Regional assignment of the gene for diphtheria toxin sensitivity using subchromosomal fragments in microcell hybrids

The anti-tumour agent, cisplatin, and its clinically ineffective isomer, transplatin, produce unique gene expression profiles in human cells

Cisplatin is a DNA-damaging anti-cancer agent that is widely used to treat a range of tumour types. Despite its clinical success, cisplatin treatment is still associated with a number of dose-limiting toxic side effects. The purpose of this study was to clarify the molecular events that are important in the anti-tumour activity of cisplatin, using gene expression profiling techniques. Currently, our incomplete understanding of this drug's mechanism of action hinders the development of more efficient and less harmful cisplatin-based chemotherapeutics. In this study the effect of cisplatin on gene expression in human foreskin fibroblasts has been investigated using human 19K oligonucleotide microarrays. In addition its clinically inactive isomer, transplatin, was also tested. Dualfluor microarray experiments comparing treated and untreated cells were performed in quadruplicate. Cisplatin treatment was shown to significantly up- or down-regulate a consistent subset of genes. Many of these genes responded similarly to treatment with transplatin, the therapeutically inactive isomer of cisplatin. However, a smaller proportion of these transcripts underwent differential expression changes in response to the two isomers. Some of these genes may constitute part of the DNA damage response induced by cisplatin that is critical for its anti-tumour activity. Ultimately, the identification of gene expression responses unique to clinically active compounds, like cisplatin, could thus greatly benefit the design and development of improved chemotherapeutics.

Heparin-binding EGF-like growth factor

HB-EGF is a heparin-binding member of the EGF family that was initially identified in the conditioned medium of human macrophages. Soluble mature HB-EGF is proteolytically processed from a larger membrane-anchored precursor and is a potent mitogen and chemotactic factor for fibroblasts, smooth muscle cells but not endothelial cells. HB-EGF activates two EGF receptor subtypes, HER1 and HER4 and binds to cell surface HSPG. The transmembrane form of HB-EGF is a juxtacrine growth and adhesion factor and is uniquely the receptor for diphtheria toxin. HB-EGF gene expression is highly regulated, for example by cytokines, growth factors, and transcription factors such as MyoD. HB-EGF has been implicated as a participant in a variety of normal physiological processes such as blastocyst implantation and wound healing, and in pathological processes such as tumor growth, SMC hyperplasia and atherosclerosis.

The membrane protein CD9/DRAP 27 potentiates the juxtacrine growth factor activity of the membrane-anchored heparin-binding EGF-like growth factor

The membrane-anchored heparin-binding EGF-like growth factor precursor (proHB-EGF)/diphtheria toxin receptor (DTR) belongs to a class of transmembrane growth factors and physically associates with CD9/DRAP27 which is also a transmembrane protein. To evaluate the biological activities of proHB-EGF/DTR as a juxtacrine growth factor and the biological significance of its association with CD9/DRAP27, the mitogenic activity of proHB-EGF/DTR was analyzed using stable transfectants of mouse L cells expressing both human proHB-EGF/DTR and monkey CD9/DRAP27, or either one alone. Juxtacrine activity was assayed by measuring the ability of cells in co-culture to stimulate DNA synthesis in an EGF receptor ligand dependent cell line, EP170.7. LH-2 cells expressing human proHB-EGF/DTR stimulated EP170.7 cell growth moderately. However, LCH-1 cells, a stable co-transfectant expressing both human proHB-EGF/DTR and monkey CD9/DRAP27 cDNAs, dramatically unregulated the juxtacrine growth factor activity of proHB-EGF/DTR approximately 25 times over that of LH-2 cells even though both cell types expressed similar levels of proHB-EGF/DTR on the cell surface. Anti-CD9/DRAP27 antibodies which were not able to neutralize the mitogenic activity of soluble HB-EGF suppressed LCH-1 cell juxtacrine growth activity to the same extent as did anti-HB-EGF neutralizing antibodies and CRM 197, specific inhibitors of human HG-EGF. These findings suggest that optimal expression of the juxtacrine growth activity of proHB-EGF/DTR requires co-expression of CD9/DRAP27. These studies also indicate that growth factor potentiation effects which have been observed previously for soluble growth factors also occurs at the level of cell surface associated growth factors.

