Immunological identification of two adenovirus 2-induced early proteins possibly involved in cell transformation

Role of a putative tyrosine-O-sulfate receptor in the targeting and/or intracellular transport of tyrosine-sulfated proteins

By employing the affinity gel fraction technique, we have detected a 175 kDa tyrosine-O-sulfate (TyrS)-binding protein in sodium choleate extracts of the microsomal membrane fractions of bovine liver and pancreas, as well as canine liver and pancreas. Western blot analysis revealed the presence of the bovine liver TyrS-binding protein in complexes with tyrosine-sulfated proteins both in vivo and in vitro, suggesting the putative role of the former being the receptor for the latter. Using filter-grown Madin-Darby canine kidney (MDCK) cells as a model, it was demonstrated that the tyrosine-sulfated proteins synthesized were predominantly secreted into the apical medium. The results further indicate the production and differential polarized secretion of different sulfated forms of the two major secretory proteins produced by MDCK cells, fibronectin (FN) and an 80 kDa glycoprotein (gp 80), with their tyrosine-sulfated forms being predominantly secreted from the apical surface. Treatment of filter-grown MDCK cells with glycosylation inhibitors, swainsonine and 1-deoxymannojirimycin, appeared to enhance the apical secretion of tyrosine-sulfated FN and gp 80. A similar 175 kDa membrane-bound 'TyrS receptor', cross-reactive toward antiserum against the canine liver TyrS receptor, was shown to be present in MDCK cells. Pulse-chase experiments revealed its presence in complexes with newly synthesized FN and gp 80. A hypothetical model for TyrS residues serving as an apical targeting signal during the biosynthetic transport of tyrosine-sulfated proteins, as mediated by the TyrS receptor, in MDCK cells is proposed.

Hematin promotes complement alternative pathway-mediated deposition of C3 activation fragments on human erythrocytes: potential implications for the pathogenesis of anemia in malaria

Childhood malaria caused by Plasmodium falciparum is often characterized by severe anemia at low parasite burdens; the mechanism(s) responsible for this pathology remain to be defined. We have reported, based on clinical observations and in vitro models, that complement control proteins on erythrocytes such as CR1, the immune adherence receptor specific for C3b, may be reduced in childhood malaria, suggesting a possible role for complement in erythrocyte destruction. Intravascular lysis of iE by P. falciparum leads to release of erythrocyte breakdown products such as hemoglobin and hematin, which have inflammatory properties. In the present article, we demonstrate that in serum and in anticoagulated whole blood, moderate concentrations of hematin activate the alternative pathway of complement and promote deposition of C3 activation and breakdown products on erythrocytes. The degree of C3 fragment deposition is directly correlated with erythrocyte CR1 levels, and erythrocytes opsonized with large amounts of C3dg form rosettes with Raji cells, which express CR2, the C3dg receptor which is expressed on several types of B cells in the spleen. Thus, the reaction mediated by hematin promotes opsonization and possible clearance of the youngest (highest CR1) erythrocytes. A mAb specific for C3b, previously demonstrated to inhibit the alternative pathway of complement, completely blocks the C3 fragment deposition reaction. Use of this mAb in nonhuman primate models of malaria may provide insight into mechanisms of erythrocyte destruction and thus aid in the development of targeted therapies based on inhibiting the alternative pathway of complement.

The homeodomain protein CDP regulates mammary-specific gene transcription and tumorigenesis

The CCAAT-displacement protein (CDP) has been implicated in developmental and cell-type-specific regulation of many cellular and viral genes. We previously have shown that CDP represses mouse mammary tumor virus (MMTV) transcription in tissue culture cells. Since CDP-binding activity for the MMTV long terminal repeat declines during mammary development, we tested whether binding mutations could alter viral expression. Infection of mice with MMTV proviruses containing CDP binding site mutations elevated viral RNA levels in virgin mammary glands and shortened mammary tumor latency. To determine if CDP has direct effects on MMTV transcription rather than viral spread, virgin mammary glands of homozygous CDP-mutant mice lacking one of three Cut repeat DNA-binding domains (DeltaCR1) were examined by reverse transcription-PCR. RNA levels of endogenous MMTV as well as alpha-lactalbumin and whey acidic protein (WAP) were elevated. Heterozygous mice with a different CDP mutation that eliminated the entire C terminus and the homeodomain (DeltaC mice) showed increased levels of MMTV, beta-casein, WAP, and alpha-lactalbumin RNA in virgin mammary glands compared to those from wild-type animals. No differences in amounts of WDNM1, epsilon-casein, or glyceraldehyde-3-phosphate dehydrogenase RNA were observed between the undifferentiated mammary tissues from wild-type and mutant mice, indicating the specificity of this effect. These data show independent contributions of different CDP domains to negative regulation of differentiation-specific genes in the mammary gland.

Production of recombinant adeno-associated type 5 (rAAV5) vectors using recombinant herpes simplex viruses containing rep and cap

We developed a scaleable production system for adeno-associated virus type 5 (AAV5)-based vectors using a replication-defective recombinant herpes simplex type 1 virus (rHSV) containing the rep and cap genes of AAV5. Multiple rHSV isolates containing AAV5 rep and cap with normal or altered p5 promoter elements were constructed and tested in vector production. Compared with rAAV5 vector yields obtained by plasmid transfection, yields of rAAV5 using any of the rHSV isolates were low. Evidence suggests that the low vector yields are a consequence of the extensive and early cytopathology induced by the rHSV isolates. In addition, we found a correlation between the amount of Rep52 or Rep40 proteins and the amount of vector produced by each rHSV isolate, suggesting that packaging of vector DNA into virus particles is rate-limiting when using rHSV to generate rAAV5 vectors.

CDP is a repressor of mouse mammary tumor virus expression in the mammary gland

Mouse mammary tumor virus (MMTV) transcription is highest in the lactating mammary gland but is detectable in a variety of other tissues. Previous results have shown that MMTV expression is suppressed in lymphoid and other tissues through the binding of the homeodomain-containing repressor special AT-rich binding protein 1 to a negative regulatory element (NRE) in the MMTV long terminal repeat (LTR). Another homeoprotein repressor, CCAAT displacement protein (CDP), also binds to the MMTV NRE, but a role for CDP in MMTV transcriptional suppression has not yet been demonstrated. In this paper, we show that the level of CDP decreases during development of the mammary gland and that this decline in CDP level correlates with the known increase in MMTV expression observed during mammary gland differentiation. Moreover, CDP overexpression was able to suppress MMTV LTR-reporter gene activity up to 20-fold in transient-transfection assays of mouse mammary cells. To determine if this effect was due to direct binding of CDP to the promoter-proximal NRE, we performed DNase I protection assays to map two CDP-binding sites from +835 to +845 and +920 to +931 relative to the first base of the LTR. Mutations engineered into each of these sites decreased CDP binding to the proximal NRE, whereas a combination of these mutations further reduced binding. Subsequently, each of these mutations was introduced into the full-length MMTV LTR upstream of the luciferase reporter gene. Analysis of stable transfectants of LTR constructs showed that CDP binding site mutations in the proximal NRE elevated reporter gene expression two- to sixfold compared to wild-type LTR constructs. Thus, MMTV expression increases during mammary gland development, in part due to decreased CDP levels and CDP binding to the LTR. Together, these experiments provide the first evidence that CDP acts as a repressor of MMTV transcription in the mammary gland.

