Changes in methylation pattern of albumin and alpha-fetoprotein genes in developing rat liver and neoplasia

Endometrial genome-wide DNA methylation patterns of Guanzhong dairy goats at days 5 and 15 of the gestation period

Uterine receptivity for the embryo is established and maintained through a series of precise cellular and molecular events, such as DNA methylation. There have been no studies to elucidate entire genome DNA methylation changes associated with embryo receptivity development of the endometrium (RE). In the present study, there was development of a complete genome-wide DNA methylome maps of the RE using whole-genome bisulphite sequencing and bioinformatics analysis. As many as 163.06 Gb of sequencing data averaging 81.53 Gb per sample were obtained for genome bisulphite sequencing of endometrium samples. There were distinct genome-wide DNA methylation patterns in pre-receptive endometrium (PE; Day 5 of gestation) and RE (Day 15 of gestation). There were as many as 16,467 differentially methylated regions (DMRs); 21,391 DMRs were less methylated in RE samples compared with PE samples (P-values ≤ 0.05 and |log2 (fold change)| ≥ 2). Compared with PE samples, methylation ratios of IGF2BP2, ACOX2, PTGDS, VEGFB and PTGDR2 genes were markedly less in RE samples (P-value ≤ 0.05 and |log2 (fold change)| ≥ 2). Conversely, in RE samples there was a markedly greater methylation ratio of IGFBP3 and IGF1R genes. The results of KEGG analysis indicated that these genes were involved in the signalling pathways for insulin, mitogen-activated protein kinase, gonadotropin-releasing hormone, vascular endothelial growth factor and progesterone-mediated oocyte maturation, which participated in differential regulation of goat endometrial development during receptive and prereceptive phases. The results of previous and the present study indicate resulting proteins of IGF2BP2, PTGDS, VEGFB, PGR, IGFBP3 and IGF1R gene expression may have important functions in regulating endometrial receptivity for the embryo.

Developmental methylation of the coding region of c-fos occurs perinatally, stepwise and sequentially in the liver of laboratory mouse

We have studied the dynamics of de novo DNA methylation of 16 contiguous CpGs in the non-CpG island-coding region of the proto-oncogene c-fos during mouse development by Na-bisulfite sequencing. Methylation commences from 16.5 dpc and occurs in stepwise-manner. In liver 7 sites are methylated between 16.5 dpc and day 5 after birth, but all the sites are completely methylated on 20 dpp and remain so in the adult liver. The present study provides evidence that (1) pattern of methylation of c-fos is distinct from those DNA sequences which methylate pre- and post-implantation, both in terms of the timing and spreading, and (2) spacing of CpGs is an important factor in determining the course of methylation. We suggest that there could be other isoforms of Dnmtases for the c-fos like embryonic genes, not only because they methylate later in development but also because of the difference in kinetics of the reaction, and that the nucleation of certain methylated sites facilitate methylation of neighbouring sites and their maintenance in subsequent cell generations.

Developmental methylation of the regulatory region of HoxB5 gene in mouse correlates with its tissue-specific expression

We have studied the dynamics of de novo CpG methylation in the regulatory region of one of the homeobox gene HoxB5 during mouse development by sodium bisulfite sequencing. Methylation pattern was examined at embryonic day 18.5 and adult in kidney and spleen while in the liver the same exercise has been done in 11.5 dpc, 18.5 dpc, 5 dpp and in adult. In the liver at 11.5 dpc, all the 47 contiguous sites (including a CpG island from 2035 to 2330 bp) at 5' regulatory region of HoxB5 were unmethylated. Random methylation commences from 18.5 dpc and continues in 5 dpp and in the adult. In the kidney at 18.5 dpc, 26 CpGs were examined (excluding the CpG island region) and all of them were unmethylated but the fetal spleen had at least a few sites considerably methylated. In the adult there was a low level methylation in the kidney, on the other hand, in the spleen, all the CpGs were methylated except a few sites and certain sites were totally methylated. Thus in the adult, the level of methylation was much higher than in the fetal stage. On the other hand semi-quantitative RT-PCR revealed that the extent of expression of HoxB5 was higher in embryonic stages than in the adult. Thus HoxB5 is a good paradigm to support that the developmental methylation of HoxB5 and its expression pattern show an inverse correlation.

Factors involved in the cell density-dependent regulation of nuclear/cytoplasmic distribution of the 11.5-kDa Zn(2+)-binding protein (parathymosin-alpha) in rat hepatocytes

Although the 11.5 kDa Zn(2+)-binding protein (ZnBP, parathymosin-alpha) possesses a functional bipartite nuclear localization signal it was found in most tissues in the cytoplasm. The cultivation of freshly isolated rat hepatocytes for 24 hours under standard conditions was associated with an almost complete translocation of ZnBP from the cytoplasm to the nuclei. Here we demonstrate, that this translocation is negatively correlated with cell density. The translocation of ZnBP to the nucleus can be inhibited or abolished by inhibitors of protein synthesis (cycloheximide) or transcription (actinomycin D). Moreover, cycloheximide can induce a relocation of ZnBP to the cytoplasm when applied after the appearance of ZnBP in the nuclei. DMSO, an inhibitor of dedifferentiation of cultured hepatocytes, abolishes also the translocation of ZnBP into the nucleus. Thinly seeded cells keep their ZnBP in the cytoplasm if they are co-cultured with plasma membranes from Morris MH7777 hepatoma cells or antibodies against E-cadherin indicating the involvement of cell adhesion proteins. We have enriched a protein from the cytosol of fresh hepatocytes which inhibits the translocation of ZnBP, but not that of albumin-NLS into the nucleus in a permeabilized cell system. Such an activity could not be found in the cytoplasm of permanent cell lines which harbor ZnBP only in the nucleus. A model for the regulation of the nuclear import of ZnBP is proposed.

