Constitutive c-myc expression enhances proliferation of differentiating F9 teratocarcinoma cells

Cerebrospinal fluid control of neurogenesis induced by retinoic acid during early brain development

Embryonic-cerebrospinal fluid (E-CSF) plays crucial roles in early brain development including the control of neurogenesis. Although FGF2 and lipoproteins present in the E-CSF have previously been shown to be involved in neurogenesis, the main factor triggering this process remains unknown. E-CSF contains all-trans-retinol and retinol-binding protein involved in the synthesis of retinoic acid (RA), a neurogenesis inducer. In early chick embryo brain, only the mesencephalic-rombencephalic isthmus (IsO) is able to synthesize RA. Here we show that in chick embryo brain development: (1) E-CSF helps to control RA synthesis in the IsO by means of the RBP and all-trans-retinol it contains; (2) E-CSF has retinoic acid activity, which suggests it may act as a diffusion pathway for RA; and (3) the influence of E-CSF on embryonic brain neurogenesis is to a large extent due to its involvement in RA synthesis. These data help to understand neurogenesis from neural progenitor cells.

Transcriptional regulation of the human LINE-1 retrotransposon L1.2B

Although LINE-1 (L1) sequences constitute the most important family of retrotransposons in the human genome, their transcriptional regulation is poorly understood. Specifically, their unusual internal promoter is incompletely characterized. Current promoter prediction programs fail to identify the promoter in the 5'UTR of the active LINE-1 element L1.2B. Experimental investigation of this promoter using reporter gene assays in various human and murine cell types confirmed that the promoter consists of two segments, and demonstrated that the distal portion is essential for cell-type-independent activity. No differences in promoter activity were found between normal and transformed cells. The complete promoter was shown to possess approximately 20% of the activity of the strong early promoter of cytomegalovirus, and to be capable of directing the expression of levels of p53 sufficient to kill normal and transformed human cells. Thus, active LINE-1 elements contain highly active promoters capable of driving cell-type-independent expression, which are of potential use in mammalian expression constructs. In vitro methylation of the promoter at HpaII sites decreased its activity independently of cell type, but this repression was alleviated in MBD2-/- cells. Surprisingly, mutation of specific HpaII sites was also found to reduce promoter activity. Thus, efficient repression of the L1.2B promoter by DNA methylation may involve MBD2 binding, but at least one HpaII site also appears to be involved specifically in transcriptional activation. Since neither promoter activity nor the efficiency of repression by methylation differed between normal and tumor cells, the re-activation of LINE-1 sequences observed in tumor cells is probably caused by hypomethylation of the promoter.

Transcriptional regulation by transforming growth factor beta of the expression of retinoic acid and retinoid X receptor genes in osteoblastic cells is mediated through AP-1

We now report that transforming growth factor beta1 (TGF-beta1), a potent regulatory cytokine of bone remodeling, is a powerful stimulator for gene expression of retinoic acid receptors (RARs) and retinoid X receptors (RXRs) in osteoblastic MC3T3-E1 cells. TGF-beta1 transcriptionally stimulated the expression of RARalpha, RARgamma, and RXRalpha genes, but did not do so for RARbeta, RXRbeta, and RXRgamma genes. We also observed that AP-1, a transcriptional factor, plays an important role in the signal pathway for expression of RARalpha, RARgamma, and RXRalpha genes stimulated by TGF-beta1 because stimulation of the expression of these genes in the cytokine-treated cells was markedly inhibited by a mixture of antisense c-fos and c-jun. A gel mobility shift assay demonstrated that TGF-beta1 is able to increase, in a dose-dependent manner, the binding of nuclear proteins to direct repeat 5, a consensus sequence with high affinity for RAR-RXR heterodimers. The mobility shift assay, using specific antibody for each receptor, showed that direct repeat 5-binding proteins may be RAR and RXR isoforms. The stimulated binding to direct repeat 5 was inhibited strongly by H-7, an inhibitor of serine/threonine kinase, and by curcumin, an inhibitor of AP-1. The present study suggests a novel pathway for TGF-beta1 action in osteoblastic cells via stimulation of RAR-RXR transcriptional activity in a ligand-dependent fashion.