The 27-kD diphtheria toxin receptor-associated protein (DRAP27) from vero cells is the monkey homologue of human CD9 antigen: expression of DRAP27 elevates the number of diphtheria toxin receptors on toxin-sensitive cells

Diphtheria toxin (DT) receptor associates with a 27-kD membrane protein (DRAP27) in monkey Vero cells. A cDNA encoding DRAP27 was isolated, and its nucleotide sequence was determined. The deduced amino acid sequence revealed that DRAP27 is the monkey homologue of human CD9 antigen. DRAP27 is recognized by CD9 antibodies. A human-mouse hybrid cell line (3279-10) possessing human chromosome 5, sensitive to DT, but not expressing CD9 antigen, was used for transfection experiments with DRAP27. When the cloned cDNA encoding DRAP27 was transiently expressed in 3279-10 cells, the total DT binding capacity was three to four times higher than that of untransfected controls. Transfectants stably expressing DRAP27 have an increased number of DT binding sites on the cell surface. Furthermore, the transfectants are 3-25 times more sensitive to DT than untransfected cells, and the sensitivity of these cells to DT is correlated with the number of DRAP27 molecules on the surface. However, when the cloned cDNA was introduced into mouse cell lines that do not express DT receptors, neither an increased DT binding nor enhancement of DT sensitivity was observed. Hence, we conclude that DRAP27 itself does not bind DT, but serves to increase DT binding and consequently enhances DT sensitivity of cells that have DT receptors. 12 proteins related to DRAP27/CD9 antigen were found through homology search analysis. These proteins appear to belong to a new family of transmembrane proteins.

Banding profiles of LTR of human endogenous retrovirus HERV-A in 24 chromosomes in somatic cell hybrids

The human genome carries multiple copies of sequences related to endogenous retroviral genomes. We investigated the distribution of one of these sequences, HERV-A, in 24 human chromosomes by Southern analyses using DNAs from flow-sorted chromosomes or rodent cells carrying a single human chromosome. The results showed that HERV-A is distributed among all human chromosomes and that each chromosome has a specific Southern blot profile. The chromosome-specific pattern did not show significant polymorphism, except in a few cases, when the same chromosome obtained from different individuals was compared. These chromosome-specific Southern hybridization profiles may be useful for chromosome karyotyping. This would allow the integrity of human chromosomes in human-rodent somatic cell hybrids to be monitored without using conventional cytogenetic methods.

Monoclonal antibodies specific for human chromosome 5 obtained with a monochromosomal hybrid can be used to sort out cells containing the chromosome with a FACS

Using a human-mouse monochromosomal hybrid, BG15-6, that contains an intact human chromosome 5, we isolated four monoclonal antibodies, 2A10, 3H9, 5G9, and 6G12, as chromosome marker antibodies recognizing cell surface antigens specific for human chromosome 5. The binding patterns of these antibodies to BG15 subclones containing fragments of human chromosome 5 indicated that 2A10, 3H9, and 6G12 recognized the antigens produced by genes located on 5pter-q22, and that 5G9 recognized the antigen produced by a gene located on 5q23. Cells containing human chromosome 5 were very effectively sorted in a fluorescence-activated cell sorter (FACS) using monoclonal antibody 6G12. This method for sorting cells containing human chromosome 5 or an appropriate fragment of this chromosome from among human-rodent hybrid cells should be very useful in studies on gene expression, gene cloning and gene mapping.

