Showing papers in "The EMBO Journal in 1991"

Reactive oxygen intermediates as apparently widely used messengers in the activation of the NF-kappa B transcription factor and HIV-1.

Abstract: Hydrogen peroxide and oxygen radicals are agents commonly produced during inflammatory processes. In this study, we show that micromolar concentrations of H2O2 can induce the expression and replication of HIV-1 in a human T cell line. The effect is mediated by the NF-kappa B transcription factor which is potently and rapidly activated by an H2O2 treatment of cells from its inactive cytoplasmic form. N-acetyl-L-cysteine (NAC), a well characterized antioxidant which counteracts the effects of reactive oxygen intermediates (ROI) in living cells, prevented the activation of NF-kappa B by H2O2. NAC and other thiol compounds also blocked the activation of NF-kappa B by cycloheximide, double-stranded RNA, calcium ionophore, TNF-alpha, active phorbol ester, interleukin-1, lipopolysaccharide and lectin. This suggests that diverse agents thought to activate NF-kappa B by distinct intracellular pathways might all act through a common mechanism involving the synthesis of ROI. ROI appear to serve as messengers mediating directly or indirectly the release of the inhibitory subunit I kappa B from NF-kappa B.

Efficient gene transfer in C.elegans: extrachromosomal maintenance and integration of transforming sequences.

Abstract: We describe a dominant behavioral marker, rol-6(su-1006), and an efficient microinjection procedure which facilitate the recovery of Caenorhabditis elegans transformants. We use these tools to study the mechanism of C.elegans DNA transformation. By injecting mixtures of genetically marked DNA molecules, we show that large extrachromosomal arrays assemble directly from the injected molecules and that homologous recombination drives array assembly. Appropriately placed double-strand breaks stimulated homologous recombination during array formation. Our data indicate that the size of the assembled transgenic structures determines whether or not they will be maintained extrachromosomally or lost. We show that low copy number extrachromosomal transformation can be achieved by adjusting the relative concentration of DNA molecules in the injection mixture. Integration of the injected DNA, though relatively rare, was reproducibly achieved when single-stranded oligonucleotide was co-injected with the double-stranded DNA.

Transgenic mice expressing human tumour necrosis factor: a predictive genetic model of arthritis.

Abstract: We have generated transgenic mouse lines carrying and expressing wild-type and 3'-modified human tumour necrosis factor (hTNF-alpha, cachectin) transgenes. We show that correct, endotoxin-responsive and macrophage-specific hTNF gene expression can be established in transgenic mice and we present evidence that the 3'-region of the hTNF gene may be involved in macrophage-specific transcription. Transgenic mice carrying 3'-modified hTNF transgenes shows deregulated patterns of expression and interestingly develop chronic inflammatory polyarthritis. Treatment of these arthritic mice with a monoclonal antibody against human TNF completely prevents development of this disease. Our results indicate a direct involvement of TNF in the pathogenesis of arthritis. Transgenic mice which predictably develop arthritis represent a novel genetic model by which the pathogenesis and treatment of this disease in humans may be further investigated.

Structural basis for the 3'-5' exonuclease activity of Escherichia coli DNA polymerase I: a two metal ion mechanism.

Abstract: The refined crystal structures of the large proteolytic fragment (Klenow fragment) of Escherichia coli DNA polymerase I and its complexes with a deoxynucleoside monophosphate product and a single-stranded DNA substrate offer a detailed picture of an editing 3'-5' exonuclease active site. The structures of these complexes have been refined to R-factors of 0.18 and 0.19 at 2.6 and 3.1 A resolution respectively. The complex with a thymidine tetranucleotide complex shows numerous hydrophobic and hydrogen-bonding interactions between the protein and an extended tetranucleotide that account for the ability of this enzyme to denature four nucleotides at the 3' end of duplex DNA. The structures of these complexes provide details that support and extend a proposed two metal ion mechanism for the 3'-5' editing exonuclease reaction that may be general for a large family of phosphoryltransfer enzymes. A nucleophilic attack on the phosphorous atom of the terminal nucleotide is postulated to be carried out by a hydroxide ion that is activated by one divalent metal, while the expected pentacoordinate transition state and the leaving oxyanion are stabilized by a second divalent metal ion that is 3.9 A from the first. Virtually all aspects of the pretransition state substrate complex are directly seen in the structures, and only very small changes in the positions of phosphate atoms are required to form the transition state.

