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We transfected the human EJ bladder carcinoma oncogene (Ha-rasEJ-1) into multipotential embryonal carcinoma cell line P19. The transgenic P19(ras+) cells expressed high levels of both the mRNA and the p21EJ protein derived from the oncogene. When cultured in the presence of retinoic acid, P19(ras+) cells differentiated and developed into the same spectrum of differentiated cell types as the parental P19 cells (namely, neurons, astrocytes, and fibroblast-like cells). Thus, it seems unlikely that the Ha-ras-1 proto-oncogene product plays a role in initiation of differentiation or in the choice of differentiated cell lineage. Most of the P19(ras+)-derived differentiated cells contained relatively low levels of p21EJ and were nontransformed, whereas certain cells with fibroblast-like morphology continued to express the Ha-rasEJ-1 gene at high levels and were transformed (i.e., immortal and anchorage independent). Fibroblasts derived from P19 cells did not become transformed following transfection of the Ha-rasEJ-1 oncogene, suggesting that transformation of the fibroblast cells only occurred if the oncogene was present and expressed during the early stages of the developmental lineage.
Mol Cell Biol 1986 Feb
PMID:Lineage-specific transformation after differentiation of multipotential murine stem cells containing a human oncogene. 378 55

The interactions between Rous Sarcoma virus (RSV) RNA and the viral proteins in the virus have been analysed by Sen & Todaro (1977) using ultraviolet light irradiation; they showed that the major protein ultraviolet light cross-linked to the viral RNA was P19 as identified by polyacrylamide gel electrophoresis. We report here that it is not viral protein P19 but P12 that binds tightly to RSV RNA upon ultraviolet light irradiation of the virus. Therefore, the binding sites of the viral protein along RSV RNA that we have characterized previously should be correctly attributed now to P12 and not P19.
J Mol Biol 1984 Mar 15
PMID:It is Rous sarcoma virus protein P12 and not P19 that binds tightly to Rous sarcoma virus RNA. 632 22

The cytotoxicity of 10 plant lectins with different carbohydrate recognition properties towards a number of mouse embryonal carcinoma (EC) cell lines (F9, OTF9-63, PCC4, PCC3/A/1, P19, and P19S1801A1) has been examined. Six of the lectins are toxic for the majority of the cell types at concentrations of less than or equal to 100 micrograms/ml and should be useful as direct selective agents for the isolation of EC glycosylation mutants (see accompanying manuscript). However, the concentration of the various lectins required to kill 90% of the cell population differs markedly between EC cell lines, the greatest variation being observed with the lectins from T. vulgaris (wheat germ agglutinin; WGA) and G. simplicifolia (GS-I). The lectin-binding abilities of different EC cell lines also vary and do not necessarily correlate with their relative lectin sensitivities. Certain lectins which are not toxic even at concentrations of 200 micrograms/ml, nevertheless exhibit significant binding at the cell surface. The extensive variation in lectin sensitivities and lectin-binding abilities between the EC cell lines is diagnostic of the expression of different carbohydrate structures at their respective cell surfaces. The results suggest that the EC lines examined will give rise to different families of glycosylation mutants.
Somat Cell Mol Genet 1984 Sep
PMID:Cytotoxicity of plant lectins for mouse embryonal carcinoma cells. 659 43

We have previously shown that the P19 line of embryonal carcinoma cells develops into neurons, astroglia, and fibroblasts after aggregation and exposure to retinoic acid. The neurons were initially identified by their morphology and by the presence of neurofilaments within their cytoplasm. We have more fully documented the neuronal nature of these cells by showing that their cell surfaces display tetanus toxin receptors, a neuronal cell marker, and that choline acetyl-transferase and acetyl cholinesterase activities appear coordinately in neuron-containing cultures. Several days before the appearance of neurons, there is a marked decrease in the amount of an embryonal carcinoma surface antigen, and at the same time there is a substantial decrease in the volumes of individual cells. Various retinoids were able to induce the development of neurons in cultures of aggregated P19 cells, but it did not appear that polyamine metabolism was involved in the effect. We have isolated a mutant clone which does not differentiate in the presence of any of the drugs which are normally effective in inducing differentiation of P19 cells. This mutant and others may help to elucidate the chain of events triggered by retinoic acid and other differentiation-inducing drugs.
Mol Cell Biol 1983 Dec
PMID:Retinoic acid-induced neural differentiation of embryonal carcinoma cells. 665 66

