Genome Wide Conditional Mouse Knockout Resources.

The International Knockout Mouse Consortium (IKMC) developed high throughput gene trapping and gene targeting pipelines that produced mostly conditional mutations of more than 18,500 genes in C57BL/6N mouse embryonic stem (ES) cells which have been archived and are freely available to the research community as a frozen resource. From this unprecedented resource more than 6,000 mutant mouse strains have been produced by the IKMC and mostly the International Mouse Phenotyping Consortium (IMPC). In addition, a cre-driver resource was established including 250 inducible cre-driver mouse strains in a C57BL/6 background. Complementing the cre-driver resource, a collection of comprising 27 cre-driver rAAVs has also been produced. The resources can be easily accessed at the IKMC/IMPC web portal (www.mousephenotype.org). The IKMC/IMPC resource is a standardized reference library of mouse models with defined genetic backgrounds that enables the analysis of gene-disease associations in mice of different genetic makeup and should therefore have a major impact on biomedical research.

Genomewide trapping of genes that encode secreted and transmembrane proteins repressed by oncogenic signaling.

A retroviral gene trap containing a human CD2 cell surface antigen/neomycin-phosphotransferase fusion gene in the U3 region of its LTR (U3Ceo) was used to screen the mammalian genome for genes encoding secreted and/or transmembrane proteins that are repressed by oncogenic transformation. From an integration library consisting of cells transformable by the insulin-like growth factor 1 (IGF-1), a collection of neomycin resistant (Neo(R)) clones was obtained; 86% also expressed the CD2 cell surface antigen. Molecular analysis of a random sample of Neo(R) clones revealed that the U3Ceo gene trap preferentially disrupted genes coding for secreted and transmembrane proteins. In each case, the signal sequence of the endogenous gene was fused in-frame to the CD2/neomycin-phosphotransferase reporter gene due to a cryptic splice acceptor site embedded in the coding region of the CD2 cDNA. When the library was transformed by IGF-1 and selected against CD2 expression, integrations were obtained in genes that are repressed by transformation. Molecular analysis of six randomly chosen integrations revealed that, in each case, U3Ceo captured a signal sequence from proteins involved in oncogenic transformation and metastatic spread.

Self-deleting suicide vectors (SDSV): selective killing of p53-deficient cancer cells.

A self-deleting retrovirus vector carrying a herpes simplex virus (HSV)-thymidine kinase suicide gene has been developed to selectively kill cancer cells expressing a dysfunctional p53 tumor suppressor protein. When cells containing functional p53 are infected with the virus, the integrated provirus and the HSV-thymidine kinase gene are deleted from the genome by site-specific recombination (Cre/loxP). In contrast, cells without p53 or cells expressing a DNA-binding mutant of p53 retain the provirus and become susceptible to killing by ganciclovir. This strategy provides a new concept for the selective killing of cancer cells that can be adapted to any other dysfunctional transcription factor expressed by different tumors.

Disruption of genes regulated during hematopoietic differentiation of mouse embryonic stem cells.

A retroviral gene trap vector (U3Tkneo) that selects for integrations in or near expressed 5' exons has been used to identify genes that are repressed during hematopoietic differentiation of mouse totipotent embryonic stem cells. The vector contains coding sequences for an HSV-thymidine kinase/neomycin phosphotransferase fusion protein in the U3 region of a Moloney murine leukemia virus LTR and allows selection for (G418) and against (Ganciclovir; GC) U3 gene expression. A total of 208 neomycin-resistant clones were isolated following infection with U3tkneo and screened for integrations into regulated genes by using a two-step, semisolid culture system that supports hematopoietic differentiation. Two clones contained U3Tkneo integrations in genes that were repressed selectively in hematopoietic cells. Analysis of upstream proviral flanking sequences indicated that both integrations occurred into unknown genes. One up-stream sequence identified a cellular transcript that was expressed differentially in the kidneys and liver of adult mice. When this fusion gene was passaged to the germ line, homozygous offspring with nearly null mutations were obtained. However, mutant mice were normal, suggesting that potential loss of function phenotypes are subtle and may be restricted to the kidneys and the liver.

Gene trapping identifies inhibitors of oncogenic transformation. The tissue inhibitor of metalloproteinases-3 (TIMP3) and collagen type I alpha2 (COL1A2) are epidermal growth factor-regulated growth repressors.