Identification of the regulatory phosphorylation sites in pp42/mitogen-activated protein kinase (MAP kinase).

Abstract: Mitogen-activated protein kinase (MAP kinase) is a 42 kd serine/threonine protein kinase whose enzymatic activity requires phosphorylation of both tyrosyl and threonyl residues. As a step in elucidating the mechanism(s) for activation of this enzyme, we have determined the sites of regulatory phosphorylation. Following proteolytic digestion of 32P-labeled pp42/MAP kinase with trypsin, only a single phosphopeptide was detected by two-dimensional peptide mapping, and this peptide contained both phosphotyrosine and phosphothreonine. The amino acid sequence of the peptide, including the phosphorylation sites, was determined using a combination of Fourier transform mass spectrometry and collision-activated dissociation tandem mass spectrometry with electrospray ionization. The sequence for the pp42/MAP kinase tryptic phosphopeptide is similar (but not identical) to a sequence present in the ERK1- and KSS1-encoded kinases. The two phosphorylation sites are separated by only a single residue. The regulation of activity by dual phosphorylations at closely spaced threonyl and tyrosyl residues has a functional correlate in p34cdc2, and may be characteristic of a family of protein kinases regulating cell cycle transitions.

Pax-3, a novel murine DNA binding protein expressed during early neurogenesis.

Abstract: We describe the isolation and characterization of Pax-3, a novel murine paired box gene expressed exclusively during embryogenesis. Pax-3 encodes a 479 amino acid protein with an Mr of 56 kd containing both a paired domain and a paired-type homeodomain. The Pax-3 protein is a DNA binding protein that specifically recognizes the e5 sequence present upstream of the Drosophila even-skipped gene. Pax-3 transcripts are first detected in 8.5 day mouse embryos where they are restricted to the dorsal part of the neuroepithelium and to the adjacent segmented dermomyotome. During early neurogenesis, Pax-3 expression is limited to mitotic cells in the ventricular zone of the developing spinal cord and to distinct regions in the hindbrain, midbrain and diencephalon. In 10-12 day embryos, expression of Pax-3 is also seen in neural crest cells of the developing spinal ganglia, the craniofacial mesectoderm and in limb mesenchyme of 10 and 11 day embryos.

A cellular protein mediates association of p53 with the E6 oncoprotein of human papillomavirus types 16 or 18.

Abstract: The E6 protein of human papillomavirus types 16 and 18 (HPV-16 and HPV-18) can stably associate with the p53 protein in vitro. In the presence of rabbit reticulocyte lysate, this association leads to the specific degradation of p53 through the ubiquitin-dependent proteolysis system. We have examined the E6-p53 complex in more detail and have found that association of E6 with p53 is mediated by an additional cellular factor. This factor is present in rabbit reticulocyte lysate, primary human keratinocytes and in each of five human cell lines examined. The factor is designated E6-AP, for E6-associated protein, based on the observation that the E6 proteins of HPV-16 and 18 can form a stable complex with the factor in the absence of p53, whereas p53 association with the factor can be detected only in the presence of E6. Gel filtration and coprecipitation experiments indicate that E6-AP is a monomeric protein of approximately 100 kDa.

Targeted integration of adeno-associated virus (AAV) into human chromosome 19.

Abstract: A key feature in adeno-associated virus (AAV) replication is efficient integration of the viral genome into host cell DNA to establish latency when helper virus is absent. The steps involved in this process remain largely uncharacterized, even though AAV integration was first documented 20 years ago. Using a protein--DNA binding method we isolated AAV--cellular junction DNA sequences. The cellular component hybridized to a single restriction fragment in the virus-free parental cell line, and also co-migrated with AAV-specific sequences in numerous latently infected cell lines. Analysis of somatic cell hybrids indicated that this cellular sequence maps to the distal portion of the q arm of human chromosome 19. In situ hybridization of AAV DNA to chromosomes from latently infected cells confirms the physical location of AAV integrations to be q13.4-ter of chromosome 19. Sequence analysis of several independent integration sites shows breakpoints occurring within a 100 bp cellular region. This non-pathogenic parvovirus thus appears to establish viral latency by integrating its DNA specifically into one chromosomal region. Such specific integration is so far unique among the eukaryotic DNA viruses. The incorporation of site-specific integration into AAV vector schemes should make this vector system attractive for human gene therapy approaches.

The p65 subunit is responsible for the strong transcription activating potential of NF-kappa B.

