Albumin extinction without methylation of its gene

Functional expression of human and mouse low density lipoprotein receptors in hybridomas

Though a mouse.human-human heterohybridoma, N12-16.63, secreting an antitetanus toxoid human monoclonal antibody grew well in a serum-free medium, its high producing subclone N12-69 required SSGF-I, a low density lipoprotein (LDL) from swine serum, or human-LDL (h-LDL) for growth. The growth-promoting action of SSGF-I was caused by its lipid fraction, and SSGF-I could be replaced completely with cholesterol in the presence of bovine serum albumin (BSA). Thus, cell line N12-69 is a cholesterol auxotroph of the heterohybridoma. N12-69 cells express both mouse and human LDL receptors on the cell surface in a ratio of 1:4. SSGF-I bound to both receptors with the same binding affinity, and h-LDL was also take up by the same receptors, though the affinity constant of the receptors for SSGF-I was 1.5 times stronger than that for h-LDL. The growth of N12-69 cells was completely inhibited by the addition of dextran sulfate, which is known to inhibit the binding of LDL to LDL receptors, to an SSGF-I or h-LDL containing medium but was not inhibited at all when dextran sulfate was added to a serum-free medium supplemented with cholesterol and BSA. Furthermore, an anti-human LDL receptor monoclonal antibody partially inhibited the growth of N12-69 cells in an SSGF-I or h-LDL containing medium. These findings suggest that N12-69 cells express both biologically active mouse and human LDL receptors on their cell surfaces and that SSGF-I or h-LDL is taken up by the both receptors to be utilized as a cholesterol source for the growth.

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.

A liver-specific factor essential for albumin transcription differs between differentiated and dedifferentiated rat hepatoma cells

We have identified and characterized two mutually exclusive nuclear proteins that interact with a single crucial element of the albumin promoter. One, albumin proximal factor (APF), is found only in liver or differentiated hepatoma cells and is probably identical to the liver-specific factor named HNF1, alpha 1TFB, or HP1-binding protein. The other, variant albumin proximal factor (vAPF), is present in dedifferentiated hepatoma cells as well as in somatic cell hybrids that show extinction of the expression of liver-specific proteins, including albumin. Reversion to the hepatic phenotype of either a dedifferentiated variant or an extinguished somatic hybrid clone is accompanied by loss of vAPF and reappearance of APF. These two proteins differ in their thermostability and in their molecular weight, while displaying identical sequence specificities. Both proteins interact with a homologous motif present in promoter regions of several other liver-specific genes. In vitro transcription assays, using a rat liver nuclear extract, indicate that the binding of APF to its target sequence is required for albumin transcription. These results suggest that a modification in the primary structure of a transcription factor is correlated with the differentiated state of the hepatic cell.

A domain of methylation change at the albumin locus in rat hepatoma cell variants

A well-differentiated rat hepatoma cell line, Fu5-5, yields variant clones whose rate of secretion of serum albumin ranges from 40 to less than 0.08 micrograms of albumin/mg of cell protein per 48 h. Clones were classified as high producers (10 to 40 micrograms/mg per 48 h), intermediate producers (1 to 10 micrograms/mg per 48 h), low producers (0.1 to 1.0 micrograms/mg per 48 h), and null variants (less than 0.1 micrograms/mg per 48 h). Albumin synthetic rates are proportional to secretion rates and range from 0.9 to less than 0.002% of total protein synthesis as measured by pulse-labeling. Steady-state albumin mRNA levels were measured by filter hybridization of fragmented, end-labeled mRNA and by Northern blotting. Message levels are proportional to albumin synthetic rates except for a high producer in which albumin mRNA is less elevated than the synthetic rate. The extent of methylation was quantitated at each of 24 CpG-containing sites or site clusters at the albumin locus. These sites span a region that contains the albumin gene as well as 10 kilobases of the 5' flank and 1 kilobase of the 3' flank. An 8-kilobase region is described, with boundaries in the 5' flank and in the middle of the gene, within which all 11 sites examined showed a correlation of undermethylation with the high-producer phenotype. In contrast, 12 of 13 sites outside of this region showed no phenotype correlation. Null variants derived from a high producer underwent de novo methylation of this domain. Six independent hybrid clones derived from the cross of a high producer with a null variant showed extinction of albumin production and hypermethylation of the domain. Apparently these cells retain the capacity for the de novo methylation of these specific sites.

