Expression and Electrophysiological Function of Actin in Chick Cerebellar Neurons

Among several monoclonal antibodies obtained by immunizing Balb/c mice with cerebellar synaptic membrane fractions from E20 chick embryos, the antibody, named M35, suppressed Ca-spikes in immature cultured chick cerebellar neurons. M35 immunoprecipitated 43kDa protein from a ¹²⁵I-labeled embryonic crude cerebellar membrane fraction. Immunohistochemically, the M35 antigen was expressed most intensively in Purkinje cells, but its expression was limited to highly motile structures at developmental neuronal remodeling. Electrophysiologically, M35 facilitated current responses to AMPA and inhibited the responses to GABA in cultured cerebellar Purkinje neurons. The several peptides derived from the affinity-purified 43kDa protein were found to have homologous amino acid sequences to non-muscle actins. These results suggest that the antigen recognized by M35 may play an essential role probably as membrane ion channels modulating synaptic functions in not only the development and growth but also the neuronal activity of chick cerebellar Purkinje cells.     

Purification and characterization of the dihydropyridine-sensitive voltage-dependent calcium channel from cardiac tissue

The dihydropyridine-sensitive voltage-dependent Ca2+ channel from cardiac tissue was purified 900-fold using DEAE-Sephadex A-25, concanavalin A-Sepharose, and wheat germ agglutinin-Sepharose. The purified preparation was highly enriched in a peptide of 140,000 daltons when electrophoresed on sodium dodecyl sulfate gels in the presence of 2-mercaptoethanol, or 170,000 when electrophoresed in the presence of iodoacetamide. Polyclonal antibodies raised against the purified subunits of the rabbit skeletal muscle Ca2+ channel recognized the 170-kDa protein in preparations electrophoresed under nonreducing conditions, and the large peptide of 140 kDa and smaller peptides of 29-32 kDa in preparations analyzed under reducing conditions. Monoclonal antibodies, which were raised against the native Ca2+ channel from skeletal muscle, immunoprecipitated [3H]PN 200-110 binding activity from solubilized cardiac membranes and immunoprecipitated 125I-labeled peptides (from the purified cardiac Ca2+ channel preparation) which migrated as a single species of 170 kDa under nonreducing conditions, or as 140, 32, and 29 kDa under reducing conditions. The results show that the purified cardiac Ca2+ channel, like that previously purified from skeletal muscle, consists of a major component of 170 kDa which is comprised of a 140-kDa peptide linked by disulfide bonds to smaller peptides of 32-29 kDa. Peptide maps of the 140-kDa peptide purified from cardiac and skeletal muscle preparations were strikingly similar, suggesting a high degree of homology in their primary sequence.     

Peptide map analysis of normal plasma and platelet factor VIII antigen

Factor VIII antigen from platelet intracellular granules was immunoprecipitated using a monospecific rabbit antibody to normal plasma factor VIII antigen. The factor VIII antigen in the immunoprecipitate was isolated on sodium dodecyl sulfate polyacrylamide gels, radiolabeled with ¹²⁵I, trypsinized, and subjected to peptide mapping using two dimensional high voltage electrophoresis and thin layer chromatography. The platelet protein was compared to purified plasma factor VIII antigen. The two dimensional tryptic ¹²⁵I peptide map of platelet granule factor VIII antigen was similar but not identical to the plasma factor VIII antigen peptide map. The platelet and plasma proteins shared approximately 34 radioactive peptide spots. Seven plasma factor VIII antigen peptides were not detected in platelet factor VIII antigen. The reason for the structural differences of plasma and platelet granule factor VIII antigen are unknown. The possibility is raised that proteolysis has altered the platelet protein in vitro. It is also possible that factor VIII antigen synthesized by megakaryocytes differs from the plasma protein.     