Abstract: The nuclear form of the NF-kappa B transcription factor binds to DNA as a heterodimer of a 50 kDa (p50) and 65 kDa (p65) polypeptide. The two polypeptides are encoded by different genes but share a long region of homology, the NRD motif, encompassing domains required for DNA binding and dimerization. In this study we have analysed the contribution of the two subunits to the strong transactivating potential of NF-kappa B. Transient expression of the p65 subunit alone resulted in a potent transactivation of a CAT reporter construct under the control of two NF-kappa B binding sites in monkey COS and mouse L cells. The strongly DNA binding p50 subunit showed only very weak, if any, induction of gene expression. Co-expression of p50 suppressed the transactivation by p65 presumably by competitive DNA binding of transcriptionally inactive p50 dimers (KBF1). Fusion of p65 sequences to DNA binding domain of the yeast GAL4 transcription factor allowed detection of the principal transactivation domain of p65 (TA1) in the C-terminal 30 amino acid sequence. TA1 is likely to adopt an amphipathic alpha-helical structure which clusters serine residues on the hydrophilic surface, a structural feature conserved between human, mouse and Xenopus p65. The unique C-terminal third of p65 contained at least one more activation domain, TA2, within a 90 amino acid sequence directly adjacent to TA1. In two mammalian cell lines, TA1 and TA2 acted separately, while in an insect cell line, the two domains were inactive after their separation. Our study suggests that the p50 subunit in NF-kappa B might only serve a helper function in DNA binding whereas the p65 subunit is responsible for initiating transcription. Homodimers of p50 seem to have the potential of down-regulating kappa B-specific gene expression.

A novel IL-1 receptor, cloned from B cells by mammalian expression, is expressed in many cell types.

Abstract: cDNA clones corresponding to an Mr approximately 80,000 receptor (type I receptor) for interleukin-1 (IL-1) have been isolated previously by mammalian expression. Here, we report the use of an improved expression cloning method to isolate human and murine cDNA clones encoding a second type (Mr approximately 60,000) of IL-1 receptor (type II receptor). The mature type II IL-1 receptor consists of (i) a ligand binding portion comprised of three immunoglobulin-like domains; (ii) a single transmembrane region; and (iii) a short cytoplasmic domain of 29 amino acids. This last contrasts with the approximately 215 amino acid cytoplasmic domain of the type I receptor, and suggests that the two IL-1 receptors may interact with different signal transduction pathways. The type II receptor is expressed in a number of different tissues, including both B and T lymphocytes, and can be induced in several cell types by treatment with phorbol ester. Both IL-1 receptors appear to be well conserved in evolution, and map to the same chromosomal location. Like the type I receptor, the human type II IL-1 receptor can bind all three forms of IL-1 (IL-1 alpha, IL-1 beta and IL-1ra). Vaccinia virus contains an open reading frame bearing strong resemblance to the type II IL-1 receptor.

Tumorigenic potential associated with enhanced expression of a gene that is amplified in a mouse tumor cell line.

Abstract: We have carried out an analysis of amplified DNA sequences present in a tumorigenic mouse cell line, designated 3T3DM, to determine if the presence of cellular transforming activity is correlated with the elevated expression of any of the amplified genes These studies utilized a selection protocol that allowed for DNA sequence amplification after the introduction of each gene into non-transformed recipient cells Cell lines obtained from this selection protocol were assayed for tumorigenicity in nude mice The results provided evidence that a gene, mdm2, that is amplified more than 50-fold in the 3T3DM cell line, induces tumorigenicity when experimentally overexpressed in NIH3T3 cells and in Rat2 cells Analysis of the predicted amino acid composition of the mdm2 product(s) revealed features similar to those that have been shown to be functionally significant in certain DNA binding proteins/transcriptional activators These include two potential metal binding motifs and a negatively charged domain rich in acidic amino acid residues Overall, the data support the conclusion that mdm2 represents an evolutionarily conserved gene with tumorigenic potential and a predicted role in mechanisms of cellular growth control

Scatter factor and hepatocyte growth factor are indistinguishable ligands for the MET receptor.

