Colocalisation of CD9 and mortalin in CD9-induced mitotic catastrophe in human prostate cancer cells.

CD9, a member of the tetraspanin family of proteins, is involved in a variety of cellular interactions with many other proteins and molecules. Although CD9 has been implicated in cell fusion, migration and cancer progression, the detailed function of this protein is not completely understood and likely depends on interactions with different protein partners, which are not yet all known. Using co-immunoprecipitation and mass-spectrometric protein sequencing, we have identified in prostate cancer cells, a novel CD9 partner, the 75-kDa protein HSPA9B, also known as mortalin. We further show that introduction and overexpression of wild-type CD9 into human PC-3 prostate cancer cells induces mitotic catastrophe. We also demonstrate, by immunocolocalisation studies, the interaction of CD9 and mortalin in PC-3 cells undergoing mitotic catastrophe. Our results not only identified mortalin as a new CD9 partner, but also clarify the mechanisms by which CD9 may control prostate cancer progression.

Transfer of chromosome 3 fragments suppresses tumorigenicity of an ovarian cancer cell line monoallelic for chromosome 3p.

Multiple chromosome 3p tumor suppressor genes (TSG) have been proposed in the pathogenesis of ovarian cancer based on complex patterns of 3p loss. To attain functional evidence in support of TSGs and identify candidate regions, we applied a chromosome transfer method involving cell fusions of the tumorigenic OV90 human ovarian cancer cell line, monoallelic for 3p and an irradiated mouse cell line containing a human chromosome 3 in order to derive OV90 hybrids containing normal 3p fragments. The resulting hybrids showed complete or incomplete suppression of tumorigenicity in nude mouse xenograft assays, and varied in their ability to form colonies in soft agarose and three-dimensional spheroids in a manner consistent with alteration of their in vivo tumorigenic phenotypes. Expression microarray analysis identified a set of common differentially expressed genes, such as SPARC, DAB2 and VEGF, some of which have been shown implicated in ovarian cancer. Genotyping assays revealed that they harbored normal 3p fragments, some of which overlapped candidate TSG regions (3p25-p26, 3p24 and 3p14-pcen) identified previously in loss of heterozygosity analyses of ovarian cancers. However, only the 3p12-pcen region was acquired in common by all hybrids where expression microarray analysis identified differentially expressed genes. The correlation of 3p12-pcen transfer and tumor suppression with a concerted re-programming of the cellular transcriptome suggest that the putative TSG may have affected key underlying events in ovarian cancer.

The LN54 radiation hybrid map of zebrafish expressed sequences.

To increase the density of a gene map of the zebrafish, Danio rerio, we have placed 3119 expressed sequence tags (ESTs) and cDNA sequences on the LN54 radiation hybrid (RH) panel. The ESTs and genes mapped here join 748 SSLp markers and 459 previously mapped genes and ESTs, bringing the total number of markers on the LN54 RH panel to 4226. Addition of these new markers brings the total LN54 map size to 14,372 cR, with 118 kb/cR. The distribution of ESTs according to linkage groups shows relatively little variation (minimum, 73; maximum, 201). This observation, combined with a relatively uniform size for zebrafish chromosomes, as previously indicated by karyotyping, indicates that there are no especially gene-rich or gene-poor chromosomes in this species. We developed an algorithm to provide a semiautomatic method for the selection of additional framework markers for the LN54 map. This algorithm increased the total number of framework markers to 1150 and permitted the mapping of a high percentage of sequences that could not be placed on a previous version of the LN54 map. The increased concentration of expressed sequences on the LN54 map of the zebrafish genome will facilitate the molecular characterization of mutations in this species.

Characterization of a zebrafish/mouse somatic cell hybrid panel.

We have characterized a collection of zebrafish/mouse somatic cell hybrids with 211 genes and markers chosen from the 25 zebrafish linkage groups. Most of the zebrafish genome is represented in this collection with 88% of genes/markers present in at least one hybrid cell line. Although most hybrids contain chromosomal fragments, there are a few instances where a complete or nearly complete zebrafish chromosome has been maintained in a mouse background, based on multiple markers covering the entire chromosome. In addition to their use in mapping studies, this collection of somatic cell hybrids should constitute an important tool as a source of specific chromosome fragments and for assessing the function of genome regions.

Links between Fer tyrosine kinase expression levels and prostate cell proliferation.