Immunoprecipitation of human adrenal microsomal antigen

Human adrenal microsomes have been labelled with 125I and immunoprecipitated with sera from patients with Addison's disease. The immunoprecipitates were then analysed by SDS-PAGE and autoradiography. 13 of the 23 sera from the Addison patients studied contained antibodies which reacted with a 55 kDa adrenal microsomal protein. The same 13 sera were also positive for adrenal antibodies as judged by immunofluorescence. The 55 kDa protein was not immunoprecipitated from placenta or thyroid microsomes by Addison sera. Furthermore, patients with Graves' disease or rheumatoid arthritis did not immunoprecipitate the 55 kDa protein from adrenal microsomes. Our studies suggest therefore that Addison sera contain antibodies to a 55 kDa adrenal specific protein which may well be the antigen observed on immunofluorescence.     

Characterization of aminopeptidase N from Torpedo marmorata kidney

Summary— A major antigen of the brush border membrane of Torpedo marmorata kidney was identified and purified by immunoprecipitation. The sequence of its 18 N terminal amino acids was determined and found to be very similar to that of mammalian aminopeptidase N (EC 3.4.11.2). Indeed aminopeptidase N activity was efficiently immunoprecipitated by monoclonal antibody 180K1. The purified antigen gives a broad band at 180 kDa after SDS-gel electrophoresis, which, after treatment by endoglycosidase F, is converted to a thinner band at 140 kDa. This antigen is therefore heavily glycosylated. Depending on solubilization conditions, both the antigen and peptidase activity were recovered either as a broad peak with a sedimentation coefficient of 18S (2% CHAPS) or as a single peak of 7.8S (1% CHAPS plus 0.2 % C₁₂E₉), showing that Torpedo aminopeptidase N behaves as an oligomer stabilized by hydrophobic interactions, easily converted into a 160 kDa monomer. The antigen is highly concentrated in the apical membrane of proximal tubule epithelial cells (600 gold particles/μm² of brush border membrane) whereas no labeling could be detected in other cell types or in other membranes of the same cells (basolatéral membranes, vacuoles or vesicles). Monoclonal antibodies prepared here will be useful tools for further functional and structural studies of Torpedo kidney aminopeptidase N.     

Immunoprecipitation of some forms of simian virus 40 large-T antigen by antibodies to synthetic peptides.

Antibodies were raised against six synthetic peptides corresponding to overlapping amino acid sequences (106 through 145) from a putative DNA binding domain in simian virus 40 (SV40) large-T antigens. All six antipeptide sera immunoprecipitated large-T from crude extracts of SV40-transformed cells, but the efficiency varied widely; in general, antibodies to the longer peptides produced the strongest anti-large-T activity. Antisera were purified by immunoaffinity chromatography on immobilized peptide. The purified antisera recognized only some forms of large-T; full-sized large-T from transformed cells, super-T from SV3T3 C120 cells, and 70,000-dalton T-antigen from Taq-BamHI cells were immunoprecipitated, whereas large-T from productively infected cells reacted irreproducibly, and the full-sized protein, synthesized in vitro or eluted from sodium dodecyl sulfate-containing gels, and the 33,000- and 22,000-dalton truncated large-Ts from Swiss SV3T3 and MES2006 cells, respectively, were not immunoprecipitated. This pattern of reactivity was explained when extracts were fractionated by sucrose density centrifugation, and it was found that only rapidly sedimenting forms of large-T were immunoprecipitated by the antipeptide sera; that is, large-T complexed with nonviral T antigen was detected, whereas lighter forms were not detected. Cascade immunoprecipitations did not support the view that this result was caused by the low affinity of the peptide antisera for large-T, and Western blotting experiments confirmed that the peptide antisera react directly with immobilized, monomeric large-T but not with nonviral T antigen. Immunoprecipitation assays to detect large-T:nonviral T antigen complexes bound specifically to fragments of SV40 DNA showed that under conditions of apparent antibody excess, DNA still bound to the complex.     