Dibutyryl cyclic AMP-induced process formation in astrocytes is associated with a decrease in tyrosine phosphorylation of focal adhesion kinase and paxillin

Focal adhesion kinase (FAK or pp125FAK) is a cytosolic protein tyrosine kinase which plays an important role in integrin-mediated signal transduction. Adhesion of cells to the substratum correlates with an increase in tyrosine phosphorylation of FAK as well as an associated protein, paxillin. In this report we show that the tyrosine phosphorylation of FAK and paxillin are decreased during dibutyryl cyclic AMP-induced (dB-cAMP) process formation in astrocytes. When astrocytes in suspension are treated with dB-cAMP, no alteration in morphology or tyrosine phosphorylation is observed, suggesting that both phenomena are linked and adhesion dependent. Furthermore, genistein, a tyrosine kinase inhibitor, can induce process formation in such cells, underscoring the significance of protein tyrosine kinases in maintaining the morphology of adherent cells. Finally, endothelin-1, a vasopeptide which is known to inhibit process formation in astrocytes, inhibited the tyrosine dephosphorylation of proteins associated with dB-cAMP treatment. These results suggest that the formation of asymmetric processes in astrocytes results from a coordinated set of alterations in the actin cytoskeleton as well as the adhesion of the cell to the substratum. Modification of the properties of such molecules is required for process formation and the dynamic modulation of astrocytic morphology in vitro and in vivo.

Process formation in astrocytes: modulation of cytoskeletal proteins

Studies on primary astrocytes cultured in vitro have shown that process formation involves changes in cytoskeletal proteins and release of tension on the substratum. Actin filament reorganization has previously been found to be the major cytoskeletal change occurring during process formation. These changes are relatively rapid with breakdown of the actin web and release of contacts occur within 15 min. of cyclic AMP treatment. The former is regulated by myosin light chain (MLC) and actin depolymerizing factor (ADF), with MLC involved in the initial release of contractile tension and ADF in both initial and longer term actin breakdown. Our results show that the dephosphorylation of MLC is due to the phosphorylation and inactivation of myosin light chain kinase (MLCK) in response to cyclic AMP. To further study the mechanisms underlying the process formation in astrocytes we used endothelin-1 (ET-1), a vasopeptide which has been shown to inhibit process formation in astrocytes and sodium fluoride which is a general phosphatase inhibitor. We observe an increase in phosphorylation of MLC on inhibition of process formation. To study the role of adhesion in process formation we used suspension cultures of astrocytes. Our results with the astrocytes in suspension suggest that the process formation in astrocytes is adhesion dependent and the changes in ADF and MLC occur only when there is process formation.

The matrix attachment region-binding protein SATB1 participates in negative regulation of tissue-specific gene expression

The nuclear matrix has been implicated in several cellular processes, including DNA replication, transcription, and RNA processing. In particular, transcriptional regulation is believed to be accomplished by binding of chromatin loops to the nuclear matrix and by the concentration of specific transcription factors near these matrix attachment regions (MARs). A number of MAR-binding proteins have been identified, but few have been directly linked to tissue-specific transcription. Recently, we have identified two cellular protein complexes (NBP and UBP) that bind to a region of the mouse mammary tumor virus (MMTV) long terminal repeat (LTR) previously shown to contain at least two negative regulatory elements (NREs) termed the promoter-proximal and promoter-distal NREs. These NREs are absent from MMTV strains that cause T-cell lymphomas instead of mammary carcinomas. We show here that NBP binds to a 22-bp sequence containing an imperfect inverted repeat in the promoter-proximal NRE. Previous data showed that a mutation (p924) within the inverted repeat elevated basal transcription from the MMTV promoter and destabilized the binding of NBP, but not UBP, to the proximal NRE. By using conventional and affinity methods to purify NBP from rat thymic nuclear extracts, we obtained a single major protein of 115 kDa that was identified by protease digestion and partial sequencing analysis as the nuclear matrix-binding protein special AT-rich sequence-binding protein 1 (SATB1). Antibody ablation, distamycin inhibition of binding, renaturation and competition experiments, and tissue distribution data all confirmed that the NBP complex contained SATB1. Similar types of experiments were used to show that the UBP complex contained the homeodomain protein Cux/CDP that binds the MAR of the intronic heavy-chain immunoglobulin enhancer. By using the p924 mutation within the MMTV LTR upstream of the chloramphenicol acetyltransferase gene, we generated two strains of transgenic mice that had a dramatic elevation of reporter gene expression in lymphoid tissues compared with reporter gene expression in mice expressing wild-type LTR constructs. Thus, the 924 mutation in the SATB1-binding site dramatically elevated MMTV transcription in lymphoid tissues. These results and the ability of the proximal NRE in the MMTV LTR to bind to the nuclear matrix clearly demonstrate the role of MAR-binding proteins in tissue-specific gene regulation and in MMTV-induced oncogenesis.

Identification of a putative tyrosine-O-sulphate (TyrS) receptor possibly functioning in the biosynthetic transport of tyrosine-sulphated proteins in Madin-Darby canine kidney cells

By employing an affinity-gel fractionation technique coupled to Western-blot analysis, we have identified a 175 kDa tyrosine-O-sulphate (TyrS)-binding protein present in Madin-Darby canine kidney (MDCK) cells. The binding of this TyrS-binding protein to TyrS covalently bonded to Sepharose gel was found to be pH-dependent, being strong from pH 8.0 down to pH 6.5 and increasingly weak at pH 6.0 and below. Results obtained from Triton X-114 temperature-induced phase separation and sodium carbonate buffer (pH 11) extraction experiments indicated that the TyrS-binding protein is an integral membrane protein. This 175 kDa TyrS-binding protein was found to be present in association with a major tyrosine-sulphated protein, the apically secreted 80 kDa glycoprotein (gp 80), in cell lysate prepared from MDCK cells maintained under normal growth conditions. When the cell lysate used was prepared from MDCK cells pretreated with 20 mM sodium chlorate, a metabolic sulphation inhibitor, the complex formed between the two proteins could no longer be detected, indicating that the binding of the TyrS-binding protein is through the TyrS residue(s) of gp 80. Both cell-surface biotinylation and cell-surface trypsinization studies demonstrated the predominantly, if not exclusively, intracellular location of the TyrS-binding protein. Furthermore, radioactive pulse-chase experiments revealed that the newly synthesized radiolabelled fibronectin and gp 80 were present in complexes with the TyrS-binding protein in MDCK cells pulse-labelled with [35S]methionine or [35S]sulphate. Exogenous [35S]methionine-labelled gp 80 added to the medium, on the other hand, was not found to be present in association with the TyrS-binding protein in MDCK cells over a 2-h time course. These results strongly suggested the identity of the 175 kDa TyrS-binding protein as a putative 'TyrS receptor', possibly functioning in the biosynthetic transport of tyrosine-sulphated proteins in MDCK cells.

