Acetyl-coenzyme-A carboxylase from rat liver. Subunit structure and proteolytic modification.

The subunit structure of rat liver acetyl-coenzyme-A carboxylase has been studied by polyacrylamide gel electrophoresis in the presence of dodecylsulfate. A number of individual preparations of the enzyme purified by the same procedures exhibited three different types of electrophoretic patterns as follows: first, a single slow-moving protein bands (Mr 230000); secondly, two adjacent fast-moving protein band (M4 124000 and 118 000); finally, all three protein bands. With the use of the [14C]biotin-labelled enzyme, the biotinyl prosthetic group was shown to be associated with the polypeptide of 230000 Mr as well as with that of 124000 Mr, but not with the polypeptide of 118000 Mr. Studies were next made with the labelled enzyme to examine the possibility that the two light polypeptides might have been formed by proteolytic modification of the heavy polypeptide during the procedures used for the purification of the enzyme. Treatment of the enzyme with trypsin or chymotrypsin resulted in cleavage of the heavy polypeptide into two nonidentical polypeptides with molecular weights of approximately 120000. Incubation of the enzyme with proteases derived from rat liver converted the heavy polypeptide into lighter polypeptides of 80000-130000 Mr. Acetyl-CoA carboxylase isolated from crude rat liver extracts by means of immunoprecipitation with specific antibody invariably showed only the heavy polypeptide. The biotin content of the enzyme was found to be 1 mol per 237000 g protein. These results indicate that rat liver acetyl-CoA carboxylase, unlike bacterial and plant biotin enzymes, has only one kind of subunit, which has a molecular weight of 230000 and contains one molecular of biotin. Thus, the mammalian enzyme exhibits a highly integrated subunit structure.     

Monoclonal antibodies specific for bovine pancreatic asparagine synthetase. Production and use in structural studies

Thirteen stable hybridoma cell lines producing monoclonal antibodies specific for asparagine synthetase were established and one monoclonal antibody was chosen to produce an immunoaffinity resin for the purification of asparagine synthetase. Bovine pancreatic asparagine synthetase was purified to a specific activity of 395 nmol of Asn produced/min/mg. Electrophoresis of the affinity-purified enzyme in sodium dodecyl sulfate polyacrylamide gels resulted in a single Mr = 54,000 polypeptide. Prior cross-linking with dimethyl suberimidate resulted in a band at Mr = 52,500 (monomer) and two additional bands at Mr = 97,000 and 98,000 (dimers), suggesting the possibility of a heterogeneous enzyme population with slight differences in subunit composition. The ratio of Gln-dependent and NH3-dependent asparagine synthetase activities was constant for immunoaffinity-purified enzyme, but the ratios of glutaminase activity to synthetase activities varied, suggesting separate aspartate and glutamine binding sites. The monoclonal antibodies were tested as inhibitors of the Gln-dependent and NH3-dependent asparagine synthetase activities as well as for inhibition of the glutaminase activity of the enzyme. Two antibodies inhibited Gln- and NH3-dependent synthesis of asparagine, but did not affect the glutaminase activity of immunoaffinity-purified asparagine synthetase. A third monoclonal antibody inhibited Gln-dependent synthesis of asparagine and glutaminase activity, but activated NH3-dependent asparagine synthetase activity. These data are discussed in terms of multiple substrate binding domains within the asparagine synthetase molecule.     

Solubilization and purification of rat liver 5''-nucleotidase by use of a zwitterionic detergent and a monoclonal-antibody immunoadsorbent.