Gastric parietal cell antigens of 60-90, 92, and 100-120 kDa associated with autoimmune gastritis and pernicious anemia. Role of N-glycans in the structure and antigenicity of the 60-90-kDa component

Thirty-four human sera containing parietal cell autoantibodies (PCA) specifically immunoprecipitated two antigens, with apparent molecular masses of 60-90 kDa and 100-120 kDa under nonreducing conditions and 60-90 kDa and 120-150 kDa under reducing conditions, from porcine gastric membrane extracts. A third antigen of 92 kDa was only observed in immunoprecipitates analyzed under reducing conditions. By immunoblotting, 24 of the 34 PCA-positive sera reacted with only the 60-90-kDa antigen, three reacted with a broad 60-120-kDa smear, one reacted only with a 92-kDa antigen and six did not react. Reactivity with the 60-90-kDa antigen was observed with gastric membranes from dog, pig, rat, and rabbit. Twenty PCA-negative sera did not react with these components by immunoprecipitation or immunoblotting. PCA reactivity with the 60-90-kDa antigen was abolished when the gastric membranes were (a) digested with Pronase, (b) reduced with 100 mM dithiothreitol, (c) treated with sodium periodate, or (d) digested with N-glycanase. The 60-90-kDa and 100-120-kDa components were insensitive to neuraminidase treatment. N-glycanase digestion of 125I-labeled antigens purified by immunoprecipitation and preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis collapsed the 60-90-kDa antigen to a sharp 34-kDa band; the 100-120-kDa component was unaffected. These observations suggest that (i) parietal cell antigens comprise three components of 60-90, 92, and 100-120 kDa; (ii) the epitopes differ in conformational sensitivity; (iii) the 60-90-kDa antigen is a conserved molecule comprising a 34-kDa core protein extensively glycosylated with N-linked oligosaccharides; (iv) sialic acid residues are not present in the 60-90- and 100-120-kDa molecules, and (v) the carbohydrate and protein moieties of the 60-90-kDa molecule are required for antibody binding.     

Characterization of a monoclonal antibody enhancing porcine natural killer cell activity (PNK-E)

A monoclonal antibody, termed PNK-E, that functionally enhances porcine natural killer (NK) cell activity but not antibody-dependent cellular cytotoxicity (ADCC) is investigated in this report. When PNK-E and K562 target cells were simultaneously added to effector cells, killing of target cells could be detected as early as 30 min, and a dramatic enhancement of killing activity was observed in short term 51Cr-release assays. When a panel of five NK-sensitive targets were tested, PNK-E enhanced the killing of K562, MOLT-4, and U937 cells, but not the killing of CEM and YAC-1. F(ab)'2 fragments of PNK-E did not enhance NK activity, indicating a requirement for the Fc portion of PNK-E to elicit enhancement of NK. Immunofluorescence analysis shows that PNK-E antigen is expressed on approximately 15% of peripheral blood lymphocytes with a relatively dull fluorescence staining pattern. PNK-E-positive sorted cells were enriched for large granular lymphocytes (LGL) and contained all detectable NK activity as compared to the PNK-E-negative sorted cells. When analyzed by polyacrylamide gel electrophoresis, PNK-E antibody immunoprecipitated a protein from 125I-labeled peripheral blood lymphocyte (PBL) cell lysates that resolved as a single band of approximately 205 kDa under nonreducing conditions and as two bands of approximately 50 kDa and 47 kDa under reducing conditions. The present data demonstrate a functional association between PNK-E antigen and NK cell activation.     