Induction of mouse embryonal carcinoma cell differentiation and activation of the retinoic acid receptor beta 2 promoter by 1,25-dihydroxyvitamin D3

1,25-Dihydroxyvitamin D3 (calcitriol) at 100 nmol/l elicited morphological differentiation and expression of collagen IV in mouse F9 embryonal carcinoma cells, and its effect was enhanced and accelerated by dibutyryl-cAMP (db-cAMP). The RAR beta 2 promoter was also activated, as evidenced by an increase in beta-galactosidase activity in an F9 reporter cell line with a stably integrated RAR beta 2-lacZ construct. All three effects were slower and less extensive with calcitriol than with retinoic acid, even in the presence of db-cAMP. Activation of the RAR beta 2 promoter by calcitriol required its TRE sequence, whereas db-cAMP required the CRE. TPA also activated the RAR beta 2 promoter, requiring a functional TRE. Thus, in the RAR beta 2 promoter the TRE sequence, whose function has so far been unidentified, mediates the effects of calcitriol and TPA. RAR beta 2 promoter activation by calcitriol was blocked by inhibitors of protein kinase C indicating that calcitriol elicits its effect via protein kinase C. Therefore, calcitriol induces differentiation of F9 mouse embryonal carcinoma cells at least in part by a pathway different from the classical one operative with retinoic acids.

Regulation of DNA methyltransferase during differentiation of F9 mouse embryonal carcinoma cells

DNA becomes demethylated when F9 mouse embryonal carcinoma cells differentiate into parietal endoderm. DNA methyltransferase (DNA-MTase) activity decreased by 50% during 1 week of differentiation. The level of DNA-MTase mRNA was also diminished accordingly, but the transcription rate of the DNA-MTase gene measured by run-on transcription was essentially unchanged, indicating regulation of DNA-MTase expression at a posttranscriptional step. The decline of DNA-MTase mRNA paralleled that of histone H3 mRNA in accord with the notion that DNA-MTase is preferentially expressed in the S phase of the cell cycle. Since DNA-MTase expression decreases in parallel with DNA synthesis, DNA demethylation during differentiation of F9 cells appears not to be due to limited expression of DNA-MTase. However, the plasmid pAFP7000CAT, alpha-fetoprotein (AFP), which is strongly de novo methylated when transfected into F9 stem cells became only weakly methylated after transfection into the F9 parietal endoderm derivative P1, indicating that the activity of DNA-MTase within parietal endoderm cells is more strongly diminished than is apparent from measurements of mRNA amounts and of overall DNA-MTase activity in vitro. The discrepancy between DNA-MTase expression and its actual activity within the cell indicates the existence of a novel mechanism controlling the activity of DNA-MTase.

Loss of heterozygosity at the NAD(P)H: quinone oxidoreductase locus associated with increased resistance against mitomycin C in a human bladder carcinoma cell line

The human bladder carcinoma cell line RT112 and the mitomycin C-resistant cell line RT112MMC, derived from RT112 cells, were examined for their expression of NAD(P)H:quinone oxidoreductase (NQOR) and glutathione S-transferases (GSTs). RT112 cells were 40-fold more sensitive towards mitomycin C than RT112MMC cells. The NQOR mRNA level in RT112MMC cells was decreased to 15% as compared to RT112 cells. NQOR enzyme activity was 391 +/- 140 mU/mg protein in RT112 cells, whereas NQOR activity in RT112MMC cells was not measurable. As shown by a fast PCR-based assay and DNA-sequencing, the cell line RT112 is heterozygous, whereas RT112MMC is homozygous for a null allele of the NQOR gene without enzymatic activity. Accordingly, both wild-type and null allele mRNAs were present in RT112 cells, whereas only null allele mRNA was found in RT112MMC. The lack of NQOR enzyme activity in RT112MMC cells was thus associated with loss of heterozygosity at the NQOR locus. By a PCR-RFLP assay, three kidney carcinoma patients without measurable NQOR enzyme activity were shown to be homozygous for the null allele. The PCR assay described here is useful for examination of large numbers of samples. The relative amount of GST-Pi mRNA was decreased by 30% in RT112MMC as compared to RT112, contributing to a diminished level of GST enzyme activity, using CDNB as a substrate, from 95 +/- 62 mU/mg protein in RT112 to 26 +/- 6 mU/mg protein in RT112MMC.

