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The autocrine effects of platelet-derived growth factor (PDGF) A- and B-chain homodimers (PDGF-AA and PDGF-BB) on rat-1 cells and human fibroblasts have been investigated by using human PDGF A- and B-chain cDNA clones expressed in a retroviral vector. Infection with replication-defective virus carrying the B-chain cDNA resulted in a phenotypical transformation resembling that induced by simian sarcoma virus. The resulting cells were focus forming in monolayer cultures, grew to high saturation densities, and formed large colonies in soft agar. The PDGF A-chain transfectants showed no transformed morphology and lacked focus-forming activity but grew to high saturation density in monolayer culture and formed small colonies in soft agar. A similar but weaker effect was obtained with an A-chain cDNA variant containing a 69-base-pair insertion in the 3' end of the protein-coding domain. A- and B-chain transfectants released PDGF receptor-competing activity into the medium, but only the medium conditioned by the B-chain transfectants possessed potent mitogenic activity on human fibroblasts. Both types of transfectants had downregulated levels of PDGF receptors; however, the B-chain transfectants were downregulated to significantly lower levels. Metabolic labeling and immunoprecipitations with PDGF antiserum showed that the PDGF B-chain protein was processed to a 24-kilodalton cell-associated and a 30-kilodalton secreted dimeric protein. The A-chain protein was rapidly secreted as a 31-kilodalton dimeric protein. The present study shows a marked difference in the autocrine effects of PDGF-AA and -BB expressed under the control of a retroviral promoter and suggests that different biological properties may be assigned to these two PDGF isoforms.
Mol Cell Biol 1988 Jul
PMID:Expression of recombinant platelet-derived growth factor A- and B-chain homodimers in rat-1 cells and human fibroblasts reveals differences in protein processing and autocrine effects. 340 17

Infection of Mu-sensitive bacteria with a recombinant lambda phage that carries the EcoRI.C fragment from the immunity end of wild type Mu DNA causes filamentous growth. Transmission electron microscopy revealed that the cell-division cycle was inhibited at, or prior to, the initiation of septation. The filamentation does not occur after infection of Mu-immune bacteria or after infection with a phage carrying the same EcoRI.C fragment, but with an IS1 insertion in gene B of Mu, showing that either gpB and/or some non-essential functions (e.g. kil) mapping downstream from the insertion are required for the inhibition of cell division. These data and previously published evidence suggest that in the "killing" of E. coli K12 by early Mu functions expressed from the cloned EcoRI.C fragment, two components have to be distinguished: one, a highly efficient elimination of plasmid DNA carrying the early Mu genes, and second, a series of interactions with host functions conducent to an inhibition of cell division. It is suggested that functions normally involved in the SOS reaction participate in the inhibition of cell division by early Mu functions. Infected bacteria synthesize the replication protein B (MR 33000) of Mu, which was found by cell fractionation experiments to be associated with the inner cell membrane. The role of this association for filamentous growth and for the integrative replication of the phage is discussed. The recombinant phage might be useful as a tool for the study of the E. coli cell division cycle.
Mol Gen Genet 1986 Mar
PMID:Inhibition of bacterial segregation by early functions of phage mu and association of replication protein B with the inner cell membrane. 352 Feb 39

We described a strategy which facilitates the identification of cell mutants which are restricted in DNA synthesis in a temperature-dependent manner. A collection of over 200 cell mutants temperature-sensitive for growth was isolated in established Chinese hamster cell lines (CHO and V79) by a variety of selective and nonselective techniques. Approximately 10% of these mutants were identified as ts DNA- based on differential inhibition of macromolecular synthesis at the restrictive temperature (39 degrees C) as assessed by incorporation of [3H]thymidine and [35S]methionine. Nine such mutants, selected for further study, demonstrated rapid shutoff of DNA replication at 39 degrees C. Infections with two classes of DNA viruses extensively dependent on host-cell functions for their replication were used to distinguish defects in DNA synthesis itself from those predominantly affecting other aspects of DNA replication. All cell mutants supported human adenovirus type 2 (Ad2) and mouse polyomavirus DNA synthesis at the permissive temperature. Five of the nine mutants (JB3-B, JB3-O, JB7-K, JB8-D, and JB11-J) restricted polyomavirus DNA replication upon transfection with viral sequences at 33 degrees C and subsequent shift to 39 degrees C either before or after the onset of viral DNA synthesis. Only one of these mutants (JB3-B) also restricted Ad2 DNA synthesis after virion infection under comparable conditions. No mutant was both restrictive for Ad2 and permissive for polyomavirus DNA synthesis at 39 degrees C. The differential effect of these cell mutants on viral DNA synthesis is expected to assist subsequent definition of the biochemical defect responsible.
Mol Cell Biol 1986 Dec
PMID:Identification of temperature-sensitive DNA- mutants of Chinese hamster cells affected in cellular and viral DNA synthesis. 379 11