Interaction of nascent preproparathyroid hormone molecules with microsomal membranes

To characterize the early steps in the interaction of nascent chains of preproparathyroid hormone (prepro-PTH) with the secretory apparatus, such truncated nascent chains still attached to ribosomes were tested for binding to microsomal membranes and cleavage by signal peptidase. Nascent chains of 114, 97, 88, 81, 70, and 59 residues were tested for their ability to bind tightly to membranes and to undergo signal sequence cleavage. Chains of 81 residues and longer bound tightly to the membranes and were cleaved by signal peptidase. The 88- and 81-residue precursors and their corresponding pro-proteins were less efficiently associated with the membranes than were the 114- and 97-residue precursors and their corresponding pro-proteins. The 70-residue chain bound to the membrane but was not cleaved. When this peptide was subsequently released from the ribosome with puromycin, it was cleaved by signal peptidase. The 59-residue chain bound only slightly to the microsomal membrane and was not cleaved by signal peptidase, even when the nascent peptide was released from the ribosome with puromycin. Thus the critical length for productive binding to microsomal membranes is between 59 and 70 residues; the length required for signal cleavage is between 70 and 81 residues.

Identification of complexes between the tyrosine-O-sulphate-binding protein and tyrosine-sulphated proteins in bovine liver membrane lysates

Rabbit antiserum against electrophoretically purified bovine liver tyrosine-O-sulphate (TyrS)-binding protein was prepared. Affinity-purified antibodies from the antiserum were found to be capable of immunoprecipitating the TyrS-binding protein from the sodium choleate extract of a bovine liver microsomal membrane fraction. Using purified specific antibodies as the probe, Western blot analysis for the presence of TyrS-binding protein/tyrosine-sulphated protein complexes in bovine liver membrane lysates was performed. It was found that the TyrS-binding protein co-precipitated with three tyrosine-sulphated proteins (fibronectin, fibrinogen and complement C4) immunoprecipitated by their respective antibodies. In contrast, for the two non-tyrosine-sulphated proteins (haptoglobin and transferrin) tested, co-precipitation of the TyrS-binding protein was not observed. On employing an affinity gel fractionation technique, it was shown that partially purified TyrS-binding protein exhibited binding affinity towards Sepharose gels covalently bonded to fibronectin or fibrinogen, but not towards Sepharose gels bonded to albumin or transferrin. These results indicate that the TyrS-binding protein formed complexes with tyrosine-sulphated proteins both in vivo and in vitro, and thus provide support for the putative role of the former being the receptor of the latter.

Identification of Ca2(+)-dependent cell adhesion molecules in Xenopus by the use of interspecies homology

Ca2(+)-dependent cell adhesion molecules (CAMs) are transmembrane glycoproteins structurally and functionally related in mammalian and avian species. This suggests that Ca2(+)-dependent CAMs consist of an evolutionary conserved gene family. Antibodies or cDNA probes specific either to the extracellular part or the cytoplasmic domain of uvomorulin were compared for their ability to detect corresponding molecules in Xenopus. Only antibodies directed against the evolutionary highly conserved cytoplasmic domain afforded a clear membrane staining on sections of Xenopus embryos or on cultured Xenopus epithelial cells. However, these antibodies recognized different polypeptides of 156, 140 and 128 kDa in immunoblots prepared from cell lysates of epithelial, neural, muscle and embryonic tissues. In concordance with the antibody analysis, signals in Northern hybridizations were only obtained when the cDNA probe encoding the cytoplasmic domain of uvomorulin was used. Here again, this cDNA probe revealed different mRNA species of 4.3, 4.1, 3.8 and 3.2 kb in the studied cell types. These results provide further direct evidence that the Ca2(+)-dependent CAMs are evolutionary conserved. The variety of polypeptides and transcripts observed in Xenopus indicates that several members of this gene family were detected by the use of probes specific to conserved sequences. More important, with this approach we also identified members of this gene family in the early stages of Xenopus development. Since these proteins were present in mature eggs but not in oocytes, we assume a maternal store of Ca2(+)-dependent CAM RNAs whose translation might be initiated during egg maturation.

The evolutionary conservation of DNA polymerase alpha

The evolutionary conservation of DNA polymerase alpha was assessed by immunological and molecular genetic approaches. Four anti-human KB cell DNA polymerase alpha monoclonal antibodies were tested for their ability to recognize a phylogenetically broad array of eukaryotic DNA polymerases. While the single non-neutralizing antibody used in this study recognizes higher mammalian (human, simian, canine, and bovine) polymerases only, three neutralizing antibodies exhibit greater, but variable, extents of cross-reactivity among vertebrate species. The most highly cross-reactive antibody recognizes a unique epitope on a 165-180 kDa catalytic polypeptide in cell lysates from several eukaryotic sources, as distant from man as the amphibians. Genomic Southern hybridization studies with the cDNA of the human DNA polymerase alpha catalytic polypeptide identify the existence of many consensus DNA sequences within the DNA polymerase genes of vertebrate, invertebrate, plant and unicellular organisms. These findings illustrate the differential evolutionary conservation of four unique epitopes on DNA polymerase alpha among vertebrates and the conservation of specific genetic sequences, presumably reflective of critical functional domains, in the DNA polymerase genes from a broad diversity of living forms.

Immunological characterization of proteins detected by phosphotyrosine antibodies in cells transformed by Rous sarcoma virus

Phosphotyrosine antibodies were used to identify tyrosine-phosphorylated proteins in Rous sarcoma virus (RSV)-transformed chicken embryo fibroblasts. A large number of tyrosine phosphoproteins were detected. A similar set of proteins was observed in RSV-transformed murine cells. An 85,000-dalton protein, however, was present in transformed avian cells but missing in transformed murine cells. Neither the 85,000-dalton protein nor any of the other tyrosine phosphoproteins appeared to be viral structural proteins. Use of RSV mutants encoding partially deleted src gene products enabled us to identify a 60,000-dalton cellular tyrosine phosphoprotein that comigrated with wild-type pp60v-src. With the exception of calpactin I, the major tyrosine phosphoproteins detected in immunoblots appeared to be different from several previously characterized substrates of pp60v-src with similar molecular masses (ezrin, vinculin, and the fibronectin receptor).