Herpes Simplex Virus 2 (HSV-2) Infected Cell Proteins Are among the Most Dominant Antigens of a Live-Attenuated HSV-2 Vaccine

Virion glycoproteins such as glycoprotein D (gD) are believed to be the dominant antigens of herpes simplex virus 2 (HSV-2). We have observed that mice immunized with a live HSV-2 ICP0^- mutant virus, HSV-2 0ΔNLS, are 10 to 100 times better protected against genital herpes than mice immunized with a HSV-2 gD subunit vaccine (PLoS ONE 6:e17748). In light of these results, we sought to determine which viral proteins were the dominant antibody-generators (antigens) of the live HSV-2 0ΔNLS vaccine. Western blot analyses indicated the live HSV-2 0ΔNLS vaccine elicited an IgG antibody response against 9 or more viral proteins. Many antibodies were directed against infected-cell proteins of >100 kDa in size, and only 10 ± 5% of antibodies were directed against gD. Immunoprecipitation (IP) of total HSV-2 antigen with 0ΔNLS antiserum pulled down 19 viral proteins. Mass spectrometry suggested 44% of immunoprecipitated viral peptides were derived from two HSV-2 infected cells proteins, RR-1 and ICP8, whereas only 14% of immunoprecipitated peptides were derived from HSV-2’s thirteen glycoproteins. Collectively, the results suggest the immune response to the live HSV-2 0ΔNLS vaccine includes antibodies specific for infected cell proteins, capsid proteins, tegument proteins, and glycoproteins. This increased breadth of antibody-generating proteins may contribute to the live HSV-2 vaccine’s capacity to elicit superior protection against genital herpes relative to a gD subunit vaccine.     

Structural characterization of the dihydropyridine receptor-linked calcium channel from porcine heart.

Ca(2+)-channel was purified 230-fold from digitonin extracts of the porcine cardiac sarcolemmal membranes by means of a four-step procedure. Two antibodies, a site-directed antibody against the sequence 1691-1707 of the rabbit cardiac alpha 1 subunit (anti-CCP5) and a monoclonal antibody directed to rabbit skeletal muscle alpha 2 delta subunit-complex (MCC-1), effectively immunoprecipitated the 125I-labeled cardiac Ca(2+)-channel complex in 0.2% digitonin. SDS-PAGE analysis of the immunoprecipitates under reducing conditions revealed that the cardiac channel is mainly composed of two large polypeptides of 190 and 150 kDa, and five smaller polypeptides of 60, 55, 35, 30, and 25 kDa. An additional polypeptide of either 79 or 55 kDa is crosslinked with the 190 kDa component to form 250-270 kDa (approximately 270 kDa) to the extent of 15-20% through disulfide bond(s). The 190 kDa component (alpha 1) is responsible for photoaffinity labeling with [3H]diazepine, since minor photolabeled approximately 270 kDa was converged to the major labeled 190 kDa component when electrophoresed under reducing conditions. The 150 kDa component (alpha 2) was derived by reduction of disulfide bonds from another 190 kDa component of glycopolypeptide which was separated from the channel complex in 1% Triton X-100 and capable of binding to WGA-Sepharose. The four smaller components of 60, 35, 30, and 25 kDa were not covalently associated with the large components through disulfide bonds, whereas the 55 kDa polypeptide was suggested to be a mixture of two kinds of peptides with respect to the disulfide bond: one was crosslinked with alpha 1 through disulfide linkage and the other was not covalently associated with any other component.(ABSTRACT TRUNCATED AT 250 WORDS)     

Schistosoma mansoni: reactivity with infected human sera and monoclonal antibody characterization of a glycoprotein in different developmental stages

Cercarial glycoproteins of Schistosoma mansoni were purified by concanavalin A affinity chromatography. The purified fraction consisted of at least 15 polypeptides when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Sera of infected humans specifically immunoprecipitated all of these polypeptides. These purified glycoproteins were used as antigen for preparing monoclonal antibodies. One of these monoclonal antibodies immunoprecipitated cercarial polypeptides that were identical to polypeptides immunoprecipitated with sera of infected humans as analyzed by two-dimensional gel electrophoresis. Direct binding assays with ¹²⁵I-labeled monoclonal antibody showed that proteins sharing antigenic determinants recognized by this monoclonal antibody were present not only in cercariae (the source of the immunogen) but also in adult male and female worms and in eggs. The protein molecules expressing these antigenic determinants were glycosylated in each of the developmental stages of the larvae, but differed with respect to molecular weight. These findings indicate a role for this monoclonal antibody in serodiagnosis and immunoprophylaxis.     