A murine retrovirus (MRSV) containing the src gene of Rous sarcoma virus has been shown to cause an erythroproliferative disease in mice (S. M. Anderson and E. M. Scolnick, J. Virol. 46:594-605, 1983). We now demonstrate that this same virus can transform erythroid progenitor cells in vitro. Infection of fetal liver cells or spleen and bone marrow cells from phenylhydrazine-treated adult mice gave rise to colonies of erythroid cells which grew in methylcellulose under conditions not favorable for the growth of normal erythroid cells. The presence of pp60src in the transformed erythroid cells was demonstrated by an immune complex protein kinase assay. The time course of appearance and subsequent differentiation of erythroid colonies indicated that the target cell for MRSV was a 6- to 8-day burst-forming unit. Differentiation of the erythroid progenitors was not blocked by the presence of pp60src, and the cells retained sensitivity to the hormone erythropoietin. In fact, the transformed cells exhibited increased hormone sensitivity since the number, the size, and the extent of hemoglobinization of the colonies were all increased by the addition of small amounts of erythropoietin. MRSV was not susceptible to restriction by the Fv-2 locus, as MRSV could transform hematopoietic cells from C57BL/6 mice. These results indicate that (i) the erythroid proliferation observed in vivo is caused by a direct effect of MRSV on erythroid progenitors and (ii) the transformed erythroid precursors acquire a growth advantage over uninfected cells without losing the ability to differentiate and respond to physiologic regulators.
Mol Cell Biol 1985 Dec
PMID:A murine recombinant retrovirus containing the src oncogene transforms erythroid precursor cells in vitro. 393 14

Infection of RNase III- (rnc) Escherichia coli cells with bacteriophage T4 delta 27, a deletion mutant missing seven out of the ten genes in the tRNA transcription unit, results in the accumulation of a tRNA precursor (10.5-S RNA) that contains the sequences of tRNAGln, tRNALeu and species 1 RNA [Pragai and Apirion (1981) J. Mol. Biol. 153, 619-630]. In vitro studies, using partially purified RNase III or cell extracts and 10.5-S RNA as substrate, have revealed a cleavage site at the 5' side of the molecule. A computerized secondary structure suggests that the RNase III cleavage site can be placed in a small bulge which could be part of a duplex structure and is adjacent to A-A-G and its complementary sequence U-U-U in the same relative relationships found for most RNase III cleavage sites were the adjacent sequences are (A-A-G/U-U-C). Under normal processing conditions (presence of RNase III) the 3' end of the processed intermediate precursors, 10.1-S and p2Sp1 RNAs, is C-U-U-(U1-2)-UOH, which is determined by a stem and loop structure that could serve as a rho-independent termination signal site. However, in the absence of RNase III, the accumulated 10.5-S precursor RNA does not terminate at the same site and its 3' end is shifted a few nucleotides downstream. Thus, RNase III, besides playing a role in processing of 10.5-S RNA, also affects the termination of that molecule, even though both sites, the RNase III cleavage site and the termination site, are about 390 nucleotides apart.
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PMID:The ribonuclease-III-processing site near the 5' end of an RNA precursor of bacteriophage T4 and its effect on termination. 397 89

Infection of rho- Escherichia coli cells with deletion mutant PII of bacteriophage f1 results in a miniphage RNA population composed of transcripts longer than those synthesized in the infection of rho+ cells. This indicates a Rho dependence of the terminator active at the end of the I region of transcription of bacteriophage f1. An estimate of the length of a transcript, which represents a good fraction of the RNA that passes beyond the terminator, indicates that the hairpin structure where synthesis of complementary strand DNA initiates also acts as a fairly efficient Rho-independent terminator.
Mol Gen Genet 1984
PMID:Rho-dependence of the terminator active at the end of the I region of transcription of bacteriophage f1. 609 64