Elevated expression of pp60c-src alters a selective morphogenetic property of epithelial cells in vitro without a mitogenic effect

Madin-Darby canine kidney (MDCK) cells are highly differentiated and have retained the morphogenetic properties necessary to form polarized, multicellular epithelial structures (cysts) in vitro that resemble epithelial tissues in vivo. We introduced the c-src gene into MDCK cells to elevate the level of the plasma membrane-associated cellular tyrosine kinase, pp60c-src, to levels two- to ninefold higher than that expressed in parent MDCK cells. Our results revealed a highly discriminatory biological action of pp60c-src on the morphogenetic properties of MDCK cells. Elevated expression of pp60c-src conferred on MDCK cells the ability to undergo dramatic changes of cell shape that includes the formation of long cell processes (100 to 200 microns), never observed in control MDCK cells. The morphogenesis of multicellular epithelial cysts was altered by elevated levels of pp60c-src and led to predictable distortions of their three-dimensional architecture. However, these cells established morphologically normal cell polarity, formed adhesive epithelial cell-cell contacts indistinguishable from those of control MDCK cells, and exhibited neither focus-forming ability or anchorage-independent growth potential. Finally, we showed that MDCK cells expressing elevated levels of pp60c-src exhibit increased phosphorylation of a more limited number of phosphotyrosine-containing proteins than MDCK cells expressing pp60v-src. We suggest that a natural function of pp60c-src is to regulate the morphogenetic properties which determine the shape of differentiated cells and multicellular structures.

The same normal cell protein is phosphorylated after transformation by avian sarcoma viruses with unrelated transforming genes

The phosphorylation of a normal cellular protein of molecular weight 34,000 (34K) is enhanced in Rous sarcoma virus-transformed chicken embryo fibroblasts apparently as a direct consequence of the phosphotransferase activity of the Rous sarcoma virus-transforming protein pp60src. We have prepared anti-34K serum by using 34K purified from normal fibroblasts to confirm that the transformation-specific phosphorylation described previously occurs on a normal cellular protein and to further characterize the nature of the protein. In this communication, we also show that the phosphorylation of 34K is also increased in cells transformed by either Fujinami or PRCII sarcoma virus, two recently characterized avian sarcoma viruses whose transforming proteins, although distinct from pp60src, are also associated with phosphotransferase activity. Moreover, comparative fingerprinting of tryptic phosphopeptides shows that the major site of phosphorylation of 34K is the same in all three cases.

Elevated expression of pp60c-src alters a selective morphogenetic property of epithelial cells in vitro without a mitogenic effect

Madin-Darby canine kidney (MDCK) cells are highly differentiated and have retained the morphogenetic properties necessary to form polarized, multicellular epithelial structures (cysts) in vitro that resemble epithelial tissues in vivo. We introduced the c-src gene into MDCK cells to elevate the level of the plasma membrane-associated cellular tyrosine kinase, pp60c-src, to levels two- to ninefold higher than that expressed in parent MDCK cells. Our results revealed a highly discriminatory biological action of pp60c-src on the morphogenetic properties of MDCK cells. Elevated expression of pp60c-src conferred on MDCK cells the ability to undergo dramatic changes of cell shape that includes the formation of long cell processes (100 to 200 microns), never observed in control MDCK cells. The morphogenesis of multicellular epithelial cysts was altered by elevated levels of pp60c-src and led to predictable distortions of their three-dimensional architecture. However, these cells established morphologically normal cell polarity, formed adhesive epithelial cell-cell contacts indistinguishable from those of control MDCK cells, and exhibited neither focus-forming ability or anchorage-independent growth potential. Finally, we showed that MDCK cells expressing elevated levels of pp60c-src exhibit increased phosphorylation of a more limited number of phosphotyrosine-containing proteins than MDCK cells expressing pp60v-src. We suggest that a natural function of pp60c-src is to regulate the morphogenetic properties which determine the shape of differentiated cells and multicellular structures.

Missense mutations in the VP1 gene of simian virus 40 that compensate for defects caused by deletions in the viral agnogene

Simian virus 40 mutants lacking sequences in the late leader region are viable but produce smaller plaques than does wild-type virus. Within three passages at low multiplicities of infection, virus stocks of several such mutants accumulated variants that synthesized an altered form of the major virion protein, VP1, having a slightly faster mobility in sodium dodecyl sulfate-polyacrylamide gels than did the wild-type protein. Because these variants overgrew the original virus stocks, we consider them to be second-site revertants. By construction and characterization of a series of recombinants, the second-site mutations were shown to map to at least two different regions of the VP1 gene. Nucleotide sequence analysis indicated that single-amino-acid changes were responsible for the rapid mobility of VP1. When combined in cis with either a wild-type or mutant leader region, these VP1 mutations sped up by 10 to 20 h the time course of accumulation of infectious progeny but not of viral DNA or VP1. LP1, the protein encoded by the agnogene, was shown previously to be necessary for the efficient transport of the virion proteins to the nucleus or for their efficient assembly with viral minichromosomes. The VP1 missense mutations reported here compensate for the lack of LP1 by facilitating this process. On the basis of these findings and findings reported previously by us and others, we hypothesize that LP1 facilitates the formation of infectious particles by inhibiting the polymerization of VP1 molecules until the time they interact with viral minichromosomes; the VP1 mutations reported here compensate for the loss of LP1 by lessening the potential of VP1 for self-polymerization.

Induction of prolyl hydroxylase activity in a nonadherent population of human leukocytes

A nonadherent population of human monocytes has been shown to express the collagen hydroxylating enzyme prolyl hydroxylase in vitro. Enzyme levels present in freshly isolated nonadherent cells were induced 300% during the first 72 hours of culturing, which could be suppressed by cycloheximide. Maximum induction required both a feeder layer of adherent leukocytes, and 10-15% autologous plasma. Biosynthesis of Clq, a protein which also is hydroxylated by prolyl hydroxylase, by the nonadherent cells was significantly less than the adherent monocytes. Therefore, this collagen biosynthetic marker enzyme was not associated with Clq synthesis, which suggests that the enzyme is present for collagen biosynthesis.

Nonmitogenic morphoregulatory action of pp60v-src on multicellular epithelial structures

Madin-Darby canine kidney (MDCK) cells form polarized, multicellular epithelial structures in vitro. Low-level expression of pp60v-src in MDCK cells elicits plasticity in these multicellular structures. Plasticity was revealed by the displacement of cells from mechanically stressed regions of the epithelial monolayers; however, the two-dimensional relationship between the cells in the remainder of the monolayer was maintained. Electron microscopy of multicellular structures revealed abnormal separation of the lateral membranes of adjacent cells and selective uncoupling of the junctional complex; the zonula adherens was disrupted, but the zonula occludens and desmosomes were retained. Significantly, this result was not accompanied by transformation of the cells, as judged by the absence of anchorage-independent growth potential. These results demonstrate a nonmitogenic biological activity of pp60v-src which is experimentally dissociable from transformation. This morphoregulatory action on higher-order epithelial structures may reflect a function of related cellular tyrosine kinases.