Liver-intestine cadherin: molecular cloning and characterization of a novel Ca(2+)-dependent cell adhesion molecule expressed in liver and intestine

A novel member of the cadherin family of cell adhesion molecules has been characterized by cloning from rat liver, sequencing of the corresponding cDNA, and functional analysis after heterologous expression in nonadhesive S2 cells. cDNA clones were isolated using a polyclonal antibody inhibiting Ca(2+)-dependent intercellular adhesion of hepatoma cells. As inferred from the deduced amino acid sequence, the novel molecule has homologies with E-, P-, and N-cadherins, but differs from these classical cadherins in four characteristics. Its extracellular domain is composed of five homologous repeated domains instead of four characteristic for the classical cadherins. Four of the five domains are characterized by the sequence motifs DXNDN and DXD or modifications thereof representing putative Ca(2+)-binding sites of classical cadherins. In its NH2-terminal region, this cadherin lacks both the precursor segment and the endogenous protease cleavage site RXKR found in classical cadherins. In the extracellular EC1 domain, the novel cadherin contains an AAL sequence in place of the HAV sequence motif representing the common cell adhesion recognition sequence of E-, P-, and N-cadherin. In contrast to the conserved cytoplasmic domain of classical cadherins with a length of 150-160 amino acid residues, that of the novel cadherin has only 18 amino acids. Examination of transfected S2 cells showed that despite these structural differences, this cadherin mediates intercellular adhesion in a Ca(2+)-dependent manner. The novel cadherin is solely expressed in liver and intestine and was, hence, assigned the name LI-cadherin. In these tissues, LI-cadherin is localized to the basolateral domain of hepatocytes and enterocytes. These results suggest that LI-cadherin represents a new cadherin subtype and may have a role in the morphological organization of liver and intestine.

Liver-specific DNase I-hypersensitive sites and DNA methylation pattern in the promoter region of a 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase gene

The mRNA for the liver isozyme of 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase is transcribed from the L promoter of gene A. We show here that L-promoter activity is tissue specific. To identify on the gene in situ potential cis-acting sequences, we have examined 15 kb of its 5' region for DNase I-hypersensitive sites detectable on chromatin. We have also evaluated the DNA methylation status of the 3.7-kb encompassing the L promoter. Five DNase I-hypersensitive sites were detected on liver chromatin, three upstream (M1 at position -4500, L2 at position -1000, L1 at position -200) and two downstream (I1 at position +3000, I2 at position +3500) from the L-type mRNA transcription initiation site. Their presence correlated with transcriptional activity as they were not observed on chromatin from kidney, a tissue where gene A is not expressed. Sites M1 and L1 corresponded to the M and L promoters, respectively, providing in vivo evidence for a promoter localization obtained earlier with cloned DNA only. Site I2 coincided with a glucocorticoid-responsive unit described by others, but its presence did not depend on glucocorticoids. Thus, sites L2 and I1 could correspond to novel control elements. While DNA was methylated around position -2000 both in liver and kidney, downstream from that position it was fully demethylated in liver but not in kidney. This pattern changed during development of fetal liver. The data suggest mechanisms for the lack of activity of the L promoter in kidney and for its activation in developing and adult liver.

Comparative study of high-mannose-type oligosaccharides in membrane glycoproteins of rat hepatocytes and different rat hepatoma cell lines

A comparative study was undertaken to characterize the oligosaccharides released by endo-beta-N-acetylglucosaminidase H (endo H) from the membrane glycoproteins of rat hepatocytes and three different Morris hepatoma cell lines (NA-MH 7777, HTC and MH1C1). It is shown that the membrane glycoproteins of hepatocytes and hepatoma cells contain markedly different quantities and forms of high-mannose-type carbohydrate chains. After radiolabelling of the cells with D-[2-3H]mannose, in the absence and presence of 1 mM 1,5-dideoxy-1,5-imino-D-mannitol (1-deoxymannojirimycin), high-mannose-type oligosaccharides were released from delipidated membrane glycoproteins by enzymic digestion with endo H. The carbohydrate chains were converted to their corresponding oligosaccharide alditols by reduction with sodium borohydride, then further analysed by HPLC using an APS-2 Hypersil column. In the absence of 1-deoxymannojirimycin, up to 10% of the radiolabelled oligosaccharides were released by endo H-treatment of the membrane glycoprotein fraction from rat hepatocytes. In contrast, the quantity of radiolabelled high-mannose-type carbohydrate chains released by endo H-treatment from tumour-cell membrane glycoproteins of hepatoma cell lines NA-MH 7777 (31.5%). MH1C1-MH 7795 (37.2%) and HTC-MH 7288c (48%) was increased up to fivefold. The formation of higher-mannosylated structures after oligosaccharide analysis was observed in all hepatoma cell lines, with Man8GlcNAcOH as the major component, whereas in hepatocytes Man5GlcNAcOH was the predominant high-mannose-type structure. In contrast, in the presence of the Golgi alpha-D-mannosidase I inhibitor, 1-deoxymannojirimycin, no significant differences were observed between the distribution of high-mannose-type oligosaccharides in the membrane glycoproteins of hepatocytes and hepatoma cells. However, in the presence of this inhibitor, the proportion of radiolabelled glycans sensitive to deglycosylation by endo H was greatly increased (> 85%) in all the cell lines investigated, the predominant structures being Man8-9-GlcNAcOH. This study shows that an increased content of high-mannose-type sugar chains is a general characteristic of membrane-bound glycoproteins for malignant transformed hepatocytes.