ts20 is a temperature-sensitive mutant cell line derived from BALB/3T3 cells. DNA synthesis in the mutant decreased progressively after an initial increase during the first 3 h at the restrictive temperature. RNA and protein synthesis increased for 20 h and remained at a high level for 40 h. Cells were arrested in S phase as determined by flow microfluorimetry, and DNA chain elongation was retarded as measured by fiber autoradiography. Infection with polyomavirus did not bypass the defect in cell DNA synthesis, and the mutant did not support virus DNA replication at the restrictive temperature. After shift down to the permissive temperature, cell DNA synthesis was restored whereas virus DNA synthesis was not. Analysis of virus DNA synthesized at the restrictive temperature showed that the synthesis of form I and replicative intermediate DNA decreased concurrently and that the rate of completion of virus DNA molecules remained constant with increasing time at the restrictive temperature. These studies indicated that the mutation inhibited ongoing DNA synthesis at a step early in elongation of nascent chains. The defect in virus and cell DNA synthesis was expressed in vitro. [3H]dTTP incorporation was reduced, consistent with the in vivo data. The addition of a high-salt extract prepared from wild-type 3T3 cells preferentially stimulated the incorporation of [3H]dTTP into the DNA of mutant cells at the restrictive temperature. A similar extract prepared from mutant cells was less effective and was more heat labile as incubation of it at the restrictive temperature for 1 h destroyed its ability to stimulate DNA synthesis in vitro, whereas wild-type extract was not inactivated until incubated at that temperature for 3 h.
Mol Cell Biol 1984 Sep
PMID:Characterization of a ts mutant of BALB/3T3 cells and correction of the defect by in vitro addition of extracts from wild-type cells. 609 41

Infection of avian macrophages with Rous sarcoma virus does not induce any changes in the morphology, growth behavior, or expression of macrophage-specific proteins. The absence of cellular transformation does not result from a block in the synthesis of viral proteins, since infectious viruses are released from a majority of cells in the culture. In this report, we examine the synthesis, processing, and functional activity of pp60src in Rous sarcoma virus-infected macrophages to determine whether the absence of transformation is due to an alteration in the functional expression of pp60src. Although the absolute level of pp60src was reduced compared with fibroblasts, the protein exhibited the same phosphorylation pattern and subcellular distribution and was able to phosphorylate immunoglobulin in the immune complex-protein kinase assay. These results imply that the failure of Rous sarcoma virus to transform macrophage may be due to a restriction in the cellular response to a functional src protein, perhaps due to the absence of cellular products which are essential for mediating pp60src-induced transformation.
Mol Cell Biol 1984 Jul
PMID:Expression of the Rous sarcoma virus src gene in avian macrophages fails to elicit transformed cell phenotype. 609 71

L6E9 myoblasts infected with Trypanosoma cruzi undergo desensitization to beta-adrenergic catecholamines in a manner distinct from uninfected control myoblasts. Following incubation of intact cells with isoproterenol for 2 h, homogenates prepared from differentiated, high density uninfected L6E9 cells retain isoproterenol-dependent adenylate cyclase activity. In addition, previous exposure to isoproterenol is accompanied by a decrease in the number of beta-adrenergic receptors. Homogenates of high density L6E9 cells infected with T. cruzi retain their adenylate cyclase responsivity to isoproterenol but demonstrate a marked decrease in beta-adrenergic receptors. Following desensitization infected cell homogenates lose their responsiveness to isoproterenol and demonstrate a more marked decrease in beta-receptors. There does not appear to be any effect of T. cruzi infection on affinity of beta-adrenergic agonists for the beta-receptor or on changes in agonist affinity associated with desensitization. Infection of low density undifferentiated cells results in no apparent change in adenylate cyclase activity or in beta-receptors. Their behavior in the setting of desensitization--decreased whole cell cyclic AMP, decreased adenylate cyclase, unchanged beta-receptors--is also not affected by infection. The pattern of desensitization to beta-adrenergic agonists in high density infected cells shares several properties with the pattern of desensitization in low density uninfected cells, suggesting that infection may be associated with part of the more primitive cellular response pattern.
Mol Biochem Parasitol 1984 Oct
PMID:Alteration of the pattern of beta-adrenergic desensitization in cultured L6E9 muscle cells infected with Trypanosoma cruzi. 609 14

A fragment of the E. coli chromosome including the recC gene has been cloned by in vitro recombinant DNA techniques into a phage lambda vector to give the recombinant phage lambda drecC. This was used to derive the phage lambda drecBC by in vivo recombination. On lysogenisation of recB and recC mutants with lambda drecBC wild levels of UV-resistance and RecBC DNase activity were restored. Infection of E coli with lambda drecBC led to the synthesis of phage-coded proteins of 125 kilodaltons (kd) and 135 kd that were not synthesised on infection with the original lambda vector, whereas a 125 kd protein but not a 135 kd protein was synthesised in similar experiments with lambda drecC. The recombinant phages, which are unable to form plaques, presumably due to the deletion of essential phage genes during their construction, provided useful starting points from which to subclone the recB, recC, and the neighbouring thyA and argA genes individually into multiple copy plasmid vectors.
Mol Gen Genet 1982
PMID:Construction of recombinant lambda phages that carry the E. coli recB and recC genes. 621 90

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