Chemical crosslinking of Plasmodium falciparum glycoprotein, Pf200 (190-205 kDa), to the S-antigen at the merozoite surface

Merozoites were isolated from Plasmodium falciparum cultures labeled with [3H]mannose and [35S]methionine and treated with a cleavable homobifunctional crosslinker, dithiobis(succinimidyl) propionate. The crosslinked complexes were immunoprecipitated with Mab.5B1 directed against the major merozoite surface glycoprotein. Pf200 (MW 190-205), and reduced with dithiothreitol. Crosslinked immunocomplexes did not contain the second major merozoite surface glycoprotein, Pf50 (MW 45-55 kDa), or other major [35S]methionine-labeled proteins, except for a weakly labeled protein of 150 kDa. Crosslinked complexes immunoprecipitated with Mab.5B1 and then reduced with DTT were immunoblotted with antibody directed against three soluble P. falciparum antigens, a serine-rich antigen known as Pf126 or SERA, the S-antigen, and GBP-130. The 150-kDa S-antigen was readily detected in crosslinked immunocomplexes with Pf200. The SERA antigen, although crosslinked under these conditions, was not detected in association with Pf200 nor was GBP-130.     

Molecular characterization of 1,4-dihydropyridine-sensitive calcium channels of chick heart and skeletal muscle

A monoclonal antibody designated as MAC-L1 immunoprecipitated [3H]PN200-110-labeled calcium channels of chick cardiac and skeletal muscle. On specific immunoprecipitation of 125I-labeled proteins, two large polypeptides (Mr 197,000 and 139,000 for heart, and 172,000 and 135,000 for skeletal muscle, under reducing conditions) were identified as the major components of these channels. Both polypeptides were found to exist together as a complex in 1% digitonin, but to become separated from each other in 1% Triton X-100. The 197 and 172 kDa peptides of cardiac and skeletal muscles, respectively, were photolabeled with [3H]azidopine. Under nonreducing conditions, the 139 kDa polypeptide of heart and the 135 kDa polypeptide of skeletal muscle took on larger molecular weights of 192,000 and 190,000, respectively. The 139 kDa but not the 197 kDa component of the heart was capable of binding to wheat germ agglutinin-Sepharose. Among the polypeptides specifically precipitated by MAC-L1, a 165 kDa peptide of skeletal muscle was phosphorylated by cAMP-dependent protein kinase. In contrast, a minor 99 kDa polypeptide, but not the major 197 kDa polypeptide, of the heart was phosphorylated by this kinase. These results suggest that the dihydropyridine-sensitive cardiac calcium channel has alpha 1 and alpha 2 subunits that are homologous but not identical to those of the skeletal muscle calcium channel.     

Characterization of an oviductal glycoprotein associated with the ovulated hamster oocyte

Hamster oviducts in culture incorporate [35S]-methionine into secretory proteins. One of these proteins is immunoprecipitated by a monoclonal antibody specific to an antigen found in oviductal oocytes but not in ovarian oocytes. This antigen, called oviductin, is progressively added to the oocyte during its transit through the oviduct. Oviductin migrates as a diffuse band with a molecular mass between 160 and 250 kDa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions. The electrophoretic behavior of this protein suggests the presence of polysaccharide side chains. Chemical deglycosylation causes a decrease in molecular mass and removes the antigenic determinant originally present on the glycoprotein. By using the radiation inactivation method, the molecular mass of the core protein has been found to be approximately 44 kDa. These results indicate that the oviduct is an actual site of synthesis of the oviductin. This glycoprotein contains a high proportion of sugar residues, which account for antigenic determinant recognized by the monoclonal antibody.     