1. A variety of detergents were used to solubilize 5'-nucleotidase from rat liver plasma membranes. 2. The zwitterionic detergent Sulphobetaine 14 gave optimal solubilization by the criteria of release into a high-speed-centrifugation supernatant and the formation of the smallest and least polydisperse active enzyme observed on polyacrylamide-gel electrophoresis. 3. The Sulphobetaine 14-solubilized enzyme from rat liver was purified by using the conventional techniques of ion-exchange chromatography and gel filtration, or by an immunoaffinity step with a monoclonal antibody immunoadsorbent. 4. 5'-Nucleotidase was purified at least 12 000-fold relative to liver homogenate by the immunoaffinity purification scheme and had a specific activity in the range 285-340 mumol/min per mg of protein. The yield was in the range 9-16%. 5. The purified enzyme shows a major polypeptide band of apparent Mr 70 000 on sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and a minor band of apparent Mr 38 000. 6. A rational approach to the general problem of the purification of minor intrinsic membrane proteins is discussed, with the use of polyacrylamide-gel electrophoresis to determine the most appropriate detergent and monoclonal antibodies in subsequent immunoaffinity purification.     

Conformational states of the (Na+ + K+)-transporting ATPase. Formation of 240 000-Mr and 116 000-Mr polypeptides in the presence of a bifunctional thiol probe.

Interpeptide cross-linking of alpha-subunits with concomitant loss of Na+ + K+-transporting ATPase (Na+, K+-ATPase) activity was found when the purified lamb kidney enzyme was treated with the bifunctional thiol reagent 4,4'-difluoro-3,3'-dinitrodiphenyl sulphone (F2DNS). Several forms of the enzyme could be clearly distinguished: one binding ATP (non-phosphorylated enzyme, E1 X ATP), a phosphorylated form (E2-P) and a phosphoenzyme-ouabain complex (E2P X ouabain). A polypeptide of approx. Mr 240 000 and probable alpha 2 composition comprised up to 5-20% of the total polypeptides after reaction of the lamb kidney Na+, K+-ATPase with F2DNS. The amount of this polypeptide formed was related to the conformational state of the enzyme. The presence of adenine nucleotide greatly diminished the amount of 240 000-Mr polypeptide formed and provides evidence for an enzyme-adenine-nucleotide complex under conditions where the enzyme is not phosphorylated. F2DNS reacted with the enzyme in the presence of Mg2+, Pi and ouabain to form a new polypeptide with an approx. Mr of 116 000, and comprised 23% of the total, whereas the 240 000-Mr polypeptide comprised 9% of the total. This suggests that the 116 000-Mr polypeptide is a characteristic marker of the E2P X ouabain complex. By using specific antibodies it was established that both the 240 000- and 116 000-Mr polypeptides contained alpha-, but not beta-, subunits of the Na+, K+-ATPase.     

Monoclonal antibodies against plant proteins recognise animal intermediate filaments

Four monoclonal antibodies were raised against polypeptides present in a high-salt detergent-insoluble fraction from cells of Chlamydomonas reinhardtii. Indirect immunofluorescence microscopy of fibroblasts and epithelial cells grown in culture using these plant antibodies revealed staining arrays identical to those obtained with well characterised antibodies to animal intermediate filaments. Immunofluorescence microscopy of Chlamydomonas with these monoclonal antibodies and a monoclonal antibody that recognises all animal intermediate filaments (anti-IFA) gave a diffuse, patchy cytoplasmic staining pattern. Both the plant antibodies and anti-IFA stained interphase onion root tip cells in a diffuse perinuclear pattern. In metaphase through to telophase, the labelling patterns colocalised with those of microtubules. Labelling of the phragmoplast was also detected but not staining of the preprophase band. On Western blots of various animal cell lines and tissues, all the antibodies labelled known intermediate filament proteins. On Western blots of whole Chlamydomonas proteins, all the antibodies labelled a broad band in the 57,000 Mr range, and three antibodies labelled bands around 66,000 and 140,000 Mr but with variable intensities. On Western blots of whole onion root tip proteins, all the antibodies labelled 50,000 Mr (two to three bands) polypeptides and a diffuse band around 60,000 Mr and three of the antibodies also labelled several polypeptides in the 90,000-200,000 Mr range. The consistent labelling of these different bands by several different monoclonal antibodies recognising animal intermediate filaments makes these polypeptides putative plant intermediate filament proteins.     