Abstract: Scatter Factor (SF) is a fibroblast-secreted protein which promotes motility and matrix invasion of epithelial cells. Hepatocyte Growth Factor (HGF) is a powerful mitogen for hepatocytes and other epithelial tissues. SF and HGF, purified according to their respective biological activities, were interchangeable and equally effective in assays for cell growth, motility and invasion. Both bound with identical affinities to the same sites in target cells. The receptor for SF and HGF was identified as the product of the MET oncogene by: (i) ligand binding and coprecipitation in immunocomplexes; (ii) chemical crosslinking to the Met beta subunit; (iii) transfer of binding activity in insect cells by a baculovirus carrying the MET cDNA; (iv) ligand-induced tyrosine phosphorylation of the Met beta subunit. SF and HGF cDNA clones from human fibroblasts, placenta and liver had virtually identical sequences. We conclude that the same molecule (SF/HGF) acts as a growth or motility factor through a single receptor in different target cells.

A novel, cleavable peroxisomal targeting signal at the amino-terminus of the rat 3-ketoacyl-CoA thiolase.

Abstract: Several peroxisomal proteins do not contain the previously identified tripeptide peroxisomal targeting signal (PTS) at their carboxy-termini. One such protein is the peroxisomal 3-ketoacyl CoA thiolase, of which two types exist in rat [Hijikata et al. (1990) J. Biol. Chem., 265, 4600-4606]. Both rat peroxisomal thiolases are synthesized as larger precursors with an amino-terminal prepiece of either 36 (type A) or 26 (type B) amino acids, that is cleaved upon translocation of the enzyme into the peroxisome. The prepieces are necessary for import of the thiolases into peroxisomes because expression of an altered cDNA encoding only the mature thiolase, which lacks any prepiece, results in synthesis of a cytosolic enzyme. When appended to an otherwise cytosolic passenger protein, the bacterial chloramphenicol acetyltransferase (CAT), the prepieces direct the fusion proteins into peroxisomes, demonstrating that they encode sufficient information to act as peroxisomal targeting signals. Deletion analysis of the thiolase B prepiece shows that the first 11 amino acids are sufficient for peroxisomal targeting. We conclude that we have identified a novel PTS that functions at amino-terminal or internal locations and is distinct from the C-terminal PTS. These results imply the existence of two different routes for targeting proteins into the peroxisomal matrix.

The hematopoietic and epithelial forms of CD44 are distinct polypeptides with different adhesion potentials for hyaluronate-bearing cells.

Abstract: CD44 is a polymorphic integral membrane protein which recognizes hyaluronate and whose proposed roles encompass lymphocyte activation, matrix adhesion and the attachment of lymphocytes to lymph node high endothelial venules (HEVs) Immunochemical and RNA blot data have supported the existence of two forms of CD44: a hematopoietic form expressed by cells of mesodermal origin (and by some carcinoma cell lines) and an epithelial form weakly expressed by normal epithelium but highly expressed by carcinomas This report describes the isolation of a cDNA encoding a distinct CD44 polypeptide expressed by epithelial cells Re-expression of each form of CD44 in a B cell line allowed cells transfected with the hematopoietic but not the epithelial form to bind to viable rat lymph node HEV cells in primary culture

Leukemia inhibitory factor receptor is structurally related to the IL-6 signal transducer, gp130.

Abstract: Leukemia inhibitory factor (LIF) is a cytokine with a broad range of activities that in many cases parallel those of interleukin-6 (IL-6) although LIF and IL-6 appear to be structurally unrelated. A cDNA clone encoding the human LIF receptor was isolated by expression screening of a human placental cDNA library. The LIF receptor is related to the gp130 'signal-transducing' component of the IL-6 receptor and to the G-CSF receptor, with the transmembrane and cytoplasmic regions of the LIF receptor and gp130 being most closely related. This relationship suggests a common signal transduction pathway for the two receptors and may help to explain similar biological effects of the two ligands. Murine cDNAs encoding soluble LIF receptors were isolated by cross-hybridization and share 70% amino acid sequence identity to the human sequence.

The MYC protein activates transcription of the alpha-prothymosin gene.

Abstract: The proto-oncogene MYC encodes a nuclear protein whose biochemical and physiological functions remain uncertain. We used an estrogen-regulated version of the MYC protein to explore these functions. Activation of MYC in quiescent rat and mouse fibroblasts elicited re-entry into and progression through the cell cycle, bypassing early events that would follow stimulation of the cells with serum. Activation of MYC led to a rapid increase in transcription of the alpha-prothymosin gene, even in the absence of protein synthesis. We conclude that the product of MYC acts directly on transcription, in accord with inferences based on the structure of the MYC protein. The function of alpha-prothymosin is not known, but our results suggest that the protein may play a role in the proliferation of mammalian cells.