Mouse P19 embryonal carcinoma cells can be reproducibly differentiated into neurons and glial cells upon treatment with high concentrations of retinoic acid (RA). To understand the molecular mechanisms that control early neural differentiation, we constructed P19 cell lines carrying an insertion of a gene-trap vector containing lacZ as the reporter gene and a G418 resistance gene. We tested expression of the lacZ gene during the RA-induced differentiation process of 300 clones selected with G418. Ten of these clones were stained with X-gal, and five of these ten clones showed up- or down-regulation of lacZ expression. We analyzed one clone, GT1, in which expression of the lacZ gene was markedly up-regulated. The 5'-flanking genomic DNA of the GT1 gene present at the site of integration was isolated by the plasmid rescue method, and we screened a cDNA library using this DNA gene as a probe. The GT1 cDNA is about 9000 bp long, with an open reading frame encoding 1840 amino acids. This amino acid sequence has a potential glycosaminoglycan attachment site (Ser-Gly-Gly-Gly) and three N-linked glycosylation sites, but no signal peptide. The sequence of GT1 does not show significant homology with any other known proteins, suggesting that GT1 may be a novel proteoglycan core protein. In situ hybridization revealed that GT1 mRNA was expressed ubiquitiously in the adult mouse brain. This expression was specifically localized in neurons but not in glial cells. Immunohistochemistry revealed that GT1 protein was also localized in neurons. These results suggest that this protein may play a fundamental role in neurons.
Brain Res Mol Brain Res 1995 Jul
PMID:Cloning of a retinoic acid-induced gene, GT1, in the embryonal carcinoma cell line P19: neuron-specific expression in the mouse brain. 747 16

CD59 inhibits the formation of membrane attack complex (MAC) of human complement by binding to C8 and C9 in the nascent membrane attack complex and inhibiting C9 binding to C8 in C5b-8 and C9 polymerization. Considering five disulfide bridges of CD59, we divided the molecule into two portions and synthesized the two peptides. One represented an amino-terminal half, P1-41, consisting of residues 1-41, while another represented a carboxyl-terminal half, P42-77, consisting of residues 42-77. P1-41 inhibited the MAC formation much more strongly than P42-77, indicating that the amino-terminal half contained the active site. We further synthesized P4-18 that consisted of residues 4-18 and P19-41 that consisted of residues 19-41. The activity of P4-18 was less than that of P19-41. Surprisingly, P19-41 showed higher activity than P1-41 and was comparable to urine CD59. Residues 19-41 were further divided into two portions: P20-25 which consisted of residues 20-25 and P27-38 which consisted of residues 27-38. Although their activities were significantly less than the activity of P19-41, P27-38 showed higher activity than P20-25. Residues 27-38 were further divided into three portions: P27-32 which consisted of residues 27-32, P30-34 which consisted of residues 30-34 and P33-38 which consisted of residues 33-38. When these peptides were assayed for the activities, all of them showed significant activities, even though they needed 10-fold more concentrations than P19-41. These data suggest that the portion made up of residues 27-38 is the active site constituting the binding site to C8 and C9.
Mol Immunol 1995 Mar
PMID:Determination of the active site of CD59 with synthetic peptides. 753 92

Transcription of the vascular cell adhesion molecule 1 (VCAM-1) gene in endothelial cells is induced by lipopolysaccharide and the inflammatory cytokines interleukin-1 beta and tumor necrosis factor alpha (TNF-alpha). Previous studies have demonstrated that tandem binding sites for the inducible transcription factor NF-kappa B are necessary but not sufficient for full cytokine-mediated transcriptional activation. Herein, we demonstrate that full cytokine-induced accumulation of VCAM1 transcript requires protein synthesis. We report the definition of a functional regulatory element in the VCAM1 promoter interacting with the transcriptional activator interferon regulatory factor 1 (IRF-1). DNA-protein binding studies with endothelial nuclear extracts revealed that IRF-1 is cytokine inducible and binds specifically to a consensus sequence motif located 3' of the TATA element. We have identified heterodimeric p65 and p50 as the NF-kappa B species binding to the VCAM1 promoter in TNF-alpha-activated endothelial cells. Experiments with recombinant proteins showed that p50/p65 and high-mobility-group I(Y) protein cooperatively facilitated the binding of IRF-1 to the VCAM1 IRF binding site and that IRF-1 physically interacted with p50 and with high-mobility-group I(Y) protein. Transient transfection assay in endothelial cells showed that overexpressed IRF-1 resulted in superinduction of TNF-alpha-stimulated transcription. Site-directed mutations in the IRF binding element decreased TNF-alpha-induced activity and totally abolished superinduction. Cotransfection assays in P19 embryonal carcinoma cells revealed that IRF-1 synergized with p50/p65 NF-kappa B to activate the VCAM1 promoter or heterologous promoter constructs bearing isolated VCAM1 NF-kappa B and IRF binding motifs. Cytokine inducibility of VCAM1 in endothelial cells utilizes the interaction of heterodimeric p50/p65 proteins with IRF-1.
Mol Cell Biol 1995 May
PMID:Endothelial interferon regulatory factor 1 cooperates with NF-kappa B as a transcriptional activator of vascular cell adhesion molecule 1. 753 51