In our cloning strategy to identify tyrosine kinases implicated in the regulation of prostate growth, the dog fer cDNA was obtained and shown to be highly homologous to known fer cDNAs. Using a polyclonal Fer antibody directed against a C-terminal peptide, we studied its associations with cortactin, beta-catenin and p120Cas in human prostate carcinoma PC-3 cells. In contrast to previous reports, no interactions were observed. To assess its functional role, fer cDNA constructs were transfected in PC-3 cells. Antisense clones exhibiting a marked diminution of Fer expression had a reduced growth rate (doubling time of 29 vs. 42 h) and were unable to form colonies in soft agar. In agreement with these results, Fer protein expression was linked to human prostatic proliferative diseases, with enhanced levels in extracts from cancer tissues as compared to those from normal and hyperplastic ones, and was also expressed in the human prostate carcinoma cell lines DU145 and LNCaP. In the dog model, Fer expression was up-regulated in dividing versus resting prostate epithelial cells in vitro, and also in vivo when basal cell hyperplasia and metaplasia was induced by estrogen after castration. Minimal effects were observed when renewing the luminal epithelium with androgens. Taken together, these results show that Fer expression is associated with prostate cell proliferation and enhanced in prostate cancer.

Radiation hybrid mapping of the zebrafish genome.

The zebrafish is an excellent genetic system for the study of vertebrate development and disease. In an effort to provide a rapid and robust tool for zebrafish gene mapping, a panel of radiation hybrids (RH) was produced by fusion of irradiated zebrafish AB9 cells with mouse B78 cells. The overall retention of zebrafish sequences in the 93 RH cell lines that constitute the LN54 panel is 22%. Characterization of the LN54 panel with 849 simple sequence length polymorphism markers, 84 cloned genes and 122 expressed sequence tags allowed the production of an RH map whose total size was 11,501 centiRays. From this value, we estimated the average breakpoint frequency of the LN54 RH panel to correspond to 1 centiRay = 148 kilobase. Placement of a group of 235 unbiased markers on the RH map suggests that the map generated for the LN54 panel, at present, covers 88% of the zebrafish genome. Comparison of marker positions in RH and meiotic maps indicated a 96% concordance. Mapping expressed sequence tags and cloned genes by using the LN54 panel should prove to be a valuable method for the identification of candidate genes for specific mutations in zebrafish.

A radiation hybrid map of 48 loci including the clouston hidrotic ectodermal dysplasia locus in the pericentromeric region of chromosome 13q.

To facilitate the identification of the gene responsible for Clouston hidrotic ectodermal dysplasia (HED), we used a chromosome 13-specific radiation hybrid panel to map 54 loci in the HED candidate region. The marker retention data were analyzed using RHMAP version 3. The 54 markers have an average retention frequency of 31.6% with decreasing retention as a function of distance from the centromere. Two-point analysis identified three linkage groups with a threshold lod score of 4.00; one linkage group consisted of 49 loci including the centromeric marker D13Z1 and the telomeric flanking marker for the HED candidate region D13S143. Assuming a centromeric retention model, multipoint maximum likelihood analysis of these 49 loci except D13Z1 provided a 1000:1 framework map ordering 29 loci with 21 unique map positions and approximately 2000 times more likely than the next order. Loci that could not be ordered with this level of support were positioned within a range of adjacent intervals. This map spans 347 cR9000, has an average resolution of 17.3 cR9000, and includes 3 genes (TUBA2, GJbeta2, and FGF-9), 18 ESTs, 19 polymorphic loci, and 8 single-copy DNA segments. Comparison of our RH map to a YAC contig showed an inconsistency in order involving a reversed interval of 6 loci. Fiber-FISH and FISH on interphase nuclei analyses with PACs isolated from this region supported our order. We also describe the isolation of 8 new chromosome 13q polymorphic (CA)n markers that have an average PIC value of 0.67. These data and mapping reagents will facilitate the isolation of disease genes from this region.

SURF1, encoding a factor involved in the biogenesis of cytochrome c oxidase, is mutated in Leigh syndrome.

Leigh Syndrome (LS) is a severe neurological disorder characterized by bilaterally symmetrical necrotic lesions in subcortical brain regions that is commonly associated with systemic cytochrome c oxidase (COX) deficiency. COX deficiency is an autosomal recessive trait and most patients belong to a single genetic complementation group. DNA sequence analysis of the genes encoding the structural subunits of the COX complex has failed to identify a pathogenic mutation. Using microcell-mediated chromosome transfer, we mapped the gene defect in this disorder to chromosome 9q34 by complementation of the respiratory chain deficiency in patient fibroblasts. Analysis of a candidate gene (SURF1) of unknown function revealed several mutations, all of which predict a truncated protein. These data suggest a role for SURF1 in the biogenesis of the COX complex and define a new class of gene defects causing human neurodegenerative disease.

Characterization of two polymorphic sites in the human kinin B1 receptor gene: altered frequency of an allele in patients with a history of end-stage renal failure.