Tissue- and developmental-stage-specific methylation in the two kidney promoters of the rat gamma-glutamyl transpeptidase gene

We have investigated, using DNA methylation patterning, the site-specific methylation of promoters I and II of the rat gamma-glutamyl transpeptidase gene. This analysis was done in fetal, newborn and adult rat kidney, in which promoters I and II are progressively active during development, as well as in rat liver, which never expresses mRNAs from these two promoters. During kidney development, a progressive demethylation occurs in the promoter I and II region, specially at the level of the most proximal MspI site of promoter II. A progressive reorganization of the methylated sites within the 5' end of the gene also occurs during liver development.

Methylation of an alpha-foetoprotein gene intragenic site modulates gene activity

By comparing the methylation pattern of Mspl/Hpall sites in the 5' region of the mouse alpha-foetoprotein (AFP) gene of different cells (hepatoma cells, foetal and adult liver, fibroblasts), we found a correlation between gene expression and unmethylation of a site located in the first intron of the gene. Other sites did not show this correlation. In transfection experiments of unmethylated and methylated AFP-CAT chimeric constructions, we then showed that methylation of the intronic site negatively modulates expression of CAT activity. We also found that a DNA segment centered on this site binds nuclear proteins; however methylation did not affect protein binding.

Transient membrane association of the precursors of cathepsin C during their transfer into lysosomes

Transport of the lysosomal enzyme cathepsin C was studied in Morris hepatoma 7777 cells. Subcellular fractions obtained after isopyenic centrifugation in sucrose gradients of labelled cell homogenates were sequentially extracted by hypo-osmotic shock, Na2CO3 and Triton X-100. Polypeptides related to cathepsin C were immunoprecipitated and analysed by SDS/PAGE and fluorography. At early times after synthesis and for up to 60 min, precursor polypeptides of cathepsin C are distributed in endoplasmic reticulum and Golgi fractions, in membrane-associated form, as Triton X-100 is necessary for their extraction. At 2 h and later after synthesis, intermediate and mature forms of the enzyme can be totally extracted by hypo-osmotic shock from gradient fractions corresponding to the lysosomes of Morris hepatoma 7777 cells.

Development of monoclonal antibodies against different protein and carbohydrate epitopes of dipeptidyl peptidase IV from rat liver plasma membranes

Dipeptidyl peptidase IV (DPP IV) is a serine exopeptidase expressed at high levels in rat kidney, liver and lung. We established eight monoclonal antibodies against partially purified DPP IV from rat liver plasma membranes. By means of a competitive dot blot assay with purified DPP IV, these antibodies were shown to recognize four different epitopes of the glycoprotein, designated A - D. The epitopes are located on the extracellular domain of DPP IV, as shown by papain digestion of liver plasma membranes. Treatment of DPP IV with neuraminidase and glycopeptide N-glycosidase F, as well as incubation of hepatocytes with the alpha-mannosidase I inhibitor deoxymannojirimycin, revealed that epitope A may be formed by a mannose-rich sugar chain and epitope D might represent a complex carbohydrate structure in the mature glycoprotein, while the epitopes B and C are formed by the protein moiety. Concanavalin A reduced the binding of monoclonal antibody to epitope A by 78%. Binding to epitope D was blocked by 73% with wheat germ lectin, and by more than 99% with sialic acid; epitopes B and C were unaffected by any of the lectins or sugars tested. The immunological cross-reactivity with DPP IV from Morris hepatoma 7777 was demonstrated with monoclonal antibodies against epitopes A-C. Epitope D was not recognized on hepatoma DPP IV. However, in addition to DPP IV, four hepatoma plasma membrane glycoproteins were precipitated by the monoclonal antibody against the epitope D, indicating that this epitope is not uniquely restricted to DPP IV.

Chemistry and biology of alpha-fetoprotein

Alpha-Fetoprotein (AFP) is a product of specific fetal tissues and of neoplastic cells of hepatocyte or germ cell origin in adults. This protein belongs to a gene family that is phylogenetically most closely related to serum albumin. Its primary, secondary, and tertiary structural aspects appear similar to the three-domain concept proposed for the latter protein. The primary sequence of AFP departs most widely from serum albumin in the first 135 amino acid residues, with about 42% of the remaining 590 residues of the human proteins being identical. Some evidence exists that there are limited sequence differences in the AFP of a given animal species. AFP shows considerable charge heterogeneity that appears to relate mostly to its glycoid moiety. The proteins of some species such as the rat show more pronounced heterogeneities than that of humans. The variations in extent and type of glycosylations are evidenced by differences in the binding to various lectins. These interactions are being extensively explored in attempts to differentiate the sources of the protein produced by various normal and neoplastic cells and may provide valuable diagnostic methods. AFP, like serum albumin, shows relatively strong binding affinities for a variety of ligands. The most notable difference is the strong preferential binding of polyunsaturated fatty acids by AFP. This protein may play a role in transporting these substances to developing and to malignant cells. Various agents affect the synthesis of this protein both by specific fetal tissues and by neoplastic cells. Marked differences in the responses of cells, particularly those of neoplastic types, are indicative of variations in the genetic factors responsible for control of its synthesis. The subject of the genomic repression of the synthesis of AFP seen in fetal life upon maturation of the liver and the reoccurrence of synthesis upon malignant conversion of hepatocytes and of certain germ cells are of particular interest. The regulation of the closely related AFP and albumin genes is providing a powerful and attractive model to examine molecular events in the activation and inactivation of specific genes during development and in oncogenic processes. Extensive measurements of AFP during pregnancy and in the course of neoplasias, notably hepatoma, are being made to aid in following changes in such developments. Various specific physiological roles for this protein are also being proposed. One of these is its possible action in the regulation of immune processes.(ABSTRACT TRUNCATED AT 400 WORDS)