Identification and functional characterization of regulatory elements of the glutamine synthetase gene from rat liver

Hepatic glutamine synthetase (GS) shows a unique expression pattern limited to a few hepatocytes surrounding the terminal hepatic veins. Starting from the genomic clone of the rat GS gene, lambda GS1 [Van de Zande, L. P. G. W., Labruyère, W. T., Arnberg, A. C., Wilson, R. H., Van den Bogaert, A. J. W., Das, A. T., Frijters, C., Charles, R., Moorman, A. F. M. & Lamers, W. H. (1990) Gene (Amst.) 87, 225-232] additional genomic clones containing up to 9 kb of 5'flanking region were isolated in order to characterize cis-acting elements involved in the regulation of GS expression. Sequence analysis of the 5'flanking region up to -2520 bp revealed a putative AP2-binding site at -223 bp and a second GC box at -2343 bp in addition to the canonical TATA, CCAAT and GC boxes found proximal to the transcription-start site. A possible negative glucocorticoid-responsive element (GRE) and regions with very weak similarity to a GRE and to a known silencer element were noted at -506 bp, -406 bp and at -798 bp, respectively. Within the sequenced part of the 5'flanking region no known regulatory elements associated with liver-specific gene expression were found except for a putative HNF3-binding site at -896 bp. Functional analysis by transient transfection assays using constructs with the pSSCAT or the pXP1 vector revealed that the elements present within the first 153 bp and particularly the first 368 bp of upstream sequence constitute an active promoter the activity of which is decreased by additional sequences up to -2148 bp. The presence of dexamethasone led to a 2-4-fold increase in the promoter activity of all these constructs. Using the heterologous truncated thymidine-kinase-gene promoter of the plasmid pT81-luc a strong enhancer element was located between -2520 bp and -2148 bp. Its activity was not affected by dexamethasone but was negatively influenced by flanking sequences in both directions. This enhancer was also effective with the homologous GS promoter (-153 to +59 bp) and the heterologous full thymidine-kinase-gene promoter (pT109luc). No further enhancers were found up to -6200 bp. Using the same approach, a second enhancer was found between +259 bp and +950 bp within the first intron. Deoxyribonuclease-I hypersensitivity studies confirmed the presence of a hypersensitive site between +350 bp and +550 bp and suggested a second site between +850 bp and +1200 bp.(ABSTRACT TRUNCATED AT 400 WORDS)

De novo methylation of transfected CAT gene plasmid constructs in F9 mouse embryonal carcinoma cells

To study the formation of DNA methylation patterns, plasmids containing promoters of different strengths in front of the bacterial chloramphenicol acetyltransferase reporter gene were transfected into F9 mouse embryonal carcinoma cells. Methylation of the integrated plasmids as well as copy numbers and activities of the reporter gene were determined for individual cell clones. The methylation pattern of the integrated plasmids was found to be determined by properties of the DNA sequence itself. In contrast, the specific methylation patterns were invariant with respect to integration site, copy number and arrangement of the integrates; methylation did also not correlate with transcriptional activity of the different promoters. Certain promoter regions may therefore contain signals recognized by the de novo methylation activity in embryonal carcinoma cells.

Increase of beta-actin mRNA upon hypotonic perfusion of perfused rat liver

beta-Actin mRNA levels in livers exposed to hypotonic perfusion (from 305 to 225 mosmol/l) for one hour are increased 2-fold relative to albumin mRNA. Like albumin, glyceraldehyde-3-phosphate dehydrogenase and tyrosine aminotransferase mRNAs remain at the levels observed under normotonic conditions. The increase in beta-actin mRNA is interpreted as a cytoskeletal response due to cell swelling.

DNA fingerprinting with oligonucleotides can differentiate cell lines derived from the same tumor

Oligonucleotide fingerprinting was applied to investigate the relatedness of several cell lines that were established between 1973 and 1977 from a teratocarcinoma. We were able to distinguish cell lines derived at different times. In addition, sublines from one cell line (PYS-2) could be discriminated by using a combination of different probes. Therefore multilocus fingerprinting with oligonucleotides is a useful method for monitoring changes in cell lines kept in culture for many generations.