On the basis of the genomic structure of the human B1 receptor (B1R) for kinins, the presence of possible allelic polymorphisms of this gene was investigated using restriction fragment-length polymorphism and single-strand conformation polymorphism. The frequencies of the found alleles were determined in healthy volunteers and in patients with a history of end-stage renal failure, because there is evidence for a nephroprotective action of the kallikrein-kinin system. An A1098-->G polymorphism has been identified in exon 3 in a minority of volunteer blood donors, and is located 35 nucleotides downstream from the stop codon and 14 nucleotides upstream from the polyadenylation signal. The frequency of the G allele is 4.4% in the control sample and not significantly altered in patients with a history of end-stage renal failure. A second and more frequent polymorphism (18.1% of the alleles in the control group, prevalence of 33.3%) consists of a single base substitution (G-699-->C) in the putative promoter region. This polymorphism is significantly less frequent in the population of renal failure patients (prevalence of 20.6%) and determines an increased activity of the promoter function in constructions involving a reporter gene. The altered prevalence of this allele was also found in some etiologic subgroups of uremic patients. This study confirms the mapping of the B1R gene to 14q32. Other investigators have mapped the bradykinin B2 receptor (B2R) gene to a close site on human chromosome 14. A previously described B2R polymorphism (exon 2, C181-->T) had an allele frequency of 9.7% in the control sample and appears to be clinically neutral. The polymorphism of the B1R promoter may be a marker of prognostic significance for the preservation of renal function in diseased individuals.

A microsatellite genetic linkage map for zebrafish (Danio rerio).

We have constructed a zebrafish genetic linkage map consisting of 705 simple sequence-length polymorphism markers (SSLPs). The map covers 2350 centimorgans (cM) of the zebrafish genome with an average resolution of 3.3 cM. It is a complete map in genetic mapping terms (there is one linkage group for each of the 25 chromosomes), and it has been confirmed by somatic-cell hybrids and centromere-mapping using half-tetrad analysis. The markers are highly polymorphic in the zebrafish strains used for genetic crosses and provide a means to compare genetic segregation of developmental mutations between laboratories. These markers will provide an initial infrastructure for the positional cloning of the nearly 600 zebrafish genes identified as crucial to vertebrate development,and will become the anchor for the physical map of the zebrafish genome.

Contribution of zebrafish-mouse cell hybrids to the mapping of the zebrafish genome.

The zebrafish, Danio rerio, is becoming an increasingly popular model for the study of vertebrate development. Indeed, the biology of the fish offers great advantages for such studies. The life cycle of the zebrafish is relatively short (2-3 months) and the embryos develop outside the mother, facilitating the visualization of any mutated phenotype. At present, more than 1000 embryonic mutations have been reported. However, until recently, there was no physical or genetic map for this organism. In an effort to generate such a map, we have produced and characterized a panel of zebrafish-mouse cell hybrids. We have used whole-cell fusion to transfer zebrafish chromosomes from two different zebrafish cell lines into mouse recipient cells, thus generating more than 100 hybrids. Using fluorescence in situ hybridization and polymerase chain reaction analysis, we have determined the zebrafish chromosome composition of these hybrids. Here we report that elements from the 25 linkage groups of the zebrafish genome are present in our hybrids. These hybrids could identify the chromosomal location of genes affected in zebrafish mutants.

Human chromosome 3 mediates growth arrest and suppression of apoptosis in microcell hybrids.

Chemotherapeutic treatment of tumor cells leads either to tumor cell death (usually by apoptosis) or to the formation of drug-resistant subpopulations. Known mechanisms of cancer cell drug resistance include gene amplification and increased expression of drug transporters. On the other hand, normal cells survive many forms of chemotherapy with minimal damage probably because of their capacity for growth arrest and stringent control of apoptosis. Microcell hybrids between B78 (murine melanoma) and HSF5 (normal human fibroblasts) were analyzed to identify a new human chromosomal region involved in the promotion of drug-induced growth arrest and suppression of apoptosis. In these hybrids, the presence of human chromosome 3 was strongly associated with suppression of apoptosis via G1 and G2 growth arrest during exposure to the antimetabolite N-phosphonoacetyl-L-aspartate (PALA), suggesting that a gene(s) on chromosome 3 serves an antiproliferative role in a drug-responsive growth arrest pathway.

Stable transfer of zebrafish chromosome segments into mouse cells.

Whole-cell fusion between zebrafish fibroblast-like ZF4 cells and mouse B78 melanoma cells resulted in hybrids containing one or a few zebrafish chromosome segments in a murine chromosomal background. Fluorescence in situ hybridization to hybrid cell metaphases with a zebrafish genomic DNA probe revealed that many hybrids contained zebrafish chromosome segments that were either inserted or translocated to a mouse chromosome, whereas other hybrids contained zebrafish chromosomes with no evidence of insertion or translocation. We have assigned hybrids to 17 linkage groups of the genetic map of the zebrafish genome. Our results demonstrate the feasibility of producing somatic cell hybrids between distantly related species. Zebrafish/mouse cell hybrids will provide a useful tool for the physical mapping of the zebrafish genome and for the cloning of genes affected in zebrafish mutants.

