raised in rabbits and their monospecificity toward this canalicular polypeptide demonstrated by immunoblot analysis. No cross-reactivity was found with basolateral membrane proteins. The antibodies inhibited taurocholate uptake into isolated canalicular but not basolateral membrane vesicles. In addition, the antibodies also decreased efflux of taurocholate from canalicular vesicles. If the canalicular bile salt-binding polypeptide was immunoprecipitated from Triton X-100-solubilized canalicular membranes and subsequently deglycosylated with trifluoromethanesulfonic acid, the apparent molecular weight was decreased from 100,000 to 48,000 (sodium dodecyl sulfate-polyacrylamide gel electrophoresis). These studies confirm previous results in intact liver tissue and strongly indicate that a canalicular specific glycoprotein with an apparent molecular weight of 100,000 is directly involved in canalicular excretion of bile salts.     

Purification and characterization of high-molecular-weight forms of adrenocorticotropic hormone of ovine pituitary glands.

A highly purified preparation of high-molecular-weight adrenocorticotropic hormone (ACTH) was prepared from ovine pituitary glands by dilute acetic acid extraction, oxycellulose fractionation. Sephadex gel filtration, and affinity chromatography on immobilized alphap(1-39)ACTH antibodies. Two ACTH peptides of molecular weights of 24 000 and 34 000 were detected by sodium dodecyl sulfate-acrylamide gel electrophoresis in this preparation. It appeared that the immobilized antibodies adsorbed two forms equally well and could not distinguish between them under the conditions used. These two ACTH peptides were found to be present in crude extracts of ovine pituitary glands, indicating that they were not artifacts produced by the purification procedure. The high-molecular-weight forms of ACTH were found to be susceptible to degradation by tissue enzymes. They could be easily destroyed during the extraction, if precautions were not taken. Moreover, they were poorly adsorbed by oxycellulose which had been used for the adsorption of ACTH activity from crude preparations by most investigators. These properties probably accounted for the fact that high-molecular-weight forms of ACTH remained undetected until very recently.