Dynamics of demethylation and activation of the alpha-actin gene in myoblasts

Transient transfection into L8 myoblasts has been used to study the rat alpha-actin gene promoter. Demodification of specific sites occurs in two stages, with a hemimethylated intermediate formed within a few hours after entry of the alpha-actin gene construct into the cell. The removal of the methyl moiety from the complementary strand takes place after a delay of at least 48 hr, and both events are actively carried out in the absence of DNA replication. By assaying gene activity during the course of the transfection, it was possible to demonstrate that demethylation of both strands at the critical CpG loci is essential to activate transcription. Genetic analysis revealed the existence of cis-acting elements required for demethylation. The recognition of these sites early in the differentiation process probably leads to the demodification events required to make the gene accessible to its transcription factors.

Demethylation of genes in animal cells

Tissue-specific animal cell genes are usually fully methylated in the germ line and become demethylated in those cell types in which they are expressed. To investigate this process, we inserted a methylated IgG kappa gene into fibroblasts and lymphocytes at various stages of development. The results show that this gene undergoes demethylation only in the mature lymphocytes and therefore suggest that the ability to demethylate a gene is developmentally regulated. These studies were supported by similar experiments using the rat Insulin I gene, and in this case it appears that the cis-acting elements that control demethylation may be different from those responsible for gene activation. The ability to demethylate the housekeeping gene APRT is also under developmental control, because this occurs only in embryonic cells, both in tissue culture and in transgenic mice.

The transcription control region of the rat alpha-fetoprotein gene. DNA sequence and homology studies

The alpha-fetoprotein (AFP) gene, an important system for studying developmental and tissue-specific gene expression, is regulated mostly through the control of transcription. The promoter and cis-acting DNA elements which regulate the rat gene lie within a 7 kbp region upstream of the cap site. We have determined the sequence of this entire region. It contains several repetitive elements and a species-specific distribution of DNA methylation sites. We aligned our rat AFP sequence with fragmentary mouse and human AFP sequences to define blocks of highly conserved sequence, which we then analyzed for homology to known transcription regulatory sequences. Our analysis demonstrates that the regulatory region of the rat AFP gene is unusually complex.

The role of methylation in regulating the expression of the alpha-fetoprotein gene in developing rat liver and hepatoma cell lines

We have examined four possible sites of methylation in the 5' flanking region of the alpha-fetoprotein (AFP) gene during liver development in the rat, paying particular attention to the neonatal period, in which AFP gene transcription changes rapidly. These sites are found in MspI/HpaII sites located at -4197, -3038, -2431, and +3 bp relative to the transcription start site. Three of these sites are associated with sequence regions important for the regulation of AFP gene transcription. We found that, in general, the 5' flanking region of the gene was methylated more in the adult liver than in the livers of fetal and neonatal rats. In addition, the degree of methylation of all four sites examined was increased in the adult liver. One of these sites showed increased methylation as AFP gene activity decreased, whereas the other became more methylated only after transcriptional activity of the gene had ceased. In particular, the site (+3 bp) just adjacent to the transcriptional initiation site of the gene was fully methylated in the adult liver. In various rat hepatoma and liver cell lines methylation of this same site showed a particularly close correlation with the amount of transcriptional activity of the AFP promoter in these cell lines. Treatment of the hepatoma and liver cell lines with dexamethasone, which influences AFP gene expression, did not result in any changes in methylation of these sites in the 5' flanking region.

Theoretical mechanisms for synthesis of carcinogen-induced embryonic proteins: XIX. Embryonic genes

The methylation status of a conformation-inducer protein that would effect the status of DNA in relation to its ability to be in an active or inactive state is proposed to be central in the regulation of embryonic genes. Thus a distinction can be drawn between induceable "adult" genes such as glucocorticoid induced tyrosine aminotransferase and induceable "embryonic" genes such as ethionine induced alpha-fetoprotein. However, in the proposed mechanism the methylation of DNA is also important in that a hypomethylated state of a CCGG sequence of a promotor region for a conformation-induced protein gene is required to initiate the induction events.

Differences in methylation patterns of the alpha-fetoprotein and albumin genes in hepatic and non hepatic developing rat tissues

By use of different restriction enzymes sensitive to internal cytosine methylation (HpaII, AvaI, HhaI) we have analysed the methylation patterns of albumin and AFP genes in tissues and cell lines with high (liver, yolk sac, hepatoma cell lines), low (fetal and neonatal kidney) or undetectable (spleen, JF1 fibroblasts) expression of either gene. We show that expression of the AFP gene is associated to the demethylation of a whole region or domain extending from -4 to +3 Kb. Moreover, demethylation of a site located at the upstream limit of this domain appears to be correlated with the commitment of the cell type to synthesize AFP. As concerns the albumin gene, we show that the domain in which demethylation is correlated with active gene transcription in hepatoma cell lines has different borders than in tissue. This difference might be related to the different amounts of mRNA synthesized or to an alteration in gene regulation in tumor cells. Finally, we show that low expression of albumin and AFP genes in fetal and neonatal kidney is not correlated with domain demethylation, suggesting that the regulatory mechanisms of expression of these genes are different in kidney as compared with liver.