Cellular retinoic acid-binding protein-I (CRABP-I) gene expression is induced in mouse embryonal carcinoma P19 cells specifically by retinoic acid (RA) and the induction is enhanced by sphinganine. The effects of retinoic acid and sphinganine on CRABP-I gene expression can be accounted for by a stimulation of its transcription rate. Using a lacZ reporter system, it was determined that a DNA fragment containing a putative AP-1 binding site in the promoter region of CRABP-I gene is required for the up-regulation of CRABP-I gene transcription.
Mol Cell Endocrinol 1995 Jun
PMID:Retinoic acid induction of mouse cellular retinoic acid-binding protein-I gene expression is enhanced by sphinganine. 755 83

Retinoic acid (RA) induces P19 embryonal carcinoma cells to differentiate into neurons with the extension of neuritic processes. We used the P19 cell as a model system to elucidate the regulation of neurofilament (NF) expression. Four mammalian NF proteins, NF-66 (alpha-internexin), peripherin, NF-L and NF-M, and the neural-specific, growth-associated gene, GAP-43, were studied during the RA treatment of P19 cells in vitro. As controls, untreated P19 cells were maintained in parallel. Indirect immunofluorescent staining showed that in RA-treated, morphologically differentiated P19 cells NF-66 was expressed in neuron-like cells characterized by phase bright cell bodies and long neuritic processes. At various times P19 cells were harvested for protein analysis by immunoblotting with antibodies to individual NF proteins or for total RNA extraction and Northern blotting with cDNA probes for NF-66, -L, -M, peripherin and GAP-43. During induction, both NF-66 and NF-L were expressed but in distinct patterns. NF-66 mRNA and protein were detected after 6 days of induction. In contrast, NF-L mRNA, but not protein, was expressed in both induced and control cells. Neither NF-M nor peripherin were expressed during induction. During differentiation of P19 cells, NF-66 mRNA levels rose markedly by the 1st day, reached a plateau between the 3rd-5th days and declined by the 7th day. NF-66 protein accumulation lagged slightly, reaching maximum abundance about the 5th day. The kinetics of NF-66 expression were similar to that of GAP-43. However, the pattern of NF-L expression was distinct from that of NF-66. NF-L mRNA, and some protein, was expressed in both RA-treated and control cells within 6 h after plating, but was down-regulated to baseline level thereafter in both populations. Neither NF-M or peripherin expression was detected during the differentiation. In summary, NF-66 was up-regulated most robustly among the four NF proteins during differentiation in P19 cells and was the major NF protein correlated with neurite extension.
Brain Res Mol Brain Res 1995 May
PMID:Expression of neurofilament proteins during retinoic acid-induced differentiation of P19 embryonal carcinoma cells. 760 47

Commitment of mesodermal cells to the cardiac lineage is a very early event that occurs during gastrulation, and differentiation of cardiac muscle cells begins in the presomite stage prior to formation of the beating heart tube. However, the molecular events, including gene products that are required for differentiation of cardiac muscle cells, remain essentially unknown. GATA-4 is a recently characterized cardiac muscle-restricted transcription factor whose properties suggest an important regulatory role in heart development. We tested the role of GATA-4 in cardiac differentiation, using the pluripotent P19 embryonal carcinoma cells, which can be differentiated into beating cardiac muscle cells. In this system, GATA-4 transcripts and protein are restricted to cells committed to the cardiac lineage, and induction of GATA-4 precedes expression of cardiac marker genes and appearance of beating cells. Inhibition of GATA-4 expression by antisense transcripts blocks development of beating cardiac muscle cells and interferes with expression of cardiac muscle markers. These data indicate that GATA-4 is necessary for development of cardiac muscle cells and identify for the first time a tissue-specific transcription factor that may be crucial for early steps of mammalian cardiogenesis.
Mol Cell Biol 1995 Aug
PMID:Inhibition of transcription factor GATA-4 expression blocks in vitro cardiac muscle differentiation. 762 5


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