Free messenger ribonucleoprotein complexes of chicken primary muscle cells following modification of protein synthesis by heat-shock treatment

When primary cultures of chicken myoblasts were subjected to incubation at a temperature higher than their normal growing temperature of 36-37 degrees C, the pattern of protein synthesis was altered. This condition of heat shock induced a vigorous production of a number of proteins collectively known as 'heat-shock proteins'. The synthesis of heat-shock proteins was achieved without a significant decrease in the production of a broad spectrum of proteins by muscle cells. The synthesis of three major heat-shock polypeptides with Mr values of 81 000, 65 000 and 25 000 was observed in both mononucleated dividing myoblast cells and terminally differentiated myotubes. Two-dimensional electrophoretic separation of the heat-induced polypeptides synthesized by myogenetic cultures further established that same set of polypeptides with Mr of 65 000 (pI 6.0 and 5.5), 81 000 (pI 6.2) and 25 000 (pI 5.6 and 5.3) were produced in myoblasts and myotubes. The effect of the changes in pattern of protein synthesis on the mRNA and protein moieties of non-polysomal cytoplasmic mRNA-protein complexes (free mRNP) was examined. Free mRNP complexes sedimenting at 20-35 S were isolated from the post-ribosomal supernatant of both normal and heat-shocked myotube cultures by centrifugation in a sucrose gradient. A 10-20S RNA fraction isolated from these complexes stimulated protein synthesis in a cell-free system. The RNA fraction obtained from heat-shocked cells appeared to direct the synthesis of all three major heat-shock proteins. In contrast, synthesis of these polypeptides was not detected when RNA from free mRNP complexes of normal cells was used for translation. The free mRNP complexes of both normal and heat-shocked cells showed a buoyant density of 1.195 g/cm3 in metrizamide gradients. A large number of polypeptides of Mr = 35 000-105 000 were present in the highly purified free mRNP complexes isolated from the metrizamide gradient. Similar sets of polypeptides were found in these complexes from both normal and heat-shocked myotube culture. However, the relative proportion of a 65 000-Mr polypeptide was dramatically increased in the free mRNP complexes of heat-shocked cells. Two-dimensional gel electrophoretic analysis revealed that this polypeptide and the 65 000-Mr heat-shock polypeptide exhibit similar electrophoretic migration properties. These observations suggest that, following heat-shock treatment of chicken myotube cultures, the changes in the pattern of protein synthesis is accompanied by alteration of the mRNA and protein composition of free mRNP complexes.     

Biosynthesis of the neural cell adhesion molecule: characterization of polypeptide C

The biosynthesis of the neural cell adhesion molecule (N-CAM) was studied in primary cultures of rat cerebral glial cells, cerebellar granule neurons, and skeletal muscle cells. The three cell types produced different N-CAM polypeptide patterns. Glial cells synthesized a 135,000 Mr polypeptide B and a 115,000 Mr polypeptide C, whereas neurons expressed a 200,000 Mr polypeptide A as well as polypeptide B. Skeletal muscle cells produced polypeptide B. The polypeptides synthesized by the three cell types were immunochemically identical. The membrane association of polypeptide C was investigated with methods that distinguish peripheral and integral membrane proteins. Polypeptide C was found to be a peripheral membrane protein, whereas polypeptides A and B were integral membrane proteins with cytoplasmic domains of approximately 50,000 and approximately 25,000 Mr, respectively. The affinity of the membrane binding of polypeptide C increased during postnatal development. The posttranslational modifications of polypeptide C were investigated in glial cell cultures, and it was found to be N-linked glycosylated and sulfated.     