A gene trap strategy has been used to identify genes that are repressed in cells transformed by an activated epidermal growth factor (EGF)/EGF receptor signal transduction pathway. EGF receptor-expressing NIH3T3 cells (HER1 cells) were infected with a retrovirus containing coding sequences for the human CD2 antigen and for secreted alkaline phosphatase in the U3 region. By selecting for and against CD2 expression, we obtained clones in which the gene trap had integrated into genes selectively repressed by EGF. Two of these clones encoded for the secreted extracellular matrix proteins TIMP3 and COL1A2. We show here that both genes are downstream targets of RAS and are specifically repressed by EGF-induced transformation. Moreover, this strategy tags tumor suppressor genes in their normal chromosomal location, thereby improving target-specific screens for antineoplastic drugs.

Selective disruption of genes transiently induced in differentiating mouse embryonic stem cells by using gene trap mutagenesis and site-specific recombination.

A strategy employing gene trap mutagenesis and site-specific recombination (Cre/loxP) has been used to identify genes that are transiently expressed during early mouse development. Embryonic stem cells expressing a reporter plasmid that codes for neomycin phosphotransferase and Escherichia coli LacZ were infected with a retroviral gene trap vector (U3Cre) carrying coding sequences for Cre recombinase (Cre) in the U3 region. Activation of Cre expression from integrations into active genes resulted in a permanent switching between the two selectable marker genes and consequently the expression of beta-galactosidase (beta-Gal). As a result, clones in which U3Cre had disrupted genes that were only transiently expressed could be selected. Moreover, U3Cre-activating cells acquired a cell autonomous marker that could be traced to cells and tissues of the developing embryo. Thus, when two of the clones with inducible U3Cre integrations were passaged in the germ line, they generated spatial patterns of beta-Gal expression.

New vectors for gene therapy.

Retrovirus-based vectors are presently the most efficient gene transfer vehicles for introducing genes into human hematopoietic stem and progenitor cells. However, their use for gene therapy is still problematic. A major obstacle is viral sequences such as the tRNA primer binding site or the dimerization and encapsidation signals that are not required for the expression of the therapeutic gene. These sequences can recombine with endogenous and/or exogenous retroviruses to generate new forms of unpredictable retroviruses. Moreover, these sequences are the targets for transcriptional repressors which inhibit the expression of the transduced genes. Therefore we have developed a new generation of retrovirus vectors which self-delete upon integration. The vectors are based on the natural life cycle of retroviruses, involving duplication of the terminal control regions U5 and U3 to generate long terminal repeats, and on the ability of the P1-phage site-specific recombinase (Cre) to excise any sequences positioned between two target sequences (loxP). Thus, while inserting a therapy gene into the genome, the vectors simultaneously excise most proviral sequences that are not required for gene expression.

Identification of genes induced by factor deprivation in hematopoietic cells undergoing apoptosis using gene-trap mutagenesis and site-specific recombination.

A strategy employing gene-trap mutagenesis and site-specific recombination (Cre/loxP) has been developed to isolate genes that are transcriptionally activated during programmed cell death. Interleukin-3 (IL-3)-dependent hematopoietic precursor cells (FDCP1) expressing a reporter plasmid that codes for herpes simplex virus-thymidine kinase, neomycin phosphotransferase, and murine IL-3 were transduced with a retroviral gene-trap vector carrying coding sequences for Cre-recombinase (Cre) in the U3 region. Activation of Cre expression from integrations into active genes resulted in a permanent switching between the selectable marker genes that converted the FDCP1 cells to factor independence. Selection for autonomous growth yielded recombinants in which Cre sequences in the U3 region were expressed from upstream cellular promoters. Because the expression of the marker genes is independent of the trapped cellular promoter, genes could be identified that were transiently induced by IL-3 withdrawal.

Reversible tumorigenesis in mice by conditional expression of the HER2/c-erbB2 receptor tyrosine kinase.

In the present study we describe the reversible transformation of NIH3T3 fibroblasts by overexpression of the HER2/c-erbB2 receptor tyrosine kinase. Cell lines expressing HER2 under control of a tetracycline-responsive promoter were isolated. Induction of HER2 expression resulted in cellular transformation in vitro as depicted by growth in soft agar and focus formation in tissue culture. Subsequent treatment of these cells with the effector anhydrotetracyline switched-off HER2 expression and induced morphological and functional changes characteristic for non-transformed cells. Subcutaneous transplantation of cells in nude mice resulted in the formation of solid tumors. Interestingly tumor formation was completely suppressed by treatment of the animals with anhydrotetracyline. Our findings indicate that overexpression of HER2 induces the transformed phenotype of NIH3T3 cells and is required for tumor formation and progression in nude mice. By linking the expression of the marker gene secreted placental alkaline phosphatase to the expression of HER2, a sensitive monitoring of tumor development in nude mice was feasible.

Self-deleting retrovirus vectors for gene therapy.