Mermaid: a family of short interspersed repetitive elements widespread in vertebrates.

We have discovered a family of short interspersed repetitive elements (SINEs) that are present in the genomes of fish, amphibian and primates. The family of the SINEs, designated mermaid, is distinctive in each species except for a conserved region of approximately 80 bp. Some members of the mermaid family were found in transposon-like repetitive elements, including Tcl-like elements which were also distributed in the genomes of fish and amphibian. This raises the possibility of horizontal transfer of the mermaid family between vertebrates via transposons.

Mermaid, a family of short interspersed repetitive elements, is useful for zebrafish genome mapping.

A family of short interspersed repetitive elements (SINEs), designated mermaid, is present in the genomes of fish, amphibian and primates, but absent in the mouse genome. We have demonstrated that the sequences of the mermaid family are highly polymorphic in the zebrafish genome as in the human genome. We have also shown that the mermaid sequence can be used to recover zebrafish specific DNA from zebrafish-mouse cell hybrids by using mermaid-specific oligonucleotides as PCR primers. Thus, the mermaid family serves as a valuable genetic tool for the zebrafish genome mapping.

Construction and analysis of microcell hybrids containing dual selectable tagged human chromosomes.

We have constructed a panel of human x murine microcell hybrids containing individual human chromosomes tagged with a dual selectable marker conferring hygromycin B resistance and ganciclovir sensitivity. Over 500 independent microcell hybrids (B78MC) were generated and more than 200 individually isolated. We have identified the human chromosome content of several B78MC hybrids and verified that the majority are responsive to positive and negative selection. Once fully characterized, this panel will be useful in the study of dominant regulators of gene activity, such as tissue specific regulators and tumor suppressor genes.

Identification of chromosomes implicated in suppression of apoptosis in somatic cell hybrids.

In vitro exposure of tumorigenic cell lines to the chemotherapeutic agent PALA (N-(phosphonoacetyl)-L-aspartate) usually results in cell death (shown here to be apoptosis), followed by clonal growth of rare survivors. On the other hand, normal diploid cells respond to PALA by arresting in G1 and G2 of the cell cycle. It was previously suggested that growth control mechanisms might exist to prevent cells from entering S phase under toxic conditions and that genes involved in such mechanisms were mutated or deleted in tumor cells. Interestingly, the tumor suppressor gene p53, a putative G1 control gene, was shown to mediate PALA-induced growth arrest. However, growth arrest occurs in cells that lack wild-type p53, suggesting that other genes are involved as well. To identify these genes, we have generated whole cell hybrids between mouse melanoma and normal human fibroblast cells. At early passage, a whole cell hybrid (BHF12) responds to PALA with growth arrest, while at later passage, the same hybrid undergoes apoptosis. To determine which human chromosomes are required for the PALA-induced growth arrest phenotype, we isolated subclones of the hybrid and tested them for their PALA response. FISH (fluorescence in situ hybridization) and PCR (polymerase chain reaction) amplification have been used to identify the human chromosome content of BHF12 and its subclones. Several human chromosomes, in addition to chromosome 17 (the location of p53), are consistently associated with the growth arrest phenotype.(ABSTRACT TRUNCATED AT 250 WORDS)

The Unp proto-oncogene encodes a nuclear protein.

The mouse Unp gene is related to TRE17, a human oncogene, but is not its mouse homolog. Unp is a ubiquitously expressed gene producing two related mRNAs. The protein product of Unp is localized in the nucleus. Expression of Unp from a highly active promoter results in tumorigenic transformation of NIH3T3 cells injected into athymic mice. Unp therefore encodes a novel nuclear oncoprotein.

Suppression of tumorigenicity of human prostate cancer cells by introduction of human chromosome del(12)(q13).

The introduction of normal chromosomes into tumor cells by microcell fusion-mediated transfer is a powerful technique to identify putative tumor suppressor genes. We have used this approach to independently transfer human chromosomes 3 and 12 into a human prostate cancer cell line, DU 145. We showed that while the extra copy of chromosome 3 had no effect on the in vivo tumorigenicity of these cells, microcell hybrids containing an introduced portion of chromosome 12 (12pter-12q13) exhibited complete suppression of tumorigenicity in athymic nude mice. The presence of a dual selectable marker facilitated the selection for cells having segregated del(12)(q13). Loss of this fragment in three different clones led to reexpression of the malignant phenotype. These results demonstrate that one or more genes on human chromosome 12 function as tumor suppressors of prostate carcinogenesis.