Analysis of the control of citrulline synthesis in isolated rat-liver mitochondria

Irradiation of chicken muscle cells with ultraviolet light (254 nm) to cross-link RNA and protein moieties was used to examine the polypeptide complements of cytoplasmic mRNA-protein complexes (mRNP). The polypeptides of translationally active mRNP complexes released from polysomes were compared to the repressed nonpolysomal cytoplasmic (free) mRNP complexes. In general, all of the polypeptides present in free mRNPs were also found in the polysomal mRNPs. In contrast to polysomal mRNPS, polypeptides of Mr 28 000, 32 000, 46 000, 65 000 and 150 000 were either absent or present in relatively smaller quantities in free mRNP complexes. On the other hand, the relative proportion of polypeptides of Mr 130 000 and 43 000 was higher in free mRNPs than in polysomal mRNP complexes. To examine the role of cytoplasmic mRNP complexes in protein synthesis or mRNA metabolism, the changes in these complexes were studied following (a) inhibition of mRNA synthesis and (b) heat-shock treatment to alter the pattern of protein synthesis. Actinomycin D was used to inhibit mRNA synthesis in chick myotubes. The possibility of newly synthesized polypeptides of cytoplasmic mRNP complexes being assembled into these complexes in the absence of mRNA synthesis was examined. These studies showed that the polypeptides of both free and polysomal mRNP complexes can bind to pre-existing mRNAs, therefore suggesting that polypeptides of mRNP complexes can be exchanged with a pool of RNA-binding proteins. In free mRNP complexes, this exchange of polypeptides is significantly slower than in the polysomal mRNP complexes. Heat-shock treatment of chicken myotubes induces the synthesis of three polypeptides of Mr = 81 000, 65 000 and 25 000 (heat-shock polypeptides). Whether this altered pattern of protein synthesis following heat-shock treatment could affect the polypeptide composition of translationally active polysomal mRNPs was examined. The results of these studies show that, compared to normal cells, more newly synthesized polypeptides were assembled into polysomal mRNPs following heat-shock treatment. A [35S]methionine-labeled polypeptide of Mr = 80 000 was detected in mRNPs of heat-shocked cells, but not of normal cells. This polypeptide was, however, detected by AgNO3 staining of the unlabeled polypeptide of mRNP complexes of normal cells. These results, therefore, suggest that the assembly of newly synthesized 80 000-Mr polypeptide to polysomal mRNPs was enhanced following induction of new heat-shock mRNAs. The results of these studies reported here have been discussed in relation to the concept that free mRNP complexes are inefficiently translated in vivo.(ABSTRACT TRUNCATED AT 400 WORDS)     

Synthesis of DNA polymerase alpha analyzed by immunoprecipitation from synchronously proliferating cells

Synchronously proliferating TC7 monkey and 3T3 mouse cells were pulse labeled with [35S]methionine. Radioactively labeled DNA polymerase alpha was immunoprecipitated with polymerase-specific monoclonal antibodies. The precipitated polypeptides were identified by gel electrophoresis and fluorography. The increase in DNA polymerase alpha activity during S phase was accompanied by an increased synthesis of the enzyme. Some DNA polymerase alpha was synthesized in growth-arrested TC7 cells whereas the synthesis of the large polymerase subunit in 3T3 cells was strictly coupled to the replicative phase of the cell cycle. We also found that DNA polymerase alpha was more prone to proteolysis in TC7 cells than in 3T3 cells. In 3T3 cells, a polymerase subunit with an apparent molecular weight of 186 000 was observed; this subunit was most probably associated with two smaller subunits of Mr 74 000 and 52 000. Synthesis of these three polymerase-associated polypeptides appeared to be regulated differently.     

Molecular properties of pyrophosphate:fructose-6-phosphate phosphotransferase from potato tuber

Pyrophosphate:fructose-6-phosphate phosphotransferase (PFP) from potato tubers has been purified to homogeneity. The enzyme contains two polypeptides with apparent relative molecular mass (Mr) values of 65,000 and 60,000. These polypeptides give different peptide fragments after limited proteolytic digestion. Antibodies raised against each polypeptide separately are specific for that polypeptide, but both antisera are capable of immunoprecipitating native PFP activity. These antibodies also recognize similar pairs of polypeptides in a range of other plant tissues that contain PFP activity. Based on gel filtration, the Mr value of potato tuber PFP is 265,000. This suggests that the enzyme is a heterotetramer composed of two polypeptides with Mr values of 65,000 and 60,000. In the presence of pyrophosphate, potato PFP dissociates into a 130,000 dimer.     