A new generation of retrovirus vectors for gene therapy has been developed. The vectors have the ability to excise themselves after inserting a gene into the genome, thereby avoiding problems encountered with conventional retrovirus vectors, such as recombination with helper viruses or transcriptional repression of transduced genes. The strategy exploited (i) the natural life cycle of retroviruses, involving duplication of terminal control regions U5 and U3 to generate long terminal repeats (LTRs) and (ii) the ability of the P1 phage site-specific recombinase (Cre) to excise any sequences positioned between two loxP target sequences from the mammalian genome. Thus, an independently expressed selectable marker gene flanked by a loxP target sequence was cloned into the U3 region of a Moloney murine leukemia virus vector. A separate cassette expressing the Cre recombinase was inserted between the LTRs into the body of the virus. LTR-mediated duplication placed vector sequences, including Cre, between loxP sites in the integrated provirus. This enabled Cre to excise from the provirus most of the viral and nonviral sequences unrelated to transcription of the U3 gene.

A murine homolog of the yeast RNA1 gene is required for postimplantation development.

A gene has been characterized that is required for postimplantation mouse development. The gene, designated fug1, was disrupted in embryonic stem cells by the U3Neo gene trap retrovirus, and the disrupted allele was introduced into the germ line. Homozygous mutant embryos arrest at the egg cylinder stage at about embryonic day 6 and are mostly resorbed by day 8.5. The appearance of the proamniotic cavity is delayed, and epiblast cells that surround the cavity are disorganized. fug1 transcripts are undetectable at E6 but are induced throughout the embryo after E6.5. The gene is expressed at low levels in all adult tissues examined, maps to chromosome 15, and is conserved among mammals. The cDNA sequence encodes a protein of 589 amino acids, the first 400 of which are 38% identical to the Saccaromyces cerevisiae RNA1 gene. Regions of greatest similarity include a long acidic domain and 11 leucine-rich motifs, thought to mediate high affinity protein-protein interactions. These similarities suggest that Fug1 may be required for developmental changes in RNA processing or chromatin structure prior to gastrulation.

In patients with BCR-ABL-positive ALL in CR peripheral blood contains less residual disease than bone marrow: implications for autologous BMT.

Residual leukemic cells are detectable at frequencies as low as 1 in 10(6) normal cells in patients with Philadelphia chromosome/BCR-ABL-positive leukemias in complete remission (CR) using reverse-transcriptase polymerase chain reaction (RT-PCR) with specific nested primers. The level of minimal residual disease (MRD) in the bone marrow (BM) and the peripheral blood (PB) may favor one of the two as the source for an autologous graft. In order to quantify MRD with RT-PCR we analyzed patients ficolled cells after limiting logarithmic dilutions in normal ficolled buffy-coat cells. In six patients with BCR-ABL-pos ALL who were in CR by conventional criteria (5 in CR1 and 1 in CR2), we studied a total of nine paired BM and PB samples prior to scheduled ABMT. A positive RT-PCR signals was detectable in all samples up to dilutions ranging from 1:10(1) to 1:10(3) in PB, and at higher titers ranging from 1:10(3) to 1:10(5) in the BM. The BM titers exceeded the corresponding PB titers in all nine sample pairs by at least 1 log. The mean difference was 1.55 log (geometric mean, n = 9) and is statistically significant (p < 0.03). We conclude that residual leukemia in BCR-ABL-positive ALL preferentially locates in the BM compartment, and we assume that PB may yield autologous grafts with significantly less leukemic contamination.

Fluorescence-activated sorting of totipotent embryonic stem cells expressing developmentally regulated lacZ fusion genes.

Murine embryonic stem (ES) cells were infected with a retrovirus promoter trap vector, and clones expressing lacZ fusion genes (LacZ+) were isolated by fluorescence-activated cell sorting (FACS). Of 12 fusion genes tested, 1 was repressed when ES cells were allowed to differentiate in vitro. Two of three lacZ fusion genes tested were passed into the germ line, indicating that FACS does not significantly affect stem cell totipotency. The pattern of lacZ expression observed in vivo was consistent with that seen in vitro. Both fusion genes were expressed in preimplantation blastulas. However, a fusion gene whose expression was unaffected by in vitro differentiation was ubiquitously expressed in day-10 embryos, while the other, which showed regulated expression in vitro, was restricted to cells located along the posterior neural fold, the optic chiasm, and within the fourth ventricle. These results demonstrate the utility of using promoter trap vectors in conjunction with fluorescence sorting to disrupt developmentally regulated genes in mice.

Selective disruption of genes expressed in totipotent embryonal stem cells.