Manganese superoxide dismutase can reduce cellular damage mediated by oxygen radicals in transgenic plants.

Abstract: In plants, environmental adversity often leads to the formation of highly reactive oxygen radicals. Since resistance to such conditions may be correlated with the activity of enzymes involved in oxygen detoxification, we have generated transgenic tobacco plants which express elevated levels of manganese superoxide dismutase (MnSOD) within their chloroplasts or mitochondria. Leaf discs of these plants have been analyzed in conditions in which oxidative stress was generated preferentially within one or the other organelle. It was found that high level overproduction of MnSOD in the corresponding subcellular location could significantly reduce the amount of cellular damage which would normally occur. In contrast, small increases in MnSOD activity were deleterious under some conditions. A generally applicable model correlating the consequences of SOD with the magnitude of its expression is presented.

The refined 2.15 A X-ray crystal structure of human liver cathepsin B: the structural basis for its specificity.

Abstract: From the lysosomal cysteine proteinase cathepsin B, isolated from human liver in its two-chain form, monoclinic crystals were obtained which contain two molecules per asymmetric unit. The molecular structure was solved by a combination of Patterson search and heavy atom replacement methods (simultaneously with rat cathepsin B) and refined to a crystallographic R value of 0.164 using X-ray data to 2.15 A resolution. The overall folding pattern of cathepsin B and the arrangement of the active site residues are similar to the related cysteine proteinases papain, actinidin and calotropin DI. 166 alpha-carbon atoms out of 248 defined cathepsin B residues are topologically equivalent (with an r.m.s. deviation of 1.04 A) with alpha-carbon atoms of papain. However, several large insertion loops are accommodated on the molecular surface and modify its properties. The disulphide connectivities recently determined for bovine cathepsin B by chemical means were shown to be correct. Some of the primed subsites are occluded by a novel insertion loop, which seems to favour binding of peptide substrates with two residues carboxy-terminal to the scissile peptide bond; two histidine residues (His110 and His111) in this "occluding loop' provide positively charged anchors for the C-terminal carboxylate group of such polypeptide substrates. These structural features explain the well-known dipeptidyl carboxypeptidase activity of cathepsin B. The other subsites adjacent to the reactive site Cys29 are relatively similar to papain; Glu245 in the S2 subsite favours basic P2-side chains. The above mentioned histidine residues, but also the buried Glu171 might represent the group with a pKa of approximately 5.5 near the active site, which governs endo- and exopeptidase activity. The "occluding loop' does not allow cystatin-like protein inhibitors to bind to cathepsin B as they do to papain, consistent with the reduced affinity of these protein inhibitors for cathepsin B compared with the related plant enzymes.

FGFR-4, a novel acidic fibroblast growth factor receptor with a distinct expression pattern.

Abstract: We have previously identified two novel members of the fibroblast growth factor receptor (FGFR) gene family expressed in K562 erythroleukemia cells. Here we report cDNA cloning and analysis of one of these genes, named FGFR-4. The deduced amino acid sequence of FGFR-4 is 55% identical with both previously characterized FGFRs, flg and bek, and has the structural characteristics of a FGFR family member including three immunoglobulin-like domains in its extracellular part. Antibodies raised against the carboxy terminus of FGFR-4 detected 95 and 110 kd glycoproteins with a protein backbone of 88 kd in COS cells transfected with a FGFR-4 cDNA expression vector. The FGFR-4 protein expressed in COS cells could also be affinity-labeled with radioiodinated acidic FGF. Furthermore, ligand binding experiments demonstrated that FGFR-4 binds acidic FGF with high affinity but does not bind basic FGF. FGFR-4 is expressed as a 3.0 kb mRNA in the adrenal, lung, kidney, liver, pancreas, intestine, striated muscle and spleen tissues of human fetuses. The expression pattern of FGFR-4 is distinct from that of flg and bek and the yet additional member of the same gene family, FGFR-3, which we have also cloned from the K562 leukemia cells. Our results suggest that FGFR-4 along with other fibroblast growth factor receptors performs cell lineage and tissue-specific functions.

Widespread expression of glycine receptor subunit mRNAs in the adult and developing rat brain.