Albumin and alpha-fetoprotein gene expression and DNA methylation in rat hepatoma cell lines

To define systems for the study of gene control and differentiation in vitro, we analyzed albumin and alpha-fetoprotein (AFP) gene expression and gene methylation in a series of rat hepatoma-derived cell lines and controls. These cell lines had several specific phenotypes: adult (high albumin and low AFP mRNA), fetal (high albumin, high AFP), embryonic (low albumin, high AFP), or undifferentiated (no albumin or AFP). The adult hepatocyte phenotype is marked by a novel 2.2-kb AFP gene transcript and high DNA methylation. In general, tumor cell lines had higher albumin and AFP gene methylation than hepatocytes in vivo. Levels of total DNA methylation did not determine the methylation patterns of specific genes, except for one cell line with hypermethylated and one with hypomethylated DNA. 5'-Hypomethylation of the AFP gene correlated with gene activity in all cases; the albumin gene showed a similar relationship, but with some exceptions. Only adult hepatocytes, not cell lines, have a unique 3'-region of AFP gene demethylation.

Albumin and alpha-fetoprotein gene transcription in rat hepatoma cell lines is correlated with specific DNA hypomethylation and altered chromatin structure in the 5' region

We examined DNA methylation and DNase I hypersensitivity of the alpha-fetoprotein (AFP) and albumin gene region in hepatoma cell lines which showed drastic differences in the level of expression of these genes. We assayed for methylation of the CCGG sequences by using the restriction enzyme isoschizomers HpaII and MspI. We found two methylation sites located in the 5' region of the AFP gene and one in exon 1 of the albumin gene for which hypomethylation is correlated with gene expression. Another such site, located about 4,000 base pairs upstream from the AFP gene, seems to be correlated with the tissue specificity of the cells. DNase I-hypersensitive sites were mapped by using the indirect end-labeling technique with cloned genomic DNA probes. Three tissue-specific DNase I-hypersensitive sites were mapped in the 5' flanking region of the AFP gene when this gene was transcribed. Similarly, three tissue-specific DNase I-hypersensitive sites were detected upstream from the albumin gene in producing cell lines. In both cases, the most distal sites were maintained after cessation of gene activity and appear to be correlated with the potential expression of the gene. Interestingly, specific methylation sites are localized in the same DNA region as DNase I hypersensitive sites. This suggests that specific alterations of chromatin structure and changes in methylation pattern occur in specific critical regulatory regions upstream from the albumin and AFP genes in rat hepatoma cell lines.

The regulation of albumin and alpha-fetoprotein gene expression in mammals

Albumin and alpha-fetoprotein (AFP) are two plasma proteins synthesized by the liver and the yolk sac. The production of these major proteins is subject to considerable and characteristic variations during both the course of development and hepatic carcinogenesis. It is therefore a system of choice for the analysis of genetic expression during normal differentiation and the cancerous state of eukaryotic cells. The knowledge of regulatory mechanisms at the cellular and molecular levels of the albumin and AFP genes has recently made great progress: 1) the cells which are responsible for the synthesis of albumin and AFP in the liver and other organs have been defined by conjointly using in vitro and in vivo molecular hybridization techniques; 2) the organization of these genes and their adjoining regions has been established in the rat, the mouse and man; 3) the level at which the synthesis of these two proteins is regulated has been determined; it is the transcriptional level. The transcriptional regulation of the albumin and AFP genes could be the result of genome and/or chromatin conformation level modifications. Different groups have shown that: 1) the global structure of the albumin and AFP genes does not change during the course of development and hepatic carcinogenesis; 2) modifications at the level of the methylation of certain specific cytosines could be associated with the variations in the transcription of these genes; 3) global or local (hypersensitive sites with DNase I) changes of chromatin conformation could be correlated to the potential or the overt activity of the transcription of these genes. Very recently certain 'regulatory' regions having cis 'enhancer' or 'silencer' properties have been detected upstream from the albumin and AFP genes. These regions are hypothesized to be DNA 'target' sequences on which trans-acting regulatory factors are fixed and which control the transcription of these genes. Starting from the framework of this recent work, a model of albumin and AFP gene regulation is proposed.

Albumin and alpha-fetoprotein gene transcription in rat hepatoma cell lines is correlated with specific DNA hypomethylation and altered chromatin structure in the 5' region

We examined DNA methylation and DNase I hypersensitivity of the alpha-fetoprotein (AFP) and albumin gene region in hepatoma cell lines which showed drastic differences in the level of expression of these genes. We assayed for methylation of the CCGG sequences by using the restriction enzyme isoschizomers HpaII and MspI. We found two methylation sites located in the 5' region of the AFP gene and one in exon 1 of the albumin gene for which hypomethylation is correlated with gene expression. Another such site, located about 4,000 base pairs upstream from the AFP gene, seems to be correlated with the tissue specificity of the cells. DNase I-hypersensitive sites were mapped by using the indirect end-labeling technique with cloned genomic DNA probes. Three tissue-specific DNase I-hypersensitive sites were mapped in the 5' flanking region of the AFP gene when this gene was transcribed. Similarly, three tissue-specific DNase I-hypersensitive sites were detected upstream from the albumin gene in producing cell lines. In both cases, the most distal sites were maintained after cessation of gene activity and appear to be correlated with the potential expression of the gene. Interestingly, specific methylation sites are localized in the same DNA region as DNase I hypersensitive sites. This suggests that specific alterations of chromatin structure and changes in methylation pattern occur in specific critical regulatory regions upstream from the albumin and AFP genes in rat hepatoma cell lines.