Isolation of diphtheria toxin-sensitive mouse cells from a toxin-resistant population transfected with monkey DNA

Diphtheria toxin (DTX)-sensitive mouse cells were isolated from a toxin-resistant thymidine kinase (TK)-negative L-M(TK-) mouse cell population that was transfected with DNA from highly toxin-sensitive monkey Vero cells. Sensitivity to DTX was screened by using a replica plate assay. The purified toxin-sensitive mouse cells were characterized with respect to their ability to bind, internalize, and translocate DTX into the cytosol. In contrast to the L-M(TK-) cells, these DTX-sensitive mouse cells were able to bind and internalize radioiodinated toxin into intracellular vesicles at 37 degrees C. Specific binding of radioiodinated toxin to their cell surface (at 4 degrees C) could not be demonstrated. However, the following evidence for functional receptors capable of binding DTX was obtained: (i) when the toxin-sensitive mouse cells were first allowed to bind DTX at 4 degrees C, followed by washing the cells and shifting the temperature to 37 degrees C (allowing cell surface-bound toxin to enter the cells), the cells were killed; (ii) when cells with surface-bound DTX were exposed briefly to an acidic medium (allowing the toxin to penetrate the plasma membrane directly), protein synthesis was inhibited; and (iii) when cells were incubated with DTX in the presence of the CRM 197, a nontoxic form of DTX with binding properties similar to native DTX, the cytotoxic effect of DTX was markedly decreased. The results demonstrate that the toxin-sensitive mouse cells are killed by a mechanism similar to that observed in naturally occurring toxin-sensitive cell lines. The data further suggest that the transfected mouse cells express functional receptors for DTX.

Monochromosomal rodent-human hybrids from microcell fusion of human lymphoblastoid cells containing an inserted dominant selectable marker

An improved system for the production of a series of rodent-human hybrids selectively retaining single human chromosomes marked in known locations is described. Such hybrids have significant applications in gene mapping and other genetic studies. Human lymphoblastoid lines were infected with the retroviral vector SP-1, which contains the bacterial his-D gene allowing mammalian cells to grow in the presence of histidinol. Microcell fusion of the infected lymphoblastoid cells with CHO cells was used to produce hybrids containing single human chromosomes retained by histidinol selection. Hybrids containing a single human chromosome 9 and a single human chromosome 19 are described. These have been characterized cytogenetically by G-banding, in situ hybridization, and Southern blot analysis.

Molecular analysis of the isochromosome 12P in the Pallister-Killian syndrome. Construction of a mouse-human hybrid cell line containing an i(12p) as the sole human chromosome

An iso 12p chromosome from a patient with Pallister-Killian syndrome was successfully transferred into a mouse background by microcell-mediated chromosome transfer. The presence of the i(12p) chromosome was confirmed by karyotyping and by Southern blotting using five 12p and seven 12q probes. The isochromosome nature of the marker chromosome was confirmed by co-hydridization of a 12p probe with a 12q and an 8q probe. This cell line should be a valuable tool for physical mapping of 12p-derived DNA fragments; at the same time, it confirms the identity of the extra chromosome in the Pallister-Killian syndrome as i(12p).

A genetic method to quantitate induced chromosome breaks using a mouse/human monochromosomal hybrid cell line: identification of potential clastogenic agents

A genetic assay to detect the clastogenic potential of environmental agents is described. This assay is based on the cloning efficiency of cells in a medium that permits the growth of cells following loss of a specific chromosome segment resulting from a chromosome break. For this purpose a mouse/human hybrid cell line R12-2 containing a dominantly marked chromosome 5 as the only human component has been constructed. This chromosome 5 carries two dominant selectable markers, Ecogpt and the gene for sensitivity to diphtheria toxin (DTs). Ecogpt codes for the enzyme xanthine-guanine phosphoribosyltransferase which allows selection for cells containing chromosome 5 or the segment carrying Ecogpt as judged by growth in medium supplemented with mycophenolic acid and xanthine (MX medium). Human cells are sensitive to 10(-13) M DT, whereas mouse cells are resistant to 10(-7) M DT and DTs is expressed as a dominant phenotype. Cultivation of R12-2 cells in the medium containing 10(-13) M DT permit the selection of cells that have lost chromosome 5 or the segment carrying DTs. The presence of two selectable markers on the same chromosome permits the identification and quantitation of cells for the selective loss of a specific chromosome segment. Growth of R12-2 cells in MX medium containing 10(-13) M DT therefore, provides a convenient method to determine the frequency of clastogen induced breaks in chromosome 5. The utility of the proposed genetic assay is assessed using X-irradiation as a model clastogen. Our results clearly show a dose related response that is consistent with cytogenetic observations.