Abstract: The inhibitory glycine receptor (GlyR) is a ligand-gated ion channel which mediates post-synaptic inhibition in spinal cord and other regions of the vertebrate central nervous system. Previous biochemical and molecular cloning studies have indicated heterogeneity of GlyRs during development. Here, the distribution of GlyR subunit transcripts in rat brain and spinal cord was investigated by in situ hybridization using sequence-specific oligonucleotide probes. In adult animals, GlyR alpha 1 subunit mRNA was abundant in spinal cord, but was also seen in a few brain areas, e.g. superior and inferior colliculi, whereas alpha 2 transcripts were found in several brain regions including layer VI of the cerebral cortex and hippocampus. GlyR alpha 3 subunit mRNA was expressed at low levels in cerebellum, olfactory bulb and hippocampus, while high amounts of beta subunit transcripts were widely distributed throughout spinal cord and brain. During development, alpha 2 mRNA accumulated already prenatally and decreased after birth, whereas alpha 1 and alpha 3 subunit transcripts appeared only in postnatal brain structures. Hybridization signals of beta subunit mRNA were seen already at early embryonic stages and continuously increased to high levels in adult rats. These data reveal unexpected differences in the regional and developmental expression of GlyR subunit mRNAs and point to novel functions of GlyR proteins in the mammalian central nervous system.

Identification and cloning of TCF-1, a T lymphocyte-specific transcription factor containing a sequence-specific HMG box.

Abstract: CD3-epsilon expression is controlled by a downstream T lymphocyte-specific enhancer element. We report the identification of a T cell-specific transcription factor, TCF-1, binding to this element. The multimerized recognition motif of TCF-1 constituted a T cell-specific enhancer. Subsequent cloning of TCF-1 identified three splice alternatives. TCF-1 contained a single DNA-binding HMG box most closely related to similar boxes in the putative mammalian sex-determining gene SRY and in the Schizosaccharomyces pombe Mc mating type gene. TCF-1 mRNA was expressed uniquely in T lymphocytes. Upon cotransfection into non-T cells, TCF-1 could transactivate through its cognate motif. These results identify TCF-1 as a T cell-specific transcription factor, which might play a role in the establishment of the mature T cell phenotype.

Endocytosis and targeting of exogenous HIV-1 Tat protein.

Abstract: The human immunodeficiency virus-1 (HIV-1) Tat protein has previously been shown to transactivate the HIV-1-LTR when added exogenously to HeLa, H9 lymphocytic and U937 promonocytic cells growing in culture. Here we show that Tat enters these cells by adsorptive endocytosis. Tat appears to bind non-specifically to the cell surface, with greater than 10(7) sites per cell. A specific receptor was not detected by protein crosslinking experiments, and uptake was not affected by treating cells with trypsin, heparinase or neuraminidase. Uptake and transactivation could be inhibited by incubation with heparin, dextran sulfate, an anti-Tat monoclonal antibody, or by incubation at 4 degrees C. In contrast, transactivation by Tat was markedly stimulated by the addition of basic peptides, such as Tat 38-58 or protamine. Fluorescence experiments with rhodamine-conjugated Tat show punctate staining on the cell surface and then localization to the cytoplasm and nucleus. The lack of a specific receptor makes it unclear whether Tat uptake is biologically important in HIV infection, however, the efficiency of uptake raises the possibility that Tat may be useful for delivery of protein molecules into cells.

Associations between distinct pre-mRNA splicing components and the cell nucleus.

Abstract: SC-35 is a non-snRNP spliceosome component that is specifically recognized by the anti-spliceosome monoclonal antibody alpha SC-35. In this paper we provide direct evidence that SC-35 is an essential splicing factor and we examine the immunolocalization of SC-35 by confocal laser scanning microscopy and by electron microscopy. We have found that the speckled staining pattern observed by fluorescence microscopy corresponds to structures previously designated as interchromatin granules and perichromatin fibrils. Although snRNP antigens are also concentrated in these nuclear regions, we show that the two types of spliceosome components are localized through different molecular interactions: The distribution of SC-35 was not affected by treatment with DNase I or RNase A, or when the cells were heat shocked. In contrast, snRNP antigens become diffusely distributed after RNase A digestion or heat shock. Examination of cells at different stages of mitosis revealed that the SC-35 speckled staining pattern is lost during prophase and speckles containing SC-35 begin to reform in the cytoplasm of anaphase cells. In contrast, snRNP antigens do not associate with speckled regions until late in telophase. These studies reveal a dynamic pattern of assembly and disassembly of the splicing factor SC-35 into discrete nuclear structures that colocalize with interchromatin granules and perichromatin fibrils. These subnuclear regions may therefore be nuclear organelles involved in the assembly of spliceosomes, or splicing itself.

