R. E. K. Fournier

Human Matrix Attachment Regions Insulate Transgene Expression from Chromosomal Position Effects in Drosophila melanogaster

ABSTRACT Germ line transformation of white−Drosophila embryos with P-element vectors containingwhite expression cassettes results in flies with different eye color phenotypes due to position effects at the sites of transgene insertion. These position effects can be cured by specific DNA elements, such as the Drosophila scs and scs′elements, that have insulator activity in vivo. We have used this system to determine whether human matrix attachment regions (MARs) can function as insulator elements in vivo. Two different human MARs, from the apolipoprotein B and α1-antitrypsin loci, insulatedwhite transgene expression from position effects inDrosophila melanogaster. Both elements reduced variability in transgene expression without enhancing levels of whitegene expression. In contrast, expression of whitetransgenes containing human DNA segments without matrix-binding activity was highly variable in Drosophila transformants. These data indicate that human MARs can function as insulator elements in vivo.

Physical mapping of human chromosome 17 using fragment-containing microcell hybrids

Hybrid cell lines were generated by microcell-mediated transfer of human chromosome 17 into rat recipient cells. The genotypes of 36 such lines were analyzed using a set of human chromosome 17-derived sequences to probe the structural integrity of the chromosome. Four classes of hybrids were obtained: clones with an apparently intact chromosome 17, clones containing large fragments of the chromosome including both the centromere and the selected marker, clones containing only the selected marker and flanking sequences, and clones containing two 17-derived fragments--the pericentric region plus the region of the selected marker. Data from these hybrids were used in conjunction with published regional localization information to obtain a provisional linear map of the chromosome. Results of this analysis are compared to the gene maps predicted from recent linkage studies and from other somatic cell hybrid experiments.

Genetic analysis of a transcriptional activation pathway by using hepatoma cell variants.

A hierarchy of liver-enriched transcription factors plays an important role in activating expression of many hepatic genes. In particular, hepatocyte nuclear factor 4 (HNF-4) is a major activator of the gene encoding HNF-1, and HNF-1 itself activates expression of more than 20 liver genes. To dissect this activation pathway genetically, we prepared somatic cell variants that were deficient in expression of the liver-specific alpha 1-antitrypsin (alpha 1AT) gene, which requires both HNF-1 and HNF-4 for high-level gene activity. This was accomplished in two steps. First, hepatoma transfectants that stably expressed two selectable markers under alpha 1AT promoter control were prepared; second, variant sublines that could no longer express either transgene were isolated by direct selection. In this report, we demonstrate that the variants contain defects in the HNF-4/HNF-1 activation pathway. These defects functioned in trans, as expression of many liver genes was affected, but the variant phenotypes were recessive to wild type in somatic cell hybrids. Three different variant classes could be discriminated by their phenotypic responses to ectopic expression of either HNF-4 or HNF-1. Two variant clones appeared specifically deficient in HNF-4 expression, as transfection with an HNF-4 expression cassette fully restored their hepatic phenotypes. Another line activated HNF-1 in response to forced HNF-4 expression, but activation of downstream genes failed to occur. One clone was unresponsive to either HNF-1 or HNF-4. Using the variants, we demonstrate further that the chromosomal genes encoding alpha 1AT, aldolase B, and alpha-fibrinogen display strict requirements for HNF-1 activation in vivo, while other liver genes were unaffected by the presence or absence of HNF-1 or HNF-4. We also provide evidence for the existence of an autoregulatory loop in which HNF-1 regulates its own expression through activation of HNF-4.

Direct selection of hepatoma cell variants deficient in α1-antitrypsin gene expression

Expression plasmids containing the human α1-antitrypsin (α1 AT) promoter fused to either adenine phosphoribosyltransferase (aprt) or xanthine-guanine phosphoribosyltransferase (gpt) coding sequences were sequentially introduced into APRT− HPRT− rat hepatoma cells. Stable transfectants expressing both transgenes were isolated and characterized. Nonexpressing variants were subsequently obtained by selecting against expression of one or both transgenes. Variants isolated by selecting against expression of either transgene alone generally displayed deficiency phenotypes incis, as only three of 20 clones tested were affected for expression of α1AT mRNA. In contrast, double selection yielded predominantlytrans effects: 12 of 14 lines tested showed impaired ability to express their chromosomal α1AT genes. Furthermore, expression of several other liver genes, including the gene encoding the HNF-1trans-activator, was repressed in many of the variant lines. Thus, double selection using chimeric transgenes is a useful approach for generating variant cell lines deficient in expression of specific mammalian genes.

Human matrix attachment regions are necessary for the establishment but not the maintenance of transgene insulation in Drosophila melanogaster.

ABSTRACT Human matrix attachment regions (MARs) can insulate transgene expression from chromosomal position effects in Drosophila melanogaster. To gain insight into the mechanism(s) by which chromosomal insulation occurs, we studied the expression phenotypes of Drosophila transformants expressing mini-white transgenes in which MAR sequences from the human apoB gene were arranged in a variety of ways. In agreement with previous reports, we found that a single copy of the insulating element was not sufficient for position-independent transgene expression; rather, two copies were required. However, the arrangement of the two elements within the transgene was unimportant, since chromosomal insulation was equally apparent when both copies of the insulator were upstream of the mini-white reporter as when the transcription unit was flanked by insulator elements. Moreover, experiments in which apoB 3′ MAR sequences were removed from integrated transgenes in vivo by site-specific recombination demonstrated that MAR sequences were required for the establishment but not for the maintenance of chromosomal insulation. These observations are not compatible with the chromosomal loop model in its simplest form. Alternate mechanisms for MAR function in this system are proposed.