Immunoreactivity of proteolytic degradation products of human prostatic acid phosphatase

Prostatic acid phosphatase (EC 3.1.3.2) was fragmented by trypsin and papain in the presence of sodium dodecyl sulphate. Trypsin-catalysed cleavage gave a peptide of 33 kDa which was subsequently trimmed to 18 kDa, 15 kDa and 13 kDa peptides. Even the small tryptic fragments reacted with antiphosphatase antibodies from rabbit serum and with monoclonal antibody mAb-14. Papain treatment under these conditions resulted in the release of a 40 kDa peptide which was gradually reduced to a 18 kDa peptide. The monoclonal antibody mAb-14 to the prostatic phosphatase was bound exclusively to the 50 kDa subunit of the phosphatase and to the 40 kDa peptide. The results suggest that the monoclonal antibody mAb-14 binding site represents a "local" sequence rather than a "conformational" one and does not require an extensive tertiary folding of the antigen molecule.     

Isolation and characterization of immunoglobulin M of Asian sea bass, <Emphasis Type="Italic">Lates calcarifer</Emphasis> and its level in serum

Asian sea bass immunoglobulin M (IgM) was purified from the sera of Lates calcarifer by affinity chromatography. Analysis of the purified IgM on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) under reducing and non-reducing conditions revealed that the sea bass IgM was a tetrameric protein with a molecular weight of 896 kDa; it contained an equimolar heavy chain and light chain with molecular weight of 83 kDa and 27 kDa respectively. However, besides the covalently linked tetrameric IgM, noncovalently linked tetramer dissociated into dimeric and monomeric forms also demonstrated by non-reducing SDS-PAGE. Carbohydrate moieties were found to be linked with both heavy and light chains. A polyclonal rabbit anti-Asian sea bass IgM was prepared which showed a specific reaction of anti-fish IgM antibody with IgM of sea bass. Sea bass IgM concentration was determined in the serum by indirect ELISA. The average IgM concentration in the sera of the healthy sea bass was 5.4±1.8 mg ml⁻¹; it amounted to 16.7% of the total serum protein.     

Stepwise phosphorylation of the NH2-terminal region of the simian virus 40 large T antigen

The simian virus 40 (SV40) large T antigen was immunoprecipitated from extracts of infected monkey cells and cleaved with trypsin under conditions of mild proteolysis. The digestion generated fragments from the NH2-terminal region of T antigen which were released from the immunoprecipitates. Pulse-chase experiments showed that most of the newly made T antigen (form A) generated an NH2-terminal fragment of 17 kDa in size, whereas most of the T antigen that had aged in the cell (form C) generated a fragment of 20 kDa. An intermediate form of T antigen (form B), which generated an 18.5- kDa NH2-terminal fragment, was produced in part from form A and was converted to form C during the chase. Phosphate-labeling experiments showed that form C was the species of T antigen that incorporated the most 32P radioactivity at the NH2-terminal region, although some label was also incorporated into forms A and B. In vitro dephosphorylation of gel-purified 18.5- and 20-kDa fragments labeled with [35S]methionine increased the electrophoretic mobility of the fragments to that of 17 kDa. This signified that phosphorylation of the NH2-terminal fragments was directly responsible for their aberrant behavior in acrylamide gels. Although peptide maps of the methionine-labeled tryptic peptides of the 17-, 18.5-, and 20-kDa fragments were very similar to one another, maps of the 32P-labeled tryptic Pronase E peptides of these fragments contained qualitative and quantitative differences. Analysis of the labeled phosphoamino acids of various peptides from these fragments indicated that the 20-kDa fragment was highly phosphorylated at Ser 123 and Thr 124, whereas the 17- and 18.5-kDa fragments were mostly unphosphorylated at these sites. These experiments indicated that T antigen is phosphorylated at the NH2-terminal region in a specific stepwise process and, therefore, that this post-translational modification of T antigen is tightly regulated.     