A role of the latent TGF-beta 1-binding protein in the assembly and secretion of TGF-beta 1.

Abstract: Transforming growth factor-beta 1 (TGF-beta 1) is synthesized as latent complexes with high molecular weights. The large latent complex of TGF-beta 1 in platelets is composed of three components, i.e. the mature TGF-beta 1, which is non-covalently associated with a disulphide-bonded complex of the N-terminal remnant of the TGF-beta 1 precursor (TGF-beta 1-latency associated peptide) and the latent TGF-beta 1 binding protein (LTBP). The TGF-beta 1-latency associated peptide is sufficient for the latency of TGF-beta 1, whereas the functions of LTBP remain to be elucidated. In a human erythroleukemia cell line, HEL, the production of the latent form of TGF-beta 1 was induced more than 100-fold by phorbol 12-myristate 13-acetate. Analysis by Northern blotting revealed that both the TGF-beta 1 precursor and LTBP were induced in a coordinated fashion. Analysis by immunoprecipitation using antibodies against LTBP and the TGF-beta 1 precursor dimer revealed that LTBP has a molecular size of 205 kd under reducing conditions in this cell type, i.e. similar to that from cells transfected with cDNA for LTBP, but larger than the platelet form (125-160 kd). Limited tryptic digestion of LTBP in HEL cells and analysis by SDS-PAGE showed protein bands of similar sizes to those of platelet LTBP, suggesting that the difference in molecular sizes of LTBP involves cell-specific processing. The biosynthesis of the latent TGF-beta 1 was studied by pulse-chase analysis. LTBP became covalently associated with the TGF-beta 1 precursor within 15 min after synthesis in this cell line. Secretion of the large latent TGF-beta 1 complex was observed as early as 30 min after the synthesis of LTBP; at the same time, a free form of LTBP not bound to the TGF-beta 1 precursor was seen. In contrast, the TGF-beta 1 precursor remained inside the cells in an unprocessed form for a longer time period and the TGF-beta 1 precursor dimer without LTBP was secreted only very slowly. Furthermore, the results of partial tryptic digestion of this molecule suggested that it contained improper disulphide bonding. These results suggest that LTBP plays a critical role in the assembly and secretion of the latent TGF-beta 1.

Regulatory phosphorylation of the p34cdc2 protein kinase in vertebrates.

Abstract: The p34cdc2 protein kinase is a conserved regulator of the eukaryotic cell cycle. Here we show that residues Thr14 and Tyr15 of mouse p34cdc2 become phosphorylated as mouse fibroblasts proceed through the cell cycle. We have mutated these residues and measured protein kinase activity of the p34cdc2 variants in a Xenopus egg extract. Phosphorylation of residues 14 and 15, which lie within the presumptive ATP-binding region of p34cdc2, normally restrains the protein kinase until it is specifically dephosphorylated and activated at the G2/M transition. Regulation by dephosphorylation of Tyr15 is conserved from fission yeast to mammals, while an extra level of regulation of mammalian p34cdc2 involves Thr14 dephosphorylation. In the absence of phosphorylation on these two residues, the kinase still requires cyclin B protein for its activation. Inhibition of DNA synthesis inhibits activation of wild-type p34cdc2 in the Xenopus system, but a mutant which cannot be phosphorylated at residues 14 and 15 escapes this inhibition, suggesting that these phosphorylation events form part of the pathway linking completion of DNA replication to initiation of mitosis.

Transient replication of BPV-1 requires two viral polypeptides encoded by the E1 and E2 open reading frames.

Abstract: Bovine papillomavirus (BPV) DNA is maintained as an episome with a constant copy number in transformed cells and is stably inherited. To study BPV replication we have developed a transient replication assay based on a highly efficient electroporation procedure. Using this assay we have determined that in the context of the viral genome two of the viral open reading frames, E1 and E2, are required for replication. Furthermore we show that when produced from expression vectors in the absence of other viral gene products, the full length E2 transactivator polypeptide and a 72 kd polypeptide encoded by the E1 open reading frame in its entirety, are both necessary and sufficient for replication BPV in C127 cells.