Synthesis, transport and processing of cathepsin C in Morris hepatoma 7777 cells and rat hepatocytes

The synthesis, transport and processing of cathepsin C was studied in Morris hepatoma 7777 cells by metabolic labelling, immunoprecipitation and characterization of labelled polypeptides by gel electrophoresis and fluorography. The largest detectable precursor of cathepsin C was a polypeptide of Mr = 92 500. Even 3 min after synthesis this precursor was accompanied by four polypeptides with Mr values ranging from 63 000 to 54 000, indicating cleavage of the precursors within the endoplasmic reticulum. The early forms of cathepsin C were associated with low-buoyant-density organelles containing the markers of endoplasmic reticulum and Golgi complex. About 30% of these early forms were secreted within 3 h after synthesis. The remaining 70% were transferred into dense lysosomes and processed between 2 and 3 h after synthesis to a mixture of the least five major and nine minor polypeptides with Mr values ranging from 73 000 to 12 000. These forms remained stable for at least 3 days. In freshly isolated hepatocytes cathepsin C was processed to forms closely related to those found in the hepatoma cells. Cathepsin C was synthesized in Morris hepatoma 7777 cells as a glycoprotein with mannose-6-phosphate residues that mediated mannose-6-phosphate-specific receptor-dependent uptake in human skin fibroblasts. In contrast to hepatocytes, synthesis of mannose-6-phosphate receptors in Morris hepatoma 7777 cells was below the limit of detection. The hepatoma cells did not express at the cell surface these or other receptors mediating endocytosis of lysosomal enzymes. Further, processing and transport of newly synthesized cathepsin C was largely resistant to NH4Cl. Apparently, cathepsin C is transferred in Morris hepatoma 7777 cells by a mechanism independent of mannose-6-phosphate-specific receptors.     

The lithium-chloride-soluble cell-wall layers of Chlamydomonas reinhardii contain several immunologically related glycoproteins

Cell-wall glycoproteins of the unicellular green alga Chlamydomonas reinhardii have been purified from LiCl extracts of intact cells by gel exclusion chromatography and preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Antibodies were raised against several polypeptide components isolated from the LiCl extracts. All these antibodies specifically reacted with the cell surface of formaldehyde-fixed cells. They showed cross-reactivity with the different antigens and were also reactive against some other polypeptides present in the LiCl extracts of intact wild-type cells as shown by double-diffusion assays and immunoblot analyses. These antigens were largely missing in LiCl extracts from the cell-wall-deficient mutant CW-15. The pattern of immunologically related cell-wall polypeptides of C. reinhardii varied during the vegetative cell cycle and was found to be also dependent on the growth conditions. Dot-immunobinding assays on chemically modified cell-wall glycoproteins demonstrated differences between the various antibodies with respect to their specificities. Differences were observed especially with respect to their reactivities against chemically deglycosylated cell-wall polypeptides. Chemical deglycosylation generally reduced the binding of the different antibodies indicating that all these antibodies recognize carbohydrate side chains. Only two of these antibody preparations, raised against cell-wall glycoproteins of relative molecular mass 35 and 150 kilodaltons, were found to be strongly reactive against deglycosylated cell-wall polypeptides. When these antibodies were saturated with cell-wall-derived glycopeptides in order to abolish the binding to carbohydrate side chains, they still recognized the same cell-wall polypeptides as did the untreated antibodies. These findings indicate that the cross-reactivity of the different cell-wall polypeptides with the antibodies is not exclusively the consequence of similar glycosylation patterns but is also the result of the presence of similar structures within the non-glycosylated stretches of the polypeptide backbones. Cell walls isolated from growing tobacco pollen tubes contained a single polypeptide component which showed crossreactivity with the antibodies to the cell-wall glycoproteins of C. reinhardii.Abbreviations BSA bovine serum albumin - IgG immunoglobulin G - kDa kilodalton - M_r relative molecular mass - PBS phosphate-buffered saline - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol     