Tyrosine kinases in normal human blood cells. Platelet but not erythrocyte band 3 tyrosine kinase is p60c-src

The major tyrosine kinase from platelets was purified as a 51 kDa active enzyme which was shown to be a degradation product of the protooncogene product p60c-src. Immuno-depletion experiments using a monoclonal antibody recognizing p60c-src failed to remove band 3 phosphorylating activity from red blood cell membranes. The erythrocyte tyrosine kinase was not at all immunoprecipitated by this antibody under conditions where the platelet enzyme was immunoprecipitated.     

β-Endorphin and ACTH related peptides in primary cultures of rat anterior pituitary cells: evidence for different intracellular pools

Acid extracts of rat anterior pituitary cells and cell-derived culture media were shown to contain three forms of β-endorphin immunoreactive peptides, corresponding in molecular size to the prohormone pro-opiomelanocortin (POMC), β-lipotropin and 3.5 kDa β-endorphin, and essentially two forms of adrenocorticotropin (ACTH) immunoreactivity, representing a 20 kDa intermediate fragment and 4.5 kDa ACTH. Under basal conditions the intracellular peptides contained a high proportion of the bioactive forms of β-endorphin and ACTH whereas the extracellular peptides contained a higher proportion of the inactive precursors. When the cells were incubated for 3 h in the presence of 10⁻⁸ M CRF, the levels of intracellular β-endorphin and ACTH immunoreactivity were reduced by 15–30% and there was a 4–5-fold increase in the level of the secreted peptides; furthermore, unlike the peptides released under basal conditions, the peptides secreted under the influence of CRF contained much higher proportions of 4.5 kDa ACTH and 3.5 kDa β-endorphin, reflecting the intracellular patterns of these peptides. Similar results were obtained when secretion was stimulated by 10⁻⁷ M epinephrine, which produced a 2-fold increase in peptide release. In the presence of 10⁻⁶ M dexamethasone the basal secretion of ACTH and β-endorphin related peptides, and the intracellular levels of these peptides, remained unaltered. The results point to the existence of different intracellular compartments from which peptides at different states of maturation can be released selectively.β-EndorphinACTHPituitary cell cultureProcessingCRFEpinephrine     

The specific interaction of the Rous sarcoma virus transforming protein, pp60src, with two cellular proteins

Sera from rabbits bearing tumors induced by Rous sarcoma virus (RSV) were previously found to contain antibody to the RSV transforming protein, pp60^src. Two additional transformation-specific phosphoproteins from RSV-transformed avian cells are immunoprecipitated with these sera. These proteins, having molecular weights of 90,000 (pp90) and 50,000 (pp50), are not precipitated from uninfected or transformation-defective virus-infected cells and are not related to any RSV structural proteins. Neither pp50 nor pp90 shares any partial or complete proteolytic cleavage peptides with pp60^src, suggesting that pp90 and pp50 do not represent either a precursor or a cleavage product of pp60^src. Sedimentation analysis of RSV-transformed cell lysates on glycerol gradients revealed that the RSV pp60^src protein is present as two forms, one of which represents the majority (95%) of pp60^src and sediments as a monomer, 60,000 molecular weight protein and the other of which sediments with pp90 and pp50 as an apparent 200,000 molecular weight complex. Lysates from cells transformed by viruses containing a temperature-sensitive defect in the src gene contain a greater percentage of pp60^src associated with pp90 and pp50 under both permissive (35°C) and nonpermissive (41°C) conditions compared to wild-type virus-infected cell lysates. Phosphoserine and phosphotyrosine were found associated with pp60^src molecules that sedimented as a monomer, whereas pp60^src molecules that are complexed with pp90 and pp50 contain phosphoserine and greatly reduced amounts of phosphotyrosine. Only the monomer form of pp60^src is capable of phosphorylating IgG in the immune complex phosphotransferase reaction. Normal uninfected chicken cells contain a protein that shares identical partial proteolytic cleavage peptides with the pp90 protein immunoprecipitated from RSV-transformed cells. This pp90 protein is one of the major cytoplasmic proteins in uninfected cells. Antibody directed against pp90 also immunoprecipitates pp60^src and pp50 from lysates of RSV-transformed chicken cells.