A domain of methylation change at the albumin locus in rat hepatoma cell variants

A well-differentiated rat hepatoma cell line, Fu5-5, yields variant clones whose rate of secretion of serum albumin ranges from 40 to less than 0.08 micrograms of albumin/mg of cell protein per 48 h. Clones were classified as high producers (10 to 40 micrograms/mg per 48 h), intermediate producers (1 to 10 micrograms/mg per 48 h), low producers (0.1 to 1.0 micrograms/mg per 48 h), and null variants (less than 0.1 micrograms/mg per 48 h). Albumin synthetic rates are proportional to secretion rates and range from 0.9 to less than 0.002% of total protein synthesis as measured by pulse-labeling. Steady-state albumin mRNA levels were measured by filter hybridization of fragmented, end-labeled mRNA and by Northern blotting. Message levels are proportional to albumin synthetic rates except for a high producer in which albumin mRNA is less elevated than the synthetic rate. The extent of methylation was quantitated at each of 24 CpG-containing sites or site clusters at the albumin locus. These sites span a region that contains the albumin gene as well as 10 kilobases of the 5' flank and 1 kilobase of the 3' flank. An 8-kilobase region is described, with boundaries in the 5' flank and in the middle of the gene, within which all 11 sites examined showed a correlation of undermethylation with the high-producer phenotype. In contrast, 12 of 13 sites outside of this region showed no phenotype correlation. Null variants derived from a high producer underwent de novo methylation of this domain. Six independent hybrid clones derived from the cross of a high producer with a null variant showed extinction of albumin production and hypermethylation of the domain. Apparently these cells retain the capacity for the de novo methylation of these specific sites.

Sex- and tissue-specific, but hormonally independent, demethylation at the 3'-end of Xenopus vitellogenin gene B1

We describe three HpaII-specifying sequences in 6 kbp of DNA at the 3'-end of Xenopus vitellogenin gene B1 (two within the coding sequence and one downstream) which remain methylated in all tissues of adult male Xenopus. These sites are however fully demethylated exclusively in adult Xenopus liver parenchymal cells but not in oviduct, kidney or erythrocytes. Developmental studies suggest that this tissue- and sex-specific demethylation may occur gradually after metamorphosis. The methylation of these 3'-sites is independent of transcriptional activation by oestrogen of vitellogenin genes in male or female Xenopus.

Molecular mechanisms of extinction of liver-specific functions in mouse hepatoma rat fibroblast hybrids: extinction of alpha-fetoprotein gene

Somatic cell hybrids formed by the fusion of mouse hepatoma (BWTG3) and rat fibroblast (JF1) cells exhibit the extinction of mouse AFP gene expression. Analysis of HindIII digests clearly shows that both mouse and rat AFP genes are present in the hybrids. DNA-RNA hybridization data show that AFP mRNA is virtually absent in the somatic cell hybrids. Our studies indicate, therefore, that extinction of mouse AFP gene expression in somatic cell hybrids (BJ01, BJ50, and BJ140) occurs in the presence of the rat genes and that the mechanism of extinction involves processes that result in the loss of AFP mRNA. We propose that the mechanism may involve either the inhibition of transcription or an inhibition of the processing of the mRNA transcript.

Regulation of Thy-1 and Pgp-1 glycoproteins in hybrids between T-cell lymphomas and Abelson-leukemia-virus-induced lymphomas

Most cells in the normal adult mouse thymus express Thy-1 glycoprotein but do not express Pgp-1 glycoprotein. In contrast, cells of the mouse B-cell lineage are Thy-1 negative and Pgp-1 positive. Somatic cell hybrids between pseudodiploid Thy-1+, Pgp-1- T-cell lymphomas and pseudotetraploid Thy-1-, Pgp-1+ Abelson-leukemia-virus-induced cell lines do not express detectable cell-surface Thy-1 but show activation of the T-cell Pgp-1 glycoprotein. Hybrids between pseudodiploid lines, in contrast, show extinction of Pgp-1. Thy-1+ or Pgp-1+ revertants were isolated by cell sorting from hybrids in which extinction occurred, demonstrating that all genes required for expression of these cell-surface antigens were present in antigen-negative hybrids. Thy-1- hybrids did not contain detectable cytoplasmic Thy-1 messenger RNA, while Thy-1 message could be detected in parental lines and Thy-1+ revertants. No obvious rearrangements of the Thy-1 structural genes could be demonstrated in Thy-1- hybrids and their Thy-1+ revertants, nor could rearrangements be demonstrated when parental cells and Thy-1- hybrids were compared. These results are consistent with the idea that diffusible gene products regulate both Thy-1 and Pgp-1 expression in these hybrids. These products act in a gene dosage-dependent manner in somatic cell hybrids. Regulation of Thy-1 is at the level of either messenger RNA transcription or processing.