Isolation of a novel integrin receptor mediating Arg-Gly-Asp-directed cell adhesion to fibronectin and type I collagen from human neuroblastoma cells. Association of a novel beta 1-related subunit with alpha v

We report the isolation from two human neuroblastoma cell lines of an Arg-Gly-Asp-dependent integrin complex capable of binding to vitronectin, fibronectin, and type I collagen. The two neuroblastoma cell lines, SK-N-SH and IMR-32, exhibit specific attachment to fibronectin and type I collagen. SK-N-SH cells exhibit a much stronger attachment to vitronectin than the IMR-32 cells, which attach poorly to this substrate. Affinity chromatography of octylglucoside extracts of 125I surface-labeled cells on GRGDSPK-Sepharose columns resulted in the specific binding and elution with GRGDSP of three radiolabeled polypeptides with relative molecular masses of 135, 115, and 90 kD when analyzed by SDS-PAGE under nonreducing conditions. In the SK-N-SH cells the 135- and 90-kD polypeptides were more abundant whereas in the IMR-32 cells the 135- and 115-kD polypeptides were more highly expressed. Liposomes prepared from fractions containing all three polypeptides bound to vitronectin, fibronectin, and type I collagen, whereas liposomes prepared from the 135- and 115-kD polypeptides bound only to fibronectin and type I collagen. Polyclonal antibodies against the alpha/beta complexes of both the vitronectin receptor and the fibronectin receptor immunoprecipitated all three polypeptides. A monoclonal antibody against beta 1 immunoprecipitated only the 135- and the 115-kD polypeptides, whereas a monoclonal antibody against beta 3 subunit immunoprecipitated the 135- and 90-kD polypeptides. Although, the 115-kD polypeptide could be recognized by an anti-beta 1 antibody, a comparison of peptide maps generated by V8 protease digestion of the 115-kD polypeptide and beta 1 subunit immunoprecipitated from GRGDSPK-Sepharose flow-through material indicated that these two polypeptides are distinct. Depletion of the 90-kD polypeptide with an anti-beta 3 monoclonal antibody did not effect the ability of the 115- and 135-kD polypeptides to bind to GRGDSPK-Sepharose. These data indicate that the SK-N-SH and IMR-32 neuroblastoma cells express a novel "beta 1-like" integrin subunit that can associate with alpha v and can bind to RGD. We propose to name this beta 1-like subunit beta n. The data reported here thus demonstrate that in these two cell lines alpha v associates with two beta subunits, beta n and beta 3, forming two heterodimers. The alpha v beta n complex mediates binding to fibronectin and type I collagen, whereas the alpha v beta 3 complex mediates binding to vitronectin.     

Storage protein precursor polypeptides in cotyledons of Pisum sativum L. Identification of, and isolation of a cDNA clone for, an 80000-Mr legumin-related polypeptide