Phenotypic characterization of temperature-sensitive mutants of vaccinia virus with mutations in a 135,000-Mr subunit of the virion-associated DNA-dependent RNA polymerase

The phenotypic defects of three temperature-sensitive (ts) mutants of vaccinia virus, the ts mutations of which were mapped to the gene for one of the high-molecular-weight subunits of the virion-associated DNA-dependent RNA polymerase, were characterized. Because the virion RNA polymerase is required for the initiation of the viral replication cycle, it has been predicted that this type of mutant is defective in viral DNA replication and the synthesis of early viral proteins at the nonpermissive temperature. However, all three mutants synthesized both DNA and early proteins, and two of the three synthesized late proteins as well. RNA synthesis in vitro by permeabilized mutant virions was not more ts than that by the wild type. Furthermore, only one of three RNA polymerase activities that was partially purified from virions assembled at the permissive temperature displayed altered biochemical properties in vitro that could be correlated with its ts mutation: the ts13 activity had reduced specific activity, increased temperature sensitivity, and increased thermolability under a variety of preincubation conditions. Although the partially purified polymerase activity of a second mutant, ts72, was also more thermolabile than the wild-type activity, the thermolability was shown to be the result of a second mutation within the RNA polymerase gene. These results suggest that the defects in these mutants affect the assembly of newly synthesized polymerase subunits into active enzyme or the incorporation of RNA polymerase into maturing virions; once synthesized at the permissive temperature, the mutant polymerases are able to function in the initiation of subsequent rounds of infection at the nonpermissive temperature.

Complete interaction of cellular 56,000- and 32,000-Mr proteins with simian virus 40 small-t antigen in productively infected cells

Two cellular proteins are found to be complexed with simian virus 40 small-t antigen in cellular extracts. The complex is a relatively unstable but dynamic one which can dissociate and reform in extracts. In extracts of permissive monkey kidney cells, the small-t antigen appeared to be present in excess, whereas the cellular proteins were nearly entirely committed to the complex in permissive monkey kidney cells.

Nonmitogenic morphoregulatory action of pp60v-src on multicellular epithelial structures

Madin-Darby canine kidney (MDCK) cells form polarized, multicellular epithelial structures in vitro. Low-level expression of pp60v-src in MDCK cells elicits plasticity in these multicellular structures. Plasticity was revealed by the displacement of cells from mechanically stressed regions of the epithelial monolayers; however, the two-dimensional relationship between the cells in the remainder of the monolayer was maintained. Electron microscopy of multicellular structures revealed abnormal separation of the lateral membranes of adjacent cells and selective uncoupling of the junctional complex; the zonula adherens was disrupted, but the zonula occludens and desmosomes were retained. Significantly, this result was not accompanied by transformation of the cells, as judged by the absence of anchorage-independent growth potential. These results demonstrate a nonmitogenic biological activity of pp60v-src which is experimentally dissociable from transformation. This morphoregulatory action on higher-order epithelial structures may reflect a function of related cellular tyrosine kinases.

Transformation of cotton (Gossypium hirsutum L.) by Agrobacterium tumefaciens and regeneration of transgenic plants

Cotton (Gossypium hirsutum L.) cotyledon tissues have been efficiently transformed and plants have been regenerated. Cotyledon pieces from 12-day-old aseptically germinated seedlings were inoculated with Agrobacterium tumefaciens strains containing avirulent Ti (tumor-inducing) plasmids with a chimeric gene encoding kanamycin resistance. After three days cocultivation, the cotyledon pieces were placed on a callus initiation medium containing kanamycin for selection. High frequencies of transformed kanamycin-resistant calli were produced, more than 80% of which were induced to form somatic embryos. Somatic embryos were germinated, and plants were regenerated and transferred to soil. Transformation was confirmed by opine production, kanamycin resistance, immunoassay, and DNA blot hybridization. This process for producing transgenic cotton plants facilitates transfer of genes of economic importance to cotton.

Autologous and allogeneic antibody responses to canine distemper virus isolates from dogs with chronic neurological diseases

We describe the antibody responses to three strains of canine distemper virus (CDV) isolated from dogs with chronic neurological disease in the Los Angeles area using the naturally occurring sera and cerebrospinal fluids (CSFs) of these animals as probes for comparison. CDV/CDE-2 was derived from a dog with chronic distemper encephalitis, and CDV/ODE-8 and CDV/ODE-10 were derived from dogs with old dog encephalitis. Sera and CSFs were used in autologous (same dog) and allogeneic (different dog) combinations to immune precipitate the [35S]-methionine-labelled H, P, NP, F1, and M polypeptides of the virus-infected cell cultures. The polypeptides were separated by SDS-PAGE and detected by fluorography. There was decreased recognition by the CSF and sera of the polypeptides of the viral isolates in several autologous as well as allogeneic combinations. It is concluded that the immune responses to the CDV strains are not identical, and it is likely that viral mutations occurred after the animals were infected. Some mutations may have contributed to the pathogenesis of distemper encephalitis in these animals and some may have occurred during subsequent passage of the viruses in cell culture. This may explain the decreased recognition of the polypeptides of the viral isolates by the CSF and sera.

Biosynthesis and properties of the adenovirus 2 L1-encoded 52,000- and 55,000-Mr proteins

The adenovirus type 2 L1 region, which is located at 30.7 to 39.2 map units on the viral genome, is transcribed from the major late promoter during both early and late stages of virus replication, and a 52,000-Mr (52K) protein-55K protein doublet has been translated in vitro on L1-specific RNA. To investigate the biosynthesis and properties of the L1 52K and 55K proteins, we prepared antibody against a synthetic peptide encoded near the predicted N terminus. As determined by immunoprecipitation and immunoblot analysis, the antipeptide antibody recognized major 52K and 55K proteins synthesized in adenovirus type 2-infected cells that appeared to be identical to the 52K-55K doublet translated in vitro. The immunoprecipitated 52K and 55K proteins were very closely related, as shown by a peptide map analysis. Both L1 proteins were phosphorylated, and they were phosphorylated at similar sites. No precursor-product relationship was detected between the 52K and 55K proteins by a pulse-chase analysis. Biosynthesis of the L1 52K and 55K proteins began about 6 to 7 h postinfection, after biosynthesis of the early region 1A and early region 1B 19K (175R) T antigens, and reached a maximum rate at about 15 h; the maximum rate was maintained until at least 25 h postinfection. At all times, the 55K protein appeared to be synthesized at a severalfold-higher level than the 52K protein. Both proteins were quite stable and accumulated until late times after infection. Viral DNA replication was not essential for formation of the L1 proteins. Thus, the L1 52K-55K gene appears to be regulated in a manner different from the classical early and late viral genes but similar to the protein encoded by the i-leader (Symington et al., J. Virol. 57:849-856, 1986). The L1 proteins were detected in the cell nucleus by immunofluorescence microscopy with antipeptide antibody and were found to be primarily associated with the nuclear membrane by an immunoblot analysis of subcellular fractions.