Two retrovirus promoter trap vectors (U3His and U3Neo) have been used to disrupt genes expressed in totipotent murine embryonal stem (ES) cells. Selection in L-histidinol or G418 produced clones in which the coding sequences for histidinol-dehydrogenase or neomycin-phosphotransferase were fused to sequences in or near the 5' exons of expressed genes, including one in the developmentally regulated REX-1 gene. Five of seven histidinol-resistant clones and three of three G418-resistant clones generated germ-line chimeras. A total of four disrupted genes have been passed to the germ line, of which two resulted in embryonic lethalities when bred to homozygosity. The ability to screen large numbers of recombinant ES cell clones for significant mutations, both in vitro and in vivo, circumvents genetic limitations imposed by the size and long generation time of mice and will facilitate a functional analysis of the mouse genome.

Retrovirus promoter-trap vector to induce lacZ gene fusions in mammalian cells.

A retrovirus promoter-trap vector (U3LacZ) has been developed in which Escherichia coli lacZ coding sequences were inserted into the 3' long terminal repeat (LTR) of an enhancerless Moloney murine leukemia virus. The U3LacZ virus contains the longest reported LTR (3.4 kbp); nevertheless, lacZ sequences did not interfere with the ability of the virus to transduce a neomycin resistance gene expressed from an internal promoter. Duplication of the LTR placed lacZ sequences in the 5' LTR just 30 nucleotides from the flanking cellular DNA. Approximately 0.4% of integrated proviruses expressed beta-galactosidase as judged by 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside (X-Gal) staining, and individual clones expressing lacZ were isolated by fluorescence-activated cell sorting. In all clones examined, beta-galactosidase expression resulted from the fusion of lacZ sequences to transcriptional promoters located in the flanking cellular DNA. Furthermore, by differential sorting of neomycin-resistant cell populations, clones were isolated in which lacZ expression was induced and repressed in growth-arrested and log phase cells, respectively.

Retroviruses as genetic tools to isolate transcriptionally active chromosomal regions.

By exploiting the ability of retroviruses to move genes into random sites of mammalian genomes and by exploiting some features of their replication, retrovirus vectors have been developed that select for instances in which the virus integrates into expressed genes. Since integrated proviruses tag transcriptionally active sites, the vectors provide a means to identify and isolate promoters active in different cell types. Furthermore, the viruses may be useful as insertional mutagens, since they select for instances in which integration occurs into expressed sites. This reduces the number of integrants needed to screen for loss of gene function and may enable genes controlling phenotypes in mammalian cells to be isolated.

Isolation of cellular promoters by using a retrovirus promoter trap.

A retrovirus vector has been used to isolate transcriptional promoters from mammalian cells. The virus contains a selectable gene encoding histidinol dehydrogenase (his) in the U3 region of the 3' long terminal repeat (LTR). When the virus is passaged, duplication of LTRs places his sequences just 30 nucleotides from the adjacent cellular DNA. As a result, selection for histidinol resistance generates cell clones in which his is expressed on transcripts initiating in the flanking cellular DNA. Upstream cellular sequences, cloned after amplification by polymerase chain reaction, hybridized to RNA from uninfected cells, indicating that the adjacent promoters were transcriptionally active prior to virus integration. Two cloned transcribed flanking sequences also contained highly active transcriptional promoters, as estimated by their ability to activate expression of a linked reporter gene. Thus, U3His vectors provide a rapid and efficient means to isolate promoters active in different cell types. Moreover, by selecting for cell clones containing proviruses integrated in expressed genes, the virus may make an effective insertional mutagen.

Identification of cellular promoters by using a retrovirus promoter trap.

A retrovirus vector has been developed that selects for instances in which the provirus integrates in close proximity to cellular promoters. Coding sequences for a selectable marker (histidinol dehydrogenase) were inserted into the 3' long terminal repeat (LTR) of an enhancerless Molony murine leukemia virus. Although 1.8 kilobase pairs in size, the elongated LTR did not appear to interfere with virus replication or integration. Thus, when the virus was passaged, the elongated LTRs efficiently duplicated, placing histidinol dehydrogenase-coding sequences in the 5' LTR just 30 nucleotides from the flanking cellular DNA. Selection for histidinol expression generated cell clones in which histidinol gene sequences in the 5' LTR were invariably expressed on transcripts initiating in nearby cellular sequences. The efficiency of transducing histidinol resistance was 2,500-fold lower than the efficiency of transducing neomycin resistance when the neomycin phosphotransferase gene was located within the retrovirus and expressed from an independent promoter. By tagging transcriptionally active sites, the vector provides a means to identify and isolate promoters active in different cell types. Furthermore, the virus may be useful as an insertional mutagen, since selection for cell populations containing proviruses only in expressed sites is expected to reduce the number of intergrants needed to screen for loss of gene function.