A CAAX or a CAAL motif and a second signal are sufficient for plasma membrane targeting of ras proteins

Abstract: Mutational analysis of p21ras has shown that plasma membrane targeting requires the combination of a CAAX motif with a polybasic domain of six lysine residues or a nearby palmitoylation site. However, it is not known from these studies whether these signals alone target p21ras to the plasma membrane. We now show that these C-terminal sequences are sufficient to target a heterologous cytosolic protein to the plasma membrane. Interestingly, the key feature of the p21K-ras(B) polybasic domain appears to be a positive charge, since a polyarginine domain can function as a plasma membrane targeting motif in conjunction with the CAAX box and p21K-ras(B) with the polylysine domain replaced by arginines is biologically active. Since some ras-related proteins are modified by geranylgeranyl rather than farnesyl we have investigated whether modification of p21ras with geranylgeranyl affects its subcellular localization. Geranylgeranyl can substitute for farnesyl in combining with a polybasic domain to target p21K-ras(B) to the plasma membrane, but such geranylgeranylated proteins are more tightly bound to the membrane. This increased avidity of binding is presumably due to the extra length of the geranylgeranyl alkyl chain.

In utero manipulation of coat color formation by a monoclonal anti-c-kit antibody: two distinct waves of c-kit-dependency during melanocyte development.

Abstract: Previous studies on mice bearing various mutations within the c-kit gene, dominant white spotting (W), indicate the functional role of this tyrosine kinase receptor in the development of melanocytes, germ cells and hematopoietic cells Despite the availability of mice defective in the c-kit gene and a respectable understanding of the molecular nature of c-kit, however, it is not clear at what stage of gestation c-kit is functionally required for the development of each of these cell lineages To address this question, we have used a monoclonal anti-c-kit antibody, ACK2, as an antagonistic blocker of c-kit function to interfere with the development of melanocytes during embryonic and postnatal life ACK2 injected intradermally into pregnant mice entered the embryos where it blocked the proper development of melanocytes This inhibitory effect was manifested as coat color alteration in the offspring Furthermore, ACK2 injection also altered the coat color of neonatal and adult mice Based on the coat color patterns produced by ACK2 administration at various stages before or after birth, the following conclusions are drawn: (i) during mid-gestation, c-kit is functionally required during a restricted period around day 145 post-coitum when a sequence of events leading to melanocyte entry into the epidermal layer occurs; (ii) during postnatal life, c-kit is required for melanocyte activation which occurs concomitantly with the hair cycle which continues throughout life after neonatal development of the first hair

Bispecific single chain molecules (Janusins) target cytotoxic lymphocytes on HIV infected cells.

Abstract: The human immunodeficiency virus type 1 (HIV-1) uses cell surface CD4 as a receptor to infect susceptible cells Therefore, different forms of soluble CD4 (sCD4) molecules have been developed recently for potential therapeutic purposes Here we describe a novel design of sCD4 molecules which exploit cytotoxic T cells as their effector function The principle of bispecific antibodies was exploited and further developed to create new bispecific reagents which could retarget cytotoxic T cells of any specificity and thus, induce killing of HIV-1 infected cells The most advanced molecules, Janusins, contain in one polypeptide chain the first two N-terminal CD4 domains and single chain combining site against the human CD3 complex (FvCD3)

Short modified antisense oligonucleotides directed against Ha-ras point mutation induce selective cleavage of the mRNA and inhibit T24 cells proliferation.

Abstract: We have used derivatized antisense oligodeoxynucleotides both in vitro and in vivo specifically to inhibit translation of the activated human oncogene Ha-ras. The oligonucleotides (5'-CCACACCGA-3') were targeted to a region of Ha-ras mRNA including the point mutation G----T at the 12th codon which leads to a Gly----Val substitution in the ras p21 protein. They were linked to an intercalating agent and/or to a hydrophobic tail, both to increase their affinity for their mRNA target and to enhance their uptake by tumor cells. A cell-free translation system was used to demonstrate an RNase H-dependent specific inhibition of activated ras protein synthesis. 50% inhibition was observed at a concentration of 0.5 microM of the most efficient oligonucleotide (5'-substitution with an acridine derivative and 3'-substitution by a dodecanol chain). This inhibitory effect stems from a point mutation-sensitive cleavage of the mRNA and it mirrors the growth inhibition obtained with T24 bladder carcinoma cells, which carry activated Ha-ras. The proliferation of HBL100 cells (non tumorigenic human mammary cell line) which carry two copies of normal Ha-ras was unaffected. This study shows that it is possible to design antisense agents that will inactivate the mutated oncogene but not the protooncogene which is generally essential to cell survival.