The use of monoclonal antibodies to study the proteins specified by the transforming region of human adenoviruses

Monoclonal antibodies against two of the proteins specified by one of the transforming genes (early region 1B) of human adenovirus type 2 have been produced and characterized. Two clones (RA1 and PA6), generated by fusion of mouse myeloma NSO cells with splenocytes from rats immunized with whole-cell lysates of an adenovirus-transformed rat cell line (F19), secreted antibodies against a 58 kDa protein. Another clone (DC1) produced antibodies against the same protein, and resulted from fusion of immune rat splenocytes with the rat myeloma Y3.Ag.1.2.3. Immunoprecipitation studies showed that all three antibodies recognized [35S]-methionine-labelled 58 kDa protein, and phosphorylated derivatives of the 58 kDa protein labelled with [32P]orthophosphate present in infected human cells. One clone (EC3) produced antibody against a 19 kDa protein also encoded by early region 1B, but not sharing sequence homology with 58 kDa. The identity of the 19 kDa protein recognized by the EC3 antibody was established by immunoprecipitation from lysates of labelled-infected cells and from products of cell-free translation directed by mRNA isolated from adenovirus 2-infected cells. Indirect immunofluorescent-antibody staining of infected human cells using the RA1 and EC3 antibodies revealed a nuclear location of the 58 kDa protein and a mainly cytoplasmic location of the 19 kDa protein.

Plasmid-directed synthesis of genuine adenovirus 2 early-region 1A and 1B proteins in Escherichia coli

The transforming region of human adenovirus 2 is located in the left 11.2% of the viral genome and is comprised of two distinct genetic units termed E1A and E1B. cDNAs containing the entire nucleotide sequence of the mature E1A 13S and E1B 22S mRNAs that are complementary to these genetic units have been introduced into bacterial plasmids a short distance downstream from the Escherichia coli lac promoter. Upon transformation into appropriate E. coli hosts, one of these plasmids, pKHAO, directed the synthesis of a 45-kilodalton (kd) protein, and the other, pKHBO, synthesized a protein of 54.9 kd. Both of these plasmid-encoded proteins constituted 0.1 to 0.3% of the total cellular protein and were virtually identical to the authentic adenovirus 2 E1A 42- to 50-kd and E1B 53- to 58-kd tumor antigens (T antigen) as determined by gel electrophoresis, immunoprecipitation, and tryptic fingerprint analysis. With the use of our pKHBO expression plasmid we were also able to demonstrate that the second AUG sequence appearing in the E1B 22S mRNA corresponded to the start of the gene encoding the large adenovirus 2 T antigen. This confirms theoretical deductions based on DNA sequencing analysis that translation of the large T antigen initiates translation at an internal ATG rather than at the 5'-proximal AUG.

Immunological evaluation of a component isolated from Mycobacterium bovis BCG with a monoclonal antibody to M. bovis BCG

A component of Mycobacterium bovis BCG referred to as BCG-a was isolated through the combined use of monoclonal antibody directed to BCG and affinity chromatography. Analysis of BCG-a by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed a single prominent band with a molecular weight of ca. 10,000. Structural characterization of BCG-a consisting of amino acid composition and amino-terminal sequence determination was carried out. The intact BCG-a antigen was bound by neither the lectin from common lentils nor concanavalin A, implying that BCG-a does not carry any asparagine-linked oligosaccharides. Immunoprecipitation of 125I-labeled BCG-a with polyclonal and monoclonal antibodies directed against BCG resulted in bands having the same mobility on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as did free 125I-BCG-a. In radioimmunoassays 125I-BCG-a was bound by the monoclonal antibody and by polyclonal antibodies from rabbits that had been immunized to BCG and to Mycobacterium tuberculosis H37Rv. Antibodies to nontuberculous and to nonacid-fast bacteria bound BCG-a poorly or not at all. The binding of 125I-BCG-a by the monoclonal antibody was readily inhibited by extracts of BCG and H37Rv, but it was not as readily inhibited by extracts of nontuberculous mycobacteria and was not at all inhibited by extracts of nonacid-fast bacteria. Considerable inhibition was similarly observed by surface antigens of nonviable, intact BCG organisms. Delayed cutaneous hypersensitivity reactions to small concentrations of BCG-a were elicited in guinea pigs that had been immunized with BCG or H37Rv antigens, but such reactions were not elicited in unimmunized animals.

Insertion of N regions into heavy-chain genes is correlated with expression of terminal deoxytransferase in B cells

The variable regions of immunoglobulin heavy chains are encoded in the germ line by three discrete DNA segments: VH (variable) elements, D (diversity) elements and JH (joining) elements. During the differentiation of B lymphocytes, individual segments from each group are brought together by recombination to form the complete VHDJH variable region. To understand these processes better, we have now isolated and sequenced molecular clones representing intermediates (DJH fusions) and final products (VH-to-DJH joins) of heavy-chain gene rearrangement in two cell lines that represent analogues of cells at early stages of B-lymphocyte differentiation. Heavy-chain gene assembly in one cell line but not in the other is accompanied by the appearance of short nucleotide insertions at the recombinational junctions. The generation of such insertions is positively correlated with the expression of terminal deoxynucleotidyl transferase in these lines.

Plasmid-directed synthesis of genuine adenovirus 2 early-region 1A and 1B proteins in Escherichia coli

The transforming region of human adenovirus 2 is located in the left 11.2% of the viral genome and is comprised of two distinct genetic units termed E1A and E1B. cDNAs containing the entire nucleotide sequence of the mature E1A 13S and E1B 22S mRNAs that are complementary to these genetic units have been introduced into bacterial plasmids a short distance downstream from the Escherichia coli lac promoter. Upon transformation into appropriate E. coli hosts, one of these plasmids, pKHAO, directed the synthesis of a 45-kilodalton (kd) protein, and the other, pKHBO, synthesized a protein of 54.9 kd. Both of these plasmid-encoded proteins constituted 0.1 to 0.3% of the total cellular protein and were virtually identical to the authentic adenovirus 2 E1A 42- to 50-kd and E1B 53- to 58-kd tumor antigens (T antigen) as determined by gel electrophoresis, immunoprecipitation, and tryptic fingerprint analysis. With the use of our pKHBO expression plasmid we were also able to demonstrate that the second AUG sequence appearing in the E1B 22S mRNA corresponded to the start of the gene encoding the large adenovirus 2 T antigen. This confirms theoretical deductions based on DNA sequencing analysis that translation of the large T antigen initiates translation at an internal ATG rather than at the 5'-proximal AUG.

Production of a monospecific antiserum against the early region 1A proteins of adenovirus 12 and adenovirus 5 by an adenovirus 12 early region 1A-beta-galactosidase fusion protein antigen expressed in bacteria

Antisera were prepared against the amino acid sequences encoded within the N-terminal half of the adenovirus 12 (Ad12) early region 1A (E1A) gene. This was accomplished by construction of a plasmid vector which encoded the N-terminal 131 amino acids of Ad12 E1A joined in frame to the coding sequence of beta-galactosidase. After induced synthesis in Escherichia coli, the Ad12 E1A-beta-galactosidase fusion protein (12-1A-FP) was extracted with urea and used to raise antibodies in rabbits. The 12-1A-FP antisera immunoprecipitated major phosphoproteins of 39,000 and 37,000 apparent molecular weights from Ad12-transformed and infected cells. The 12-1A-FP antisera also immunoprecipitated E1A phosphoproteins from Ad5-transformed and infected cells. Immunospecificity of the 12-1A-FP antisera was demonstrated by the ability of 12-1A-FP antigen to block immunoprecipitation of E1A proteins. Furthermore, E1A proteins immunoprecipitated from in vivo-labeled cells comigrated with those translated in vitro by RNA that had been hybridization selected to E1A DNA.