Methylation of the alpha-fetoprotein gene in isogenic rat hepatoma and liver cell lines

We have found that DNA methylation is inversely correlated with alpha-fetoprotein (AFP) gene expression in a series of isogenic rat hepatoma cell lines. The 5' end of the gene is extensively demethylated in AFP-producing cells and is highly methylated in cell lines which do not produce AFP. Glucocorticoid affects markedly the synthesis of AFP in the hepatoma cells. However, methylation patterns of cell lines which were treated with dexamethasone were not different from those of control cells, indicating that glucocorticoid action on AFP gene expression does not alter DNA methylation in this region of the gene.

Developmental acquisition of DNase I sensitivity of the phosphoenolpyruvate carboxykinase (GTP) gene in rat liver

The sensitivity to DNase I digestion of the gene encoding rat phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) was assessed during development and prior to the onset of expression. This gene is resistant to DNase I digestion in nuclei isolated from livers of 19-day rat fetuses. Gradual acquisition of sensitivity of the phosphoenolpyruvate carboxykinase gene, which starts later than the 19th day of gestation and is completed by the 21st day, occurs before initiation of gene expression. As transcription of the phosphoenolpyruvate carboxykinase gene is not detected until birth, the events observed may represent a shift from a dormant to an active gene. Injection of N6,O2-dibutyryladenosine 3',5'-cyclic monophosphate into fetuses on the 19th day of gestation induces gene expression and sensitivity to DNase I digestion within 3 hr of treatment. While this short treatment does not affect the methylation pattern of the gene, longer treatment of fetuses (2 days) with dibutyryl-cAMP results in premature hypomethylation of the gene. A hierarchy of modifications of the phosphoenolpyruvate carboxykinase gene during development is discussed.

DNase I hypersensitivity and methylation of the 5'-flanking region of the alpha 1-fetoprotein gene during developmental and glucocorticoid-induced repression of its activity in rat liver

Three major regions of DNase I hypersensitivity (DH) were found in alpha 1-fetoprotein (AFP) chromatin of rat liver. DH site I is located at the transcription initiation site and associated with ongoing AFP transcription. DH site II is located 2.5 kb upstream from the cap site: it is developmental stage-dependent but dissociable from ongoing AFP transcription. DH site III, 3.7 kb upstream from the cap site, behaves as hepatocyte-constitutive. DH sites are present in similar regions of liver albumin chromatin. Dexamethasone-induced AFP gene repression is accompanied by the selective loss of AFP DH site I, a likely result of glucocorticoid receptors binding to a DNA recognition sequence located 5'-adjacent to DH site I. Sl nuclease-hypersensitive sites were found on naked superhelical AFP and albumin DNA, but do not appear to contribute DH sites in liver chromatin. The extent of hypomethylation of HpaII sites at the 5'-end of the AFP gene correlates positively with the level of potential and actual expression of the gene. We conclude that developmental and hormonal regulation of the AFP gene is confined within congruent to 4 kb of 5'-flanking DNA, and we discuss possible hierarchical interactions among DH sites, in relation to DNA methylation and replication.

Synthesis and secretion of beta-nerve growth factor by mouse teratocarcinoma cell lines

Using a cDNA probe and a two-site enzyme immunoassay, beta-nerve growth factor (beta NGF) synthesis was monitored in several mouse teratocarcinoma cell lines. Trace amounts of NGF mRNA were detected in the embryonal carcinoma (EC) PCC4, F9 and 1003 clones, whereas the myocardial (PCD1), myogenic (1168) and adipogenic (1246) clones contained significantly higher levels of NGF mRNA and secreted mature beta NGF peptide in the culture medium. The 1003, 1168 and 1246 strains were derived from the same teratocarcinoma cell line and their ability or inability to synthesize the neurotrophic factor may reflect a developmental decision for divergent differentiation programs. Induction of NGF mRNA and protein synthesis was observed in a differentiated derivative of an SV40-transformed F9 clone which expresses the viral T antigen. Southern blot analysis of the genomic DNAs revealed no structural alterations of the NGF locus between teratocarcinoma cells that express the NGF gene and those that do not. Similar analysis of the DNA methylation pattern in C-C-G-G sequences using the Hpa II and Msp I isoschizomers indicated no methylation changes of the NGF gene in the teratocarcinoma DNAs. At least two, and probably all four, of the already mapped Msp I sites within the NGF gene are methylated in all teratocarcinoma DNAs examined, as well as in the male mouse submaxillary gland DNA, the organ richest in this factor.

Direct introduction of genes into rats and expression of the genes

A method of introducing actively expressed genes into intact mammals is described. DNA precipitated with calcium phosphate has been injected intraperitoneally into newborn rats. The injected genes have been taken up and expressed by the animal tissues. To examine the generality of the method we have injected newborn rats with the chloramphenicol acetyltransferase prokaryotic gene fused with various viral and cellular gene promoters and the gene for hepatitis B surface antigen, and we observed appearance of chloramphenicol acetyltransferase activity and hepatitis B surface antigen in liver and spleen. In addition, administration of genes coding for hormones (insulin or growth hormone) resulted in their expression.

Undermethylation of structural gene sequences in extraembryonic lineages of the mouse

The first two lineages to differentiate in the mouse embryo are the trophectoderm and primitive endoderm, which give rise to various extraembryonic structures only. Previous work has shown that all derivatives of these two lineages share the property of undermethylation of repetitive DNA sequences, both satellite and dispersed. Here we show that this undermethylation is not a peculiarity of these repetitive elements but is also a feature of structural gene sequences within both lineages. alpha-Fetoprotein, albumin, and major urinary protein gene sequences all showed extensive undermethylation at MspI restriction sites in extraembryonic lineages, which did not correlate with their expression in these tissues. The same sequences were heavily methylated in embryonic tissues as early as 7.5 days of development. There are, therefore, major global differences in DNA methylation between the earliest cell lineages to be established in the mouse embryo. The significance of these differences for cellular commitment events remains to be elucidated.