Chromosomal Elements Regulate Gene Activity and Chromatin Structure of the Human Serpin Gene Cluster at 14q32.1

ABSTRACT The human serine protease inhibitor (serpin) gene cluster at 14q32.1 contains a number of genes that are specifically expressed in hepatic cells. Cell-specific enhancers have been identified in several of these genes, but elements involved in locus-wide gene and chromatin control have yet to be defined. To identify regulatory elements in this region, we prepared a series of mutant chromosomal alleles by homologous recombination and transferred the specifically modified human chromosomes to hepatic cells for functional tests. We report that deletion of an 8-kb DNA segment upstream of the human α1-antitrypsin gene yields a mutant serpin allele that fails to be activated in hepatic cells. Within this region, a 2.3-kb DNA segment between kb −8.1 and −5.8 contains a previously unrecognized control region that is required not only for serpin gene activation but also for chromatin remodeling of the entire locus.

Tissue-specific extinguisher loci in the human genome: A screening study based on random marking and transfer of human chromosomes

Expression of many liver-specific genes is extinguished when cultured hepatoma cells are fused with fibroblasts, but liver genes can be reexpressed in hybrid segregants that have lost fibroblast chromosomes. To map extinguisher loci involved in this process, hepatoma microcell hybrids retaining single fibroblast chromosomes have been employed. Two different,trans-dominant loci that affect liver gene expression have been defined in this way. To determine whether other monochromosomal extinction phenotypes could be observed, we inserted a selectable marker into many human chromosomal sites and transferred the marked human chromosomes into rat hepatoma recipient cells by microcell fusion. Nearly 200 microcell hybrid clones were isolated and screened for expression of liver-specific mRNAs. Most liver transcripts continued to be expressed. However, PEPCK mRNA was extinguished in 12 hybrid clones. Some of these hybrids contained humanTSE1, the previously characterized extinguisher locus on chromosome 17, but others contained a novel extinguishing function that mapped to human chromosome 14. The implications of these findings are discussed.

Multiple elements regulate phosphoenolpyruvate carboxykinase gene expression in hepatoma hybrid cells

The phosphoenolpyruvate carboxykinase (PEPCK) gene is highly expressed in cultured rat hepatoma cells, but extinguished in hepatoma × fibroblast hybrids. Extinction of PEPCK gene expression in hybrids is a polygenic process that involves several fibroblast loci, only one of which (tissue-specific extinguisher-1, TSE1) has been characterized to date. To identify sequence elements of the PEPCK gene that are involved both in TSE1-mediated extinction and in TSE1-independent processes, we assayed expression of chimeric PEPCK transgenes in transiently and stably transfected hybrid cells. We report that TSE1 responsiveness mapped to the PEPCK CRE (cAMP response element), as shown previously for the tyrosine aminotransferase gene. This was expected from the recent identification of the TSE1 gene product as a regulatory subunit of protein kinase A. However, none of the transgenes we assayed were responsive to TSE1-independent extinction mechanisms, suggesting that these controls require DNA sequences and/or chromatin structures that were not present in the transfected reporters. The implications of these findings are discussed.

Tissue-specific extinguisher loci in the murine genome: a screening study based on a rat/mouse microcell hybrid panel.

Extinction of tissue-specific traits in intertypic somatic cell hybrids is a well-known phenomenon. In the past few years, microcell hybrids have been used in attempts to dissect this phenotype genetically, and tissue-specific extinguisher loci have been mapped to two different mouse chromosomes. When transferred from fibroblasts into hepatoma cells by microcell fusion, these loci down-regulate expression of specific liver genes intrans. However, other liver genes that are extinguished in genotypically complete hybrids seem not to be extinguished in monochromosomal hybrids. To assess the generality of monochromosomal extinction phenotypes, we assembled a collection of rat hepatoma/mouse fibroblast microcell hybrids that represent most of the mouse chromosome complement, and we screened them for expression of a large number of liver-specific genes. Phosphoenolpyruvate carboxykinase gene expression was down-regulated in hybrids containing mouse chromosome 7 or mouse chromosome 11, but other extinction phenotypes were not readily apparent. These results indicate that extinction of many liver genes may be a polygenic trait.

Partial Activation of Gene Activity and Chromatin Remodeling of the Human 14q32.1 Serpin Gene Cluster by HNF-1α and HNF-4 in Fibroblast Microcell Hybrids

The genes encoding α1-antitrypsin (α1AT, gene symbol PI) and corticosteroid-binding globulin (CBG) are part of a cluster of serine protease inhibitor (serpin) genes on human chromosome 14q32.1. Both genes are highly expressed in the liver and in cultured hepatoma cells, and the ∼100-kb region around these genes contains an extensive array of expression-associated DNase I-hypersensitive sites (DHSs). Activation of human α1AT and CBG transcription occurred when human chromosome 14 was transferred from nonexpressing cells to rat hepatoma cells. This activation event was accompanied by long-range chromatin reorganization of the entire region and the de novo formation of 17 expression-associated DHSs. Both gene activation and chromatin remodeling in hepatic cells required the liver-enriched transactivators hepatocyte nuclear factors-1α and -4 (HNF-1α and HNF-4). In this study, we tested whether ectopic expression of HNF-1α and HNF-4 in nonexpressing cells could activate α1AT and/or CBG transcription, and we monitored the chromatin structure of the locus in stably transfected fibroblasts. We report that both α1AT and CBG mRNAs were expressed in fibroblast transfectants that stably expressed HNF-1α and HNF-4, but expression was only ∼1–10% of that observed in hepatic cells. Gene activation in these cells was accompanied by partial chromatin remodeling, as 6 of 17 expression-associated DHSs were formed. The potential implications of these results are discussed.