Early region 1B of adenovirus 2 encodes two coterminal proteins of 495 and 155 amino acid residues

Partial sequence analysis of tryptic peptides has identified the E1B-495R (E1b-57K) (early transcription region 1B of 495 amino acid residues, with an approximate molecular weight of 57,000) protein of adenovirus 2 as encoded by the 495 amino acid open reading frame located in the adenovirus 2 DNA sequence between nucleotides 2016 and 3500. Additional proteins of 16,000 Mr and 18,000 Mr that are related to the E1B-495R protein were identified by cell-free translation of hybridization-selected mRNA. Analysis of [35S]methionine-containing amino terminal tryptic peptides by thin-layer chromatography showed that the E1B-495R, E1B-18K, and E1B-16K proteins all begin at the same initiation codon. The E1B-495R protein from 293 cells also has the same initial tryptic peptide, acetyl-methionyl-glutamyl-arginine. Sequence analysis of E1B-18K tryptic peptides indicated that this protein also has the same carboxy terminus as the E1B-495R protein and that it is derived from an mRNA that is spliced to remove sequences between nucleotides 2250 and 3269, resulting in a protein product of 155 amino acid residues. Analysis of E1B-16K tryptic peptides has not yet revealed the carboxy terminal structure of this protein. Both the E1B-495R and the E1B-155R (E1B-18K) proteins, as well as the E1B-16K protein, were precipitated from cell-free translations and from extracts of infected cells by antiserum against an amino terminal nonapeptide common to these proteins.

Adenovirus early region 1B 58,000-dalton tumor antigen is physically associated with an early region 4 25,000-dalton protein in productively infected cells

In soluble protein extracts obtained from adenovirus productively infected cells, monoclonal antibodies directed against the early region 1B 58,000-dalton (E1B-58K) protein immunoprecipitated, in addition to this protein, a polypeptide of 25,000 molecular weight. An analysis of tryptic peptides derived from this 25K protein demonstrated that it was unrelated to the E1B-58K protein. The tryptic peptide maps of the 25K protein produced in adenovirus 5 (Ad5)-infected HeLa cells and BHK cells were identical, whereas Ad3-infected HeLa cells produced a different 25K protein. The viral origin of this 25K protein was confirmed by an amino acid sequence determination of five methionine residues in two Ad2 tryptic peptides derived from the 25K protein. The positions of these methionine residues in the 25K protein were compared with the nucleotide sequence of Ad2 and uniquely mapped the gene for this protein to early region 4, subregion 6 of the viral genome. A mutant of Ad5 was obtained (Ad5 dl342) which failed to produce detectable levels of the E1B-58K protein. In HeLa cells infected with this mutant, monoclonal antibodies directed against the E1B-58K protein failed to detect the associated 25K protein. In 293 cells infected with Ad5 dl342, which contain an E1B-58K protein encoded by the integrated adenovirus genome, the mutant produced an E4-25K protein which associated with the E1B-58K protein derived from the integrated genome. Extracts of labeled Ad5 dl342-infected HeLa cells (E1B-58K-) were mixed in vitro with extracts of unlabeled Ad5 wild type-infected HeLa cells or 293 cells (E1B-58K+). When the mixed extracts were incubated with the E1B-58K monoclonal antibody, a labeled E4-25K protein was coimmunoprecipitated. When extracts of Ad5 dl342-infected HeLa cells and uninfected HeLa cells (both E1B-58K-) were mixed, the E1B-58K monoclonal antibody failed to immunoselect the E4-25K protein. These data provide evidence that the E1B-58K antigen is physically associated with an E4-25K protein in productively infected cells. This is the same E1B-58K protein that was previously shown to be associated with the cellular p53 antigen in adenovirus-transformed cells.

Antibody directed to a synthetic peptide encoding the NH2-terminal 16 amino acids of the adenovirus type 2 E1B-53K tumor antigen recognizes the E1B-20K tumor antigen

A peptide, H2N-Glu-Arg-Arg-Asn-Pro-Ser-Glu-Arg-Gly-Val-Pro-Ala-Gly-Phe-Ser-Gly-(Cys )COOH, containing the amino acid sequence at the NH2 terminus of the adenovirus type 2 (Ad2) E1B-coded large T antigen (E1B-53K) has been synthesized. Anti-peptide antibody was generated in rabbits and used to immunoprecipitate Ad T antigens from Ad2 early infected cell extracts. In addition to the expected E1B-53K T antigen, anti-peptide antibody precipitated the Ad2 E1B-20K T antigen that was previously shown to be related to E1B-53K (M. Green, K.H. Brackmann, M.A. Cartas, and T. Matsuo, J. Virol. 42, 30-41, 1982). Anti-peptide prepared against the COOH terminus of the E1B-53K T antigen or against the NH2 terminus of the E1B-19K T antigen did not precipitate the E1B-20K T antigen. These data suggest that the Ad2 E1B-20K T antigen initiates translation at nucleotide 2016 in reading frame 3, as does E1B-53K. The viral mRNA that encodes the E1B-20K T antigen has not been identified.

Antigenic expression of human melanoma cells in serum-free medium

A human melanoma cell line, M14 , adapted to grow in serum free synthetic media was examined for its expression and secretion of several serologically defined melanoma associated antigens (MAA) previously described in this laboratory. Melanoma associated antigen expression and secretion was identical to that of M14 cells grown in parallel in serum supplemented medium. Spent synthetic media was found to be an enriched serum free source for the initial isolation of 100 kilodalton secreted glycoprotein MAA. M14 melanoma cells grown in synthetic media were also shown to be adaptable to the double agar clonogenic assay facilitating the examination of clonal heterogeneity in functional studies of MAA in melanoma tumor biology. Recent investigations from this laboratory have focused on characterizing human melanoma associated antigens (MAA) found either as secreted or cell surface associated glycoproteins in human melanoma cell lines. In these studies, monoclonal and polyclonal antiserums to melanoma cell components have been developed to specifically identify these MAAs immunochemically and provide a means to study the structural biochemistry of these determinants. At this time we have identified two antigens on which our research efforts are targeted: 1) a 100,000 dalton secreted glycoprotein (100K) common to melanoma, sarcoma and neuroblastoma tumor cell lines, and 2) a 250,000 dalton-high molecular weight component glycoprotein-proteoglycan complex which is thus far restricted to melanoma cells. The ultimate goal of our efforts is two-fold. Initially, we hope to develop schemes to isolate these melanoma associated antigens in sufficient quantities to obtain detailed structural information on these molecules, and secondly, we wish to implicate these glycoproteins in functional aspects of the biology of metastatic human melanoma in vitro.(ABSTRACT TRUNCATED AT 400 WORDS)