Activation of alpha-fetoprotein synthesis in rat hepatoma cells with reduced sensitivity to dexamethasone

The Faza 967 'differentiated', dexamethasone (DEX)-sensitive cell line of Reuber rat hepatoma cells does not synthesize detectable amounts of alpha-fetoprotein (AFP), whereas it does produce albumin. AFP production was activated in 'differentiated' variants of Faza 967 cells with reduced glucocorticoid sensitivity upon culture for several months in the presence of high concentrations of dexamethasone. The stability of AFP production differed among the variants, while albumin synthesis did not change, thus indicating that the regulation of these two genes is not co-ordinated. Using molecular hybridization techniques, we found that the AFP message could not be detected in the non-AFP-producing cells, suggesting that the lack of AFP synthesis most probably originates from a transcriptional block of the AFP gene. AFP-producing and non-AFP-producing variants of Faza 967 cells constitute a valuable model system for studying the regulatory mechanisms involved in the activation and inactivation of the gene coding for the oncodevelopmental protein, AFP.

Identification of a 110-kDa glycoprotein involved in cell-substratum adhesion

Plasma membrane glycoproteins are involved in cell-matrix interactions. For identification of such glycoproteins a recently developed cell system was used. Two cell populations differing in their adhesion properties were selected from Morris hepatoma 7777. One population was able to grow as a monolayer, while the other proliferated in suspension. From both cell lines spontaneous revertants were selected. By using antibodies raised against plasma membranes of the hepatoma and of rat liver for sequential immunoprecipitation a glycoprotein of Mr 110000 was identified. This glycoprotein was only expressed in adherent hepatoma cells as well as in normal rat liver, but was absent in non-adherent hepatoma cells and in the in vivo growing Morris hepatoma 7777. This suggests that the glycoprotein is involved in cell-substratum adhesion of hepatocytes and adherent hepatoma cells.

CpG-rich islands and the function of DNA methylation

It is likely that most vertebrate genes are associated with 'HTF islands'--DNA sequences in which CpG is abundant and non-methylated. Highly tissue-specific genes, though, usually lack islands. The contrast between islands and the remainder of the genome may identify sequences that are to be constantly available in the nucleus. DNA methylation appears to be involved in this function, rather than with activation of tissue specific genes.

Methylation of the alphafetoprotein gene in cell populations isolated from rat livers during carcinogenesis

We examined the methylation pattern and organization of the AFP gene in whole livers and in isolated cell populations purified from livers of rats fed a carcinogenic diet which interferes with DNA methylation. Using restriction endonuclease digestion, we find no differences in methylation pattern and overall organization of the AFP gene in oval cells (AFP-producers) and hepatocytes (non-producers) isolated at the early stages of carcinogenesis. Our studies indicate that in cell populations which produce AFP as well as in cells which are not active in AFP synthesis, the majority of the CCGG sites of the AFP gene are extensively methylated. In addition, we describe the existence of polymorphism in the AFP and albumin genes of Sprague-Dawley rats.

Synthesis, transport and processing of cathepsin C in Morris hepatoma 7777 cells and rat hepatocytes

The synthesis, transport and processing of cathepsin C was studied in Morris hepatoma 7777 cells by metabolic labelling, immunoprecipitation and characterization of labelled polypeptides by gel electrophoresis and fluorography. The largest detectable precursor of cathepsin C was a polypeptide of Mr = 92 500. Even 3 min after synthesis this precursor was accompanied by four polypeptides with Mr values ranging from 63 000 to 54 000, indicating cleavage of the precursors within the endoplasmic reticulum. The early forms of cathepsin C were associated with low-buoyant-density organelles containing the markers of endoplasmic reticulum and Golgi complex. About 30% of these early forms were secreted within 3 h after synthesis. The remaining 70% were transferred into dense lysosomes and processed between 2 and 3 h after synthesis to a mixture of the least five major and nine minor polypeptides with Mr values ranging from 73 000 to 12 000. These forms remained stable for at least 3 days. In freshly isolated hepatocytes cathepsin C was processed to forms closely related to those found in the hepatoma cells. Cathepsin C was synthesized in Morris hepatoma 7777 cells as a glycoprotein with mannose-6-phosphate residues that mediated mannose-6-phosphate-specific receptor-dependent uptake in human skin fibroblasts. In contrast to hepatocytes, synthesis of mannose-6-phosphate receptors in Morris hepatoma 7777 cells was below the limit of detection. The hepatoma cells did not express at the cell surface these or other receptors mediating endocytosis of lysosomal enzymes. Further, processing and transport of newly synthesized cathepsin C was largely resistant to NH4Cl. Apparently, cathepsin C is transferred in Morris hepatoma 7777 cells by a mechanism independent of mannose-6-phosphate-specific receptors.

Organization of the albumin and alpha-fetoprotein genes in fetal and adult rat tissues, and rat hepatomas

We compared the organization of the albumin and alpha-fetoprotein (AFP) genes in chromosomal DNA from different fetal and adult rat tissues as well as from two rat hepatomas. These two genes are expressed at widely different levels in the tissues and hepatomas analysed. Southern blots of DNAs digested with the restriction endonucleases EcoRI, HindIII or MspI were hybridized to albumin and AFP complementary DNA (cDNA) and genomic probes. No significant difference was observed in the hybridization patterns obtained for the DNAs from the different tissues, except for some interstrain variation between the chromosomal DNAs isolated from Sprague-Dawley and Buffalo rats, which was due to allelic polymorphism. We cannot rule out the possibility of changes in chromosomal gene organization which would result either in small alterations of restriction fragment size or in translocations of large blocks of DNA containing whole sets of restriction enzyme fragments within the chromosome; however, our results indicate that the gross organization of the albumin and AFP genes remains constant throughout the regulatory processes involved in the tissue- and time-specific transcription of these genes.