An 80 000-Mr polypeptide, which bound to anti-legumin IgG, was detected among labelled polypeptides from cotyledons at late stages of development. When poly(A)-containing RNA from similar cotyledons was translated in a cell-free protein-synthesizing system, an 80 000-Mr polypeptide was also detected. Immunoprecipitation of translation products with anti-legumin IgG showed that, in addition to the major legumin precursor polypeptides of Mr approximately 60 000, the 80 000-Mr polypeptide was specifically immunoprecipitated. A cDNA clone, pCD32, was found to select an RNA coding for an 80 000-Mr polypeptide in hybrid-selection experiments. Additional minor polypeptides of Mr 63 000 and 65 000 were present in translation products of RNA selected by pCD32; all three polypeptides were immunoprecipitated by anti-legumin IgG. Thermal elution of RNAs bound to pCD32 showed that the affinity of pCD32 to the RNA coding for the 80 000-Mr polypeptide was greater than to the RNAs coding for the 63 000-Mr and 65 000-Mr polypeptides. In similar hybrid-selection experiments, another cDNA clone, pCD40, selected RNAs coding predominantly for polypeptides of Mr 63 000 and 65 000. A minor polypeptide of Mr 80 000 was also detected among these products; again all three polypeptides were immunoprecipitated by anti-legumin IgG. Peptide mapping revealed close similarities between the 80000-Mr polypeptide and the 63 000-Mr/65 000-Mr polypeptides obtained by translation of RNAs selected by pCD32. There were similarities also between maps obtained from translation products of RNA selected by pCD32 and those obtained from anti-legumin IgG immunoprecipitates of total translation products of poly(A)-containing RNA.     

A rapid method purifies a glycoprotein of Mr 145,000 as the LDL receptor of Trypanosoma brucei brucei

The trypanosome LDL receptor has been isolated from bloodstream form and cultured insect-stage trypanosomes as a protein of Mr 145,000, using a rapid purification procedure in the presence of a cocktail of protease inhibitors, whereas previously a polypeptide of Mr 86,000 was purified as the LDL receptor. Both the 145,000 and the 86,000 polypeptides are glycosylated and recognized by a monospecific antibody raised against the 86,000 species. This antibody inhibits LDL binding to the intact trypanosomes, to the isolated 145,000 receptor and to the 86,000 species. Hence, the previously isolated 86,000 polypeptide is a degradation product probably representing the cleaved-off ectodomain of the trypanosome LDL receptor.     

The Mr 93,000 polypeptide of the postsynaptic glycine receptor complex is a peripheral membrane protein

The glycine receptor of mammalian spinal cord is an oligomeric membrane protein that, after affinity purification on aminostrychnine-agarose or immobilized antibody, contains three polypeptides of Mr 48,000, 58,000, and 93,000. Here, the association and the properties of the polypeptides of the rat glycine receptor were investigated. Upon phase partitioning in the nonionic detergent Triton X-114, the three receptor polypeptides behaved as a hydrophilic protein complex exhibiting phospholipid binding. Sucrose gradient centrifugation or gel filtration in the presence of dithiothreitol and Triton X-100 separated the Mr 93,000 polypeptide from the Mr 48,000 and 58,000 polypeptides, which harbor the antagonist binding site of the glycine receptor. Alkaline or dimethylmaleic acid anhydride treatment of crude synaptic membrane fractions resulted in extraction of the Mr 93,000 polypeptide. Lectin binding was observed for the Mr 48,000 and 58,000 glycine receptor subunits but not the Mr 93,000 polypeptide. These results indicate that the Mr 93,000 polypeptide is a peripheral membrane protein that is located at the cytoplasmic face of the postsynaptic glycine receptor complex.     

Differences in expression of a variant actin between low and high metastatic B16 melanoma

The polypeptides of mouse B16 melanoma lines of defined metastatic potential have been analyzed by two-dimensional electrophoresis. Parent B16 melanoma and two independently isolated B16-F1 lines, which are low metastatic, exhibited a new polypeptide, Ax (pI 5.2; Mr = 43,000), comprising approximately 30% of the total actin, in addition to normal beta- and gamma-actin. The Ax is present in the Triton-insoluble fraction (cytoskeleton and nuclear matrix) as well as in the Triton-soluble fraction at a constant ratio of about 0.5 to beta- plus gamma-actin. The Ax polypeptide has been identified as a variant form of actin by immunostaining with anti-actin antibody and by a comparison of its tryptic patterns with those produced by beta- and gamma-actin polypeptides; the Ax is also identified as a component of microfilaments. On the other hand, the Ax polypeptide disappears or its expression is very low in high metastatic lines, two independently isolated B16-F10s and B16-BL6. By in vitro translation, we have identified the mRNA species that code for Ax in B16-F1, but not in B16-F10.     