Analysis of adenovirus transforming proteins from early regions 1A and 1B with antisera to inducible fusion antigens produced in Escherichia coli

Plasmid vectors were constructed which expressed three adenovirus tumor antigens fused to a portion of the trpE protein of Escherichia coli. Insertion of adenovirus type 2 DNA from early region 1A (E1A) into such a plasmid led to a fusion protein which contained the C-terminal 266 amino acids of the 289-amino acid protein encoded by the viral 13S mRNA. Similarly, insertion of adenovirus type 5 DNA corresponding to the E1B 55- and 21-kilodalton proteins led to production of fusion proteins containing amino acid sequences from these proteins. After induction with indoleacrylic acid, fusion proteins accumulated stably in the E. coli cells. By using a simple extraction of insoluble protein, 1 to 10 mg of fusion protein per liter of culture was obtained. The fusion proteins were purified on preparative polyacrylamide gels and used to immunize rabbits. Specific antisera for the E1A 289- and closely related 243-amino acid proteins and the E1B 55- and 21-kilodalton proteins were obtained. These sera were used to immunoprecipitate the tumor antigens in cells infected with wild-type and various mutants of adenovirus or to analyze them by an immunoblotting procedure. Mutant E1A proteins in which the C-terminal 70 amino acids are deleted were phosphorylated to much lower extents than the wild-type E1A proteins. This indicates that the deleted region is important for the process of phosphorylation. The E1A proteins were extracted, sedimented in glycerol gradients, analyzed by immunoprecipitation, and found to sediment primarily as monomers.

Human adenovirus 2 E1B-19K and E1B-53K tumor antigens: antipeptide antibodies targeted to the NH2 and COOH termini

The human adenovirus 2 (Ad2) transforming region is located in the left 11.1% of the viral genome and encodes two early transcription units, E1A and E1B. Based on the amino acid sequence deduced from the Ad2 E1B DNA sequence (Gingeras et al., J. Biol. Chem. 257:13475-13491, 1982), we have prepared antibodies against synthetic peptides, 8 to 16 amino acids in length, encoded at the NH2 and COOH termini of the major E1B-19K and E1B-53K tumor antigens. The antipeptide antibodies immunoprecipitated the targeted E1B-19K or E1B-53K tumor antigens from extracts of Ad2-infected cells. The specificity of the peptide competition studies. Antipeptide antibodies directed to the NH2 and COOH termini immunoprecipitated the E1B-19K and E1B-53K tumor antigens from two Ad2-transformed rat cell lines, F17 and F4, providing evidence that identical tumor antigens are synthesized in Ad2-infected and Ad2-transformed cells. These results show that the E1B-19K and E1B-53K T antigens are not processed proteolytically at either the NH2 or COOH terminus. Our data provide strong evidence at the protein level that the E1B-19K and E1B-53K tumor antigens partially overlap in DNA sequence, with the E1B-19K initiating translation at the first ATG at nucleotide 1711 in translation reading frame 1 and the E1B-53K tumor antigen initiating translation at the second ATG at nucleotide 2016 in reading frame 3. This confirms the results of others on the N-terminal amino acid sequence of E1B-19K and theoretical deductions based on the DNA sequence. Our findings prove that the large E1B-53K T antigen initiates translation at the second ATG at nucleotide 2016 and not at equally plausible initiation codons located farther downstream at nucleotides 2202 and 2235. Thus, the E1B-53K T antigen is another example of a protein which initiates translation at an internal ATG rather than at the 5'-proximal ATG.

Antigenic and structural studies on the transforming proteins of Rous sarcoma virus and Yamaguchi 73 avian sarcoma virus

A widely cross reactive antiserum raised against denatured pp60v-src, the transforming protein encoded by Rous sarcoma virus, was used to test antigenic relationships with the transforming gene products encoded by other avian sarcoma viruses. The results showed that P90gag-yes, the transforming protein of a representative of Class III avian sarcoma viruses, is antigenically related to pp60v-src. Tryptic phosphopeptide analysis of P90gag-yes revealed two phosphotyrosine-containing peptides and one phosphoserine-containing peptide. One of the phosphotyrosine-containing peptides comigrated with the phosphotyrosine-containing tryptic peptide from pp60v-src.

Intracellular localization of adenovirus type 5 tumor antigens in productively infected cells

The intracellular localization of tumor antigens of human adenovirus type 5 (Ad5) during lytic infection of KB cells has been studied. The cells were pulse labeled with [35S]methionine early after infection and early proteins of 58,000 D (58K), 44K, 19K, 18.5K, and 14K detectable by immunoprecipitation with hamster antitumor serum were assayed for association with cytoplasm, nucleoplasm, chromatin, cytosol, cytoskeleton, and membranes. The 44,000 D (44K) tumor antigen encoded in early region 1A (E1A: 0-4.4%) was recovered in approximately equal amounts from cytoplasmic and nucleoplasmic fractions of pulse-labeled cells and within the cytoplasmic compartment was found in the cytosol as well as associated with the cytoskeleton. The E1B-58K (E1B: 4.5-11.2%) antigen was also found to be associated with the cytoplasmic and nucleoplasmic fractions in approximately equal amounts but unlike the E1A-44K showed no affinity for cytoskeletons. Pulse-chase and immunofluorescence experiments suggested the 58K antigen accumulated in the nucleus late in infection. The E1B-19K antigen was found almost exclusively associated with the membrane fraction of infected KB cells and was resolved in polyacrylamide gels into two related species of 18.5K and 19K. Immunofluorescence studies on the E1B 18.5-19K doublet suggested that within a population of infected HeLa cells a small minority seemed to be expressing copious amounts of stainable antigen. Cell fractionation and immunofluorescence studies showed that the E4-14K antigen was a nuclear protein and the only antigen in this study which showed a significant association with a nuclear subfraction composed almost entirely of histones. The implications of these findings for the roles of the Ad5 tumor antigens in lytic infection and transformation are discussed.

Quantitation of human immunoglobulin G and albumin in electroimmunodiffusion gels containing ionic and nonionic detergents

Quantitation of human immunoglobulin G (IgG) and albumin by agarose electroimmunodiffusion is influenced by the incorporation of ionic and nonionic detergents in the gel. The highest concentrations of each detergent at which human IgG and albumin determinations could be performed without perturbing the quantitations were 4% Triton X-100, 4% Tween 80, 1% NP-40, 0.5% sodium deoxycholate (SDOC), 0.5% Zwittergent, and 0.1% sodium dodecyl sulfate (SDS), and mixtures of Triton X-100, SDOC, and SDS. These detergent combinations all resulted in greater perturbations of albumin quantitation than of IgG. Immunoprecipitation of human IgG was quantitated in the absence and presence of Triton X-100, Zwittergent, and SDS. SDS was shown to cause nonspecific precipitation, whereas below 1% Triton X-100 or 0.5% Zwittergent no effects upon the immunoprecipitations were observed.