Structural basis for restriction-site polymorphism at the albumin locus in inbred strains of rats

Two types of variant EcoRI restriction enzyme patterns of albumin-gene DNA fragments are found in different inbred strains of rats and reflect allelic polymorphism. The structural basis of the two allelic forms has been analyzed by mapping the EcoRI fragments using cloned albumin cDNA probes corresponding to the 5' or 3' end of the rat albumin mRNA and different genomic subclones. Additional restriction fragment length polymorphism has been detected using the restriction endonucleases HindIII and MspI. The results suggest that the two allelic variants differ from each other by multiple cleavage-site variations (base-pair substitutions) and by an insertion or deletion of DNA sequences. An extensive DNA sequence variation appears to exist between the two forms of the albumin gene; we have estimated that as much as 4% of the nucleotides in this region varied between the two alleles. All of this genetic variation is found in the intervening sequences of the gene and has no phenotypic manifestation.

Sequential changes in DNA methylation patterns of the rat phosphoenolpyruvate carboxykinase gene during development

The cytosolic phosphenolpyruvate carboxykinase [PEPCK; GTP:oxaloacetate carboxy-lyase (transphosphorylating), EC 4.1.1.32] gene was isolated from a rat genomic library, and a map of the methylatable sites C-C-G-G and G-C-G-C has been constructed. The extent of methylation of 18 sites in the PEPCK gene in adult liver, kidney, spleen, and heart muscle and in fetal liver has been analyzed using the 5-methylcytosine sensitive enzymes Hpa II and Hha I. This analysis revealed extensive undermethylation of the PEPCK gene in the adult liver and kidney (PEPCK-expressing tissue), whereas the gene in adult spleen and heart muscle as well as in fetal liver (PEPCK-nonexpressing tissues) was heavily methylated. However, unlike the gene in the adult nonexpressing tissues, a region in the middle of the gene was found to be partially hypomethylated in fetal liver. This hypomethylation correlates with the competence of the fetal liver gene to be expressed. Treatment of fetuses by in utero injection of 5-azacytidine causes a hypomethylation-associated activation of the PEPCK gene. Taken together, the present findings suggest a sequential loss of methyl groups during development. When related to PEPCK gene expression, the sequential loss of methyl groups demonstrates an early stage prior to transcription characterized by hypomethylation of discrete sites and a later developmental hypomethylation of all sites associated with the mature active PEPCK gene around the time of birth.

Differential DNase I sensitivity of the albumin and alpha-fetoprotein genes in chromatin from rat tissues and cell lines

We have examined the DNase I sensitivity of the albumin and alpha-fetoprotein (AFP) genes in different rat tissues (adult liver and kidney) and cloned cell lines (hepatoma 7777-C8, JF1 fibroblasts), which show drastic differences in the level of expression of these two genes. This was done by studying the disappearance of defined restriction endonuclease fragments of these genes as a function of limited DNase I digestion. The sensitivity of these genes was compared to that of a gene not expressed in the hepatic cells and to that of a ubiquitously expressed gene. In nuclei from adult rat liver the albumin and AFP genes were preferentially degraded by the nucleolytic action of DNase I, whereas they were not in rat kidney nuclei. In the hepatoma cells the AFP gene was much more sensitive to DNase I digestion than the albumin gene; both genes were very resistant to DNase I action in fibroblastic nuclei. When analyzed in relation to the level of gene expression our results indicate that alterations in the chromatin structure of the albumin and AFP genes might be involved in the early establishment of the tissue-specific potential of overt gene expression; such alterations reflected in an altered DNase I sensitivity do not appear to be responsible for the changes in gene activity occurring during the terminal differentiation of the hepatocyte; and modifications in the chromatin structure of these genes might occur during oncogenic events; these structural modifications could be related to the changes in gene expression observed in hepatocarcinogenic processes.

Spontaneous and 5-azacytidine-induced reexpression of ornithine carbamoyl transferase in hepatoma cells

Rat hepatoma cells that do not synthesize the hepatic enzyme ornithine carbamoyl transferase spontaneously give rise to producing cells at a low frequency. Reexpression of this differentiation trait is strongly increased by 5-azacytidine treatment, suggesting that hypermethylation plays a critical role in the impaired expression of the ornithine carbamoyl transferase gene in hepatoma cells.

Structural variants of the alpha-fetoprotein gene in different inbred strains of rat

Two structural variants of the rat alpha-fetoprotein (AFP) gene have been detected in different inbred strains of rats by EcoRI or HindIII restriction enzyme cleavage of cellular DNA, agarose gel electrophoresis and Southern blot hybridization using 32P-labeled cloned rat AFP cDNA probes. The type I AFP gene variant is characteristic of the Sprague-Dawley strain, and type II is found in Buffalo rats. These variants appear to represent two different allelic forms of the rat AFP gene since they are inherited in a normal Mendelian fashion when Sprague-Dawley and Buffalo rats are crossed. The mapping results suggest that the two allelic variants differ from each other by multiple cleavage site variations (base pair substitutions) and by an insertion or deletion of DNA sequences. An extensive sequence variation appears to exist between the two forms of the rat AFP gene; we have estimated that as much as 2.7% of the nucleotides in this region vary between the two alleles.