Differentiation of dicyclohexylcarbodiimide reactive sites of the ATPase complex bovine heart mitochondria

1. In isolated bovine heart mitochondria, the 14C-labelled dicyclohexylcarbodiimide (DCCD) induced inhibition of the ATPase activity is accompanied by labelling of three polypeptides of Mx 9000, 16 000 and 33 000. Of these, only the 9000 polypeptide reacts with [14C]DCCD proportionally to the inhibitory effect, being saturated when the enzyme is maximally inhibited. 2. The 9000 and 16 000 polypeptides are extracted by neutral chloroform/methanol (2 : 1 v/v) while the 33 000 polypeptide remains in the non-extractable residue. No disaggregation of the polypeptides takes place during the extraction. 3. In the ATPase complex immunoprecipitated with antibody against F1, the 9000 and 16 000 polypeptides are present, but the 33 000 polypeptide is absent. 4. The results obtained indicate that the 33 000 polypeptide is not a component of the ATPase complex. As far as F0 is concerned, two types of the binding sites for DCCD were demonstrated, corresponding to the 9000 and 16 000 polypeptides. Their existence is explained by a non-random arrangement among individual monomers of the DCCD-binding protein.     

Nicotine-stimulated proteins in mouse cells are distinct from heat-shock proteins.

Treatment of mouse tissue-culture cells with nicotine concentrations of 1 mM or less had no significant effects on cell viability, morphology or protein synthesis, but higher concentrations resulted in both altered cell morphology (rounding and vacuolization) and alterations in [3H]leucine-labelled protein profiles on sodium dodecyl sulphate/polyacrylamide gels. The synthesis of a Mr-70 000 protein was increased more than 2-fold relative to that of other major cellular proteins in 3T3 and L929 cells treated with 5 mM-nicotine and in B16 cells treated with 10 mM-nicotine, and this protein appeared to be a soluble cytoplasmic polypeptide. The radiolabelling of several additional polypeptides (Mr 62 000 in 3T3 cells, and Mr 45 000 and 38 000 in B16 cells) was also stimulated by nicotine. The nicotine-enhanced Mr-70 000 protein was distinct, however, from a major cell stress/heat-shock protein whose synthesis was stimulated after incubation of cells at 43.5 degrees C for 20 min.     

Characterization of a Mr = 56,000 polypeptide associated with 10S DNA polymerase alpha purified from calf thymus using monoclonal antibody.

Existence of a Mr = 56,000 polypeptide associated with 10S DNA polymerase alpha was shown by production of a monoclonal anti-calf thymus 10S DNA polymerase alpha antibody secreted from a hybridoma line named 3H1. The antibody bound three polypeptides with Mr = 180,000, 56,000 and 32,000 in hydroxylapatite fraction of 10S DNA polymerase alpha by immunoblot. The antibody co-precipitated the polypeptides with the large polypeptide (Mr = 150,000-140,000) of 10S DNA polymerase alpha with the aid of second antibody. Among three polypeptides, the Mr = 56,000 polypeptide was co-purified with DNA polymerase alpha through DNA-cellulose chromatography and repeated sucrose rate-zonal centrifugations. The Mr = 56,000 polypeptide was still associated with 10S DNA polymerase alpha after second sucrose rate-zonal centrifugation, but the amount of it was reduced. The polypeptide was banded at pH 7.2-8.0 and displayed microheterogeneity in respect of isoelectric point by isoelectrofocusing with 7 M urea, and showed weak DNA-binding property after blotting onto a nitrocellulose. The antibody against the polypeptide precipitated DNA polymerase alpha from human, rat, and mouse, and Mr = 56,000 and 32,000 polypeptides were detected in these DNA polymerase alpha fractions by immunoblot. These results suggest that the polypeptide with Mr = 56,000 may take part